C opeland General Product Guide 2013
C o p e la n d
Alco Controls
brand products
General Product Guide 2013
For Refrigeration, Air Conditioning and Heat Pumps
Climate Technologies
http://holodko.ru/
♦
EMERSON.
Climate Technologies
C a p B la n d '
Alco Controls
brand products
" n fiE la n ii Scroll'
'opelantlScroll'
digital
’ope/andScroll'
digital heating
'apelantlScroll'
variable speed
DWM COPELAND
C
o p e la n d "
EazyCooF
Note:
The components listed in this catalogue are not released for use with caustic, poisonous or flammable substances.
Emerson Climate Technologies cannot be held responsible for any damage caused by using these substances.
General Information
Technical data provided herein is collected with scrutiny. However, errors and misprinting remain reserved. The technical data is pre­
sented for informational purposes only and they are not to be construed as warranties or guarantees, express or implied, regarding the
products or services described or their use or applicability.
Technical data may be updated; should you require confirmation with respect to a specific value, please contact Emerson Climate Tech­
nologies GmbH and clearly state the information you require.
Emerson Climate Technologies GmbH and/or its affiliates (collectively “ Emerson”) shall not be liable for errors in the stated capacities,
dimensions, etc., as well as typographic errors. Products, specifications, designs and technical data contained in this document are sub­
ject to modification by us w ithout prior notice. Illustrations are not binding.
Emerson does not assume responsibility for the selection, use or maintenance of any product. Responsibility for proper selection, use
and maintenance of any product remains solely with the purchaser and end-user.
The information given herein is based on data and tests which Emerson Climate Technologies GmbH believes to be reliable. Such infor­
mation is intended for use by individuals having the appropriate technical knowledge and skills, at their own discretion and risk. Our
products are designed and adapted for stationary application. When using our products in mobile applications, our products might fail.
The suitability for such mobile applications has to be assured by the plant manufacturer; for this purpose appropriate tests might be
necessary.
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Scroll Compressors
- Comfort
• ZR Copeland Scroll™ Compressor Range for R407C and R134a
10
• ZP Copeland Scroll™ Compressor Range for R410A
14
• ZPD & ZRD Copeland Digital Scroll™ Compressor Range
18
• ZH Copeland Scroll™ Compressor Range
22
• ZPV & ZHW Copeland Scroll™ Variable Speed Compressor Range
26
• ZRH & ZBH Copeland Scroll™ Horizontal Compressor Range
28
- Refrigeration
•ZB Copeland Scroll™ Compressor Range for Medium Temperature Refrigeration
32
• ZF Copeland Scroll™ Compressor Range for Low Temperature Refrigeration
36
• ZFD & ZBD Copeland Digital Scroll™ Compressor Range for Low and Medium Temperature Refrigeration
40
• ZO & ZOD Copeland Scroll™ Compressor Range for CO2-Subcritical Refrigeration
44
• Sound Shell for Copeland Scroll™ Compressors
46
• Booster Compressors - S-Series & Scroll
48
Semi-Hermetic Reciprocating Compressors
- K and L Reciprocating Compressor Range
52
- Discus™ Reciprocating Compressor Range
56
- Copeland™ Stream With CoreSense™ Diagnostics, Semi-Hermetic Reciprocating Compressors For HFC
62
- Copeland™ Stream Digital with CoreSense™ Diagnostics for Continuous Capacity Modulation
66
- Copeland™ Stream Compressors with CoreSense™ Diagnostics for R744-Transcritical Applications
70
- S-Series Reciprocating Compressor Range
72
Condensing Units
- Copeland EazyCool™ Outdoor Condensing Units with Scroll Compressors
80
- Copeland EazyCool™ Outdoor Condensing Units for Refrigeration Networks
86
- Copeland EazyCool™ ZX Outdoor Condensing Units with Scroll Compressors
90
- Copeland Scroll™ Indoor Condensing Units for Refrigeration
94
- Copeland Scroll™ Digital Receiver Unit HLR
102
- Semi-Hermetic Condensing Units DK/DL
106
- Standard Semi-Hermetic Condensing Units
110
- Condensing Units with Semi-Hermetic Discus™ Compressors
114
Compressor Motor Codes Table
119
Controls
- Alco Keyword Register
124
- Electrical Control Valves
127
- Electronic Controllers and Sensors
155
- Thermo™ Expansion Valves
187
- Solenoid Valves
219
- Mechanical Pressure Regulators
229
- Pressure Controls and Thermostats
237
- System Protectors and Moisture Indicators
253
- Oil Management Components
273
- Suction Accumulators, Ball Valves and Oil Test Kit
281
- Accessories & Spare Parts
285
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Pioneering Technologies For Best-In-Class Products
Emerson Climate Technologies is the world's leading provider
With sales points in Germany, France, Spain, Italy, the United
of heating, ventilation, air conditioning
refrigeration
Kingdom, Scandinavia, Benelux, Poland, as well as in Eastern
solutions for residential, industrial and commercial applications,
Europe and Russia, Emerson Climate Technologies supports its
supporting the industry with advanced technology, technical
European customers in a lean and efficient manner.
and
support and training services.
Our new 2013 product catalogue gives a comprehensive
For more than 80 years we have been introducing innovative
overview of Copeland brand and Alco Controls products. Have a
technology to the market, from the first semi-hermetic and
look and discover more about our broad and innovative product
hermetic compressors in the 1940s and 1950s, plus the high
ranges:
efficiency Discus, air conditioning and heating scroll compressors
• the Variable Speed technology for residential scroll
in the 1980s and 1990s, to the new Stream semi-hermetics, the
compressors, with improved efficiency and optimized
digital scroll compressor and the variable speed scroll with drive
operating envelope,
technology of today.
• and the new commercial scroll compressor models
(ZP236K and ZP296K) now equipped with the CoreSense™
Based on this, we have developed an unequalled range of
Communications module.
solutions for the refrigeration and air conditioning markets. In
recent years, we have become a major solutions provider to the
To harmonize our semi-hermetic compressor ranges in terms
heat pump industry. Our range of Copeland™ brand products
of color and branding, we are changing the product brand and
and Alco Controls addresses the very diverse needs of all of these
the nomenclature of the semi-hermetic compressors for the
markets. With scrolls and semi-hermetic compressors available
K & L-Series and the Discus-range. We will start using the well-
for all main refrigerants, equipped with sm art electronics and
known
capable of Digital and Variable Speed Modulation, Emerson
Copeland” and change the compressor color from grey to black.
‘Copeland
brand
products'
label
replacing
“ DWM
Climate Technologies has taken compression technology to new
heights.
More in-depth technical data is available through our user-friendly
Copeland selection software tool and Alco Controls selection tool
1,300 employees develop and deliver Em erson's high class tech­
accessible via our web pages www.em ersonclim ate.eu;
nology and manufacture our products in four European plants:
For individual consultancy and service please contact your
Belgium, Northern Ireland and the Czech Republic (2 plants).
European sales office.
R&D centres in Welkenraedt (Belgium ), Mikulov (Czech Republic)
and Waiblingen (Germany) enable new developments not only
to meet our custom ers' requirements but also to redefine the
limits of technology.
5
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6
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Copeland Scroll™ Compressors
With the launch of scroll technology in the mid 1980s Emerson
Applications for scroll compressors continue to grow thanks to
revolutionized the market setting new standards in the air
innovation and adaptation. Industry as a whole has embraced its
conditioning industry. Since then, Copeland Scroll has become
responsibility to put the environment first in its list ofpriorities, and
the reference not only in air conditioning but in refrigeration
this has led to strategic imperatives such as the need to introduce
and heating applications too. Thousands of customers trust our
larger capacity scrolls with improved seasonal performance,
proprietary technology: today, over 80 million Copeland Scrolls
modulated systems and product designed for use with “green”
are installed worldwide, more than any other scroll compressor
refrigerants such as CO2. Emerson Climate Technologies is staying
brand. Copeland Scroll compressors range from 1.5 to 40 hp and
abreast of these challenges by successfully further developing its
are designed to work with all the main refrigerants, including
technologies in each of these areas.
CO2. With compressors built in both vertical and horizontal
versions, and capable of digital modulation, Emerson Climate
Technologies has expanded the capability of scroll technology to
new heights.
Additional innovations such as Enhanced Vapor Injection, the
new Variable Speed scroll with drive technology for heat pump
compressors or the design of the Emerson Climate Technologies
sound shell give manufacturers, installers and end users the
right tools to reduce the carbon footprint of their installations,
optimize system design, efficiency, sound and reliability, while
ensuring long equipment life time and minimizing capital and
operating costs.
Today we offer the broadest scroll product line-up in the market
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Comfort Applications
For decades, Emerson Climate Technologies has driven advance­
A further innovation has been the introduction of ZH compres­
ment in the air conditioning and heat pump industry, leading the
sors with Enhanced Vapor Injection technology. This technology,
field with engineering products and systems that maximize the
when applied in space heating and tap water production, permits
comfort of office and living spaces - while minimizing costs and
the replacement of traditional boilers w ithout changing the ra­
inefficiencies.
diators. Additional benefits are the reduction of the discharge
temperature and the extension of the operating envelope for the
Copeland Scroll™ compressors are designed to deliver the high­
production of high temperature water. ZH compressors are avail­
est performance in residential and commercial applications.
able for R407C and also for R410A - the latter option for both resi­
Thanks to the widest selection of air conditioning and heating op­
dential and commercial applications - allowing OEMs to design
timized scroll compressors with a range from 1.5 up to 40 hp and
more efficient and compact equipment.
the option to combine single compressors in even and uneven
tandem and trio versions increasing overall capacity up to 120
New commercial scroll compressor models such as ZP236K and
hp per circuit, it has never been easier to match all desired appli­
ZP296K are now equipped with the CoreSense™ Com munica­
cations with the highest efficiency and reliability. W hether your
tions module. This added feature unlocks advanced diagnostics,
need is a cooling optimized, heating optimized or reversible unit,
protection and communication in Copeland compressors and
you will find the most advanced technology within our range.
sends data to the main system controller via modbus RS485.
One of the most im portant recent introductions for comfort ap­
plications has been the launch of the Variable Speed technology
for scroll compressors. The combination of brushless permanent
magnet motor and inverter drive, that continuously adapts the
compressor speed, improves the efficiency and optimizes it
throughout the operating envelope. This technology was first
introduced as a solution for heat pump applications (ZHW ) and
will be extended in 2013 to reversible and low temperature appli­
cations, with the introduction of the ZPV R410A Variable Speed
Scroll.
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9
ZR Copeland Scroll™ Compressor Range for R407C and R134a
ZR Copeland Scroll compressors, for R407C and R134a, for com ­
fort and process/precision cooling applications.
Applied in the air conditioning and comfort industry for water
chillers, rooftops and close control unit applications, scroll com ­
pressors are now the most used compression technology replac­
ing reciprocating and screw compressors due to its undeniable
superiority. Several, fully Copeland™ qualified, multiple com ­
pressor assemblies (tandem and trio) are available to allow the
use of Copeland Scroll compressors into large capacity systems
(ex. up to 500kW air cooled chillers) able to deliver optimal com ­
fort, low operating cost with higher seasonal efficiency (ESEER).
The range of products goes from the ZR18 (1.5H p) to the ZR380
(30hp)
ZR Scroll Compressor
ZR Scroll Compressor Line-up
ZR (1Ph)
ZR (3Ph)
•
•
•
•
k W Cooling
0
10
Tandem
• • •
30
20
• • • • • •
Trio
40
•
•
•
70
80
50
•
•
•
60
•
•
70
90
80
•
•
•
•
k W Cooling
0
10
20
30
40
50
60
90 1 0 0 1 1 0 1 2 0 130 140 150 160 170 180 190 200 210 220 230 240 250
Conditions EN12900: Evaporating 5°C, Condensing 50°C, Superheat 10K, Subcooling 0K
Features and Benefits
•
•
•
•
•
•
Operating Envelope R407C
Copeland Scroll axial and radial compliance for superior
reliability and efficiency
Wide scroll line-up for R407C and R134a
Low TEWI (Total Equivalent Warming Impact)
Low sound and vibration level
Low oil circulation rate
Copeland qualified tandem and trio configurations for
superior seasonal efficiency (ESEER)
Maximum Allowable Pressure (PS)
•
•
ZR18 to ZR81:
Low Side PS 20 bar(g) / High Side PS 29.5 bar(g)
ZR94 to ZR380:
Low Side PS 20 bar(g) / High Side PS 32 bar(g)
Evaporating Temperature °C
R407C - 10K Superheat
—
—
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ZR 18-81
— ZR 94-190
- - - - -
ZR 144
ZR 250-380
Technical Overview
Stub
Discharge
(inch)
3.0
4.4
3/4
1/2
0.74
242/242/383
20
PFJ
4.5
2.9
5.3
3/4
1/2
1.0 0
242/242/363
22
PFJ
TFD
11
Oil Quantity
(l)
Stub Suction
(inch)
3.7
2.0
Capacity
(kW)
1.5
ZR22K3E
Nominal
hp
Displacement
(m3/h)
Maximum
Operating
Current (A)
ZR18K5E
R407C
P
O
C
Length/
Width/
Heigth
(mm)
Net
Weight
(kg)
Motor Ver­
sion/ Code
1
Ph*
3
Ph**
1 Ph*
3
Ph**
Locked Rotor
Current (A)
1 Ph*
3
Ph**
35
10
4
47
Sound
Pressure
@1 m
(dBA)
54
24
54
ZR28K3E
2.5
5.9
2.9
6.8
3/4
1/2
1.0 0
242/242/363
25
PFJ
TFD
15
5
61
32
54
ZR34K3E
2.8
7.0
3.0
8.0
3/4
1/2
1.10
242/242/386
26
PFJ
TFD
17
6
76
40
57
ZR40K3E
3.5
8.2
3.0
9.4
3/4
1/2
1.10
242/242/400
27
PFJ
TFD
23
7
100
46
57
ZR48K3E
4.0
1 0 .1
3.1
11.4
7/8
1/2
1.36
242/242/417
31
PFJ
TFD
23
10
114
50
57
ZR61KCE
5.0
12.5
3.1
14.4
7/8
1/2
1.6 6
241/247/451
43
PFZ
TFD
30
11
150
65
60
ZR61KSE
5.0
12.8
3.2
14.4
7/8
1/2
1.42
242/242/430
30
TFM
59
61
ZR72KCE
6.0
14.8
3.2
17.1
7/8
1/2
1.77
242/242/438
39
TFD
13
74
61
ZR81KCE
6.8
16.7
3.2
18.7
7/8
3/4
1.77
242/242/446
39
TFD
15
101
61
ZR94KCE
8.0
20.6
3.3
22 .1
1 1/8
7/8
2.65
264/285/476
57
TFD
16
95
63
ZR108KCE
9.0
23.0
3.4
24.9
1 3/8
7/8
3.38
264/285/533
60
TFD
17
111
63
ZR125KCE
1 0 .0
27.0
3.4
29.1
1 3/8
7/8
3.38
264/285/533
61
TFD
19
118
63
ZR144KCE
12.0
30.9
3.4
33.2
1 3/8
7/8
3.38
264/285/533
61
TFD
22
118
64
ZR160KCE
13.0
33.4
3.2
36.4
1 3/8
7/8
3.38
264/285/552
65
TFD
28
140
67
ZR190KCE
15.0
39.3
3.2
43.3
1 3/8
7/8
3.38
264/285/552
66
TFD
34
174
69
11
ZR250KCE
20.0
52.2
3.2
56.6
1 5/8
1 3/8
4.70
432/376/717
140
TWD
41
225
72
ZR310KCE
25.0
65.0
3.2
71.4
1 5/8
1 3/8
6.80
448/392/715
160
TWD
52
272
74
ZR380KCE
30.0
81.7
3.4
87.4
1 5/8
1 3/8
6.30
447/427/724
177
TWD
62
310
76
Cond itio ns EN 12900 : Evaporating 5°C, Condensing 50°C, Superheat 10K, Subcooling 0K
* 1 Ph: 230V/ 50H z
* * 3 Ph: 380 -4 2 0V / 50Hz
* * * @ 1m : sound pressure level at 1m d istan ce from th e com pressor, fre e field condition
Capacity Data
C ondensing Te m p e rature +40°C
C ooling C ap acity (k W )
R407C
P o w e r In p u t (k W )
R407C
Evaporating Tem p erature °C)
Evap o rating Te m p e rature °C)
M odel
-15
-10
-5
0
5
10
15
M odel
-15
-10
-5
0
5
10
15
Z R 18 K5E
1.8
2.3
2.8
3.5
4.2
5.1
6 .1
Z R 18 K5E
1.0
1.0
1.0
1.0
1.0
1.0
1.0
Z R 22 K3E
2.1
2.7
3.4
4.2
5.2
6.3
7.5
Z R 22 K3E
1.2
1.2
1.2
1.2
1.2
1.2
1.1
Z R 28 K3E
2.7
3.5
4.4
5.5
6.7
8 .1
9.6
Z R 28 K3E
1.6
1.6
1.6
1.5
1.5
1.5
1.5
Z R 34 K3E
3.2
4.1
5.2
6.5
7.9
9.6
11.5
Z R 34 K3E
1.8
1.8
1.8
1.8
1.8
1.8
1.7
Z R 40 K 3E
3.8
4.9
6 .1
7.6
9.4
11.3
13.5
Z R 40 K 3E
2.2
2.2
2.2
2.1
2.1
2.1
2.0
Z R 48 K 3E
4.8
6.1
7.6
9.4
11.5
13.8
16.6
Z R 48 K 3E
2.6
2.6
2.6
2.6
2.6
2.5
2.5
ZR 61KCE
6.5
8.1
10 .0
12.0
14.4
17.2
20.6
ZR 61KCE
3.0
3.1
3.1
3.2
3.2
3.1
2.9
ZR 72KCE
7.0
9.0
11.3
13.9
16.9
20.3
24.2
ZR 72KCE
3.6
3.7
3.7
3.7
3.7
3.7
3.8
ZR 81KCE
7.8
10 .1
12.7
15.6
19.1
23.0
27.7
ZR 81KCE
4.1
4.1
4.1
4.1
4.2
4.2
4.3
ZR 94KCE
9.8
12.6
15.8
19.3
23.3
27.9
33.1
ZR 94KCE
4.9
5.0
5.0
5.0
5.0
4.9
4.9
ZR108KC E
11.3
14.2
17.6
21.5
26.2
31.5
37.6
ZR 108KC E
5.4
5.4
5.5
5.5
5.5
5.6
5.7
ZR125KC E
13.1
16.6
20.5
25.2
30.5
36.7
43.7
ZR 125KC E
6.3
6.3
6.4
6.4
6.4
6.5
6.6
ZR144KC E
14.5
18.7
23.4
28.9
35.0
42.0
50.1
ZR 144KC E
7.1
7.1
7.2
7.2
7.3
7.3
7.4
ZR160KC E
14.9
19.5
24.9
31.3
38.7
47.3
57.1
ZR 160KC E
8 .0
8.1
8 .2
8.2
8.3
8.4
8.5
ZR190KC E
18.5
23.8
29.8
36.7
44.7
53.8
64.2
ZR 190KC E
9.7
9.7
9.8
9.8
9.9
10 .1
10.4
ZR250KC E
25.7
32.2
39.9
48 .9
59.3
71.3
85.0
ZR 250KC E
12.5
12.6
12.7
12.9
13.0
13.0
13.0
ZR310KC E
31.2
39.7
49.7
61 .4
75.0
90.7
108.5
ZR 310KC E
15.6
15.7
15.9
16.1
16.3
16.6
17.0
ZR380KC E
38.1
49.1
61.7
76.2
93.1
113.0
136.5
ZR 380KC E
18.6
18.8
19.0
19.2
19.4
19.8
20.3
Suction Superheat 10K / Subcooling 0K
11
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Capacity Data
Condensing Te m p e ra tu re +40°C
Cooling Capacity (kW)
R134a
Power Input (kW)
R134a
Evaporating Temperature (°C)
Evaporating Temperature (°C)
Model
-15
-10
-5
0
5
10
15
Model
-15
-10
-5
0
5
10
15
ZR18K4E
1 .1
1.4
1.8
2.3
2.9
3.5
4.2
ZR18K4E
0.8
0.8
0.8
0.8
0.8
0.8
0.8
ZR22K3E
1.4
1.8
2.3
2.9
3.6
4.4
5.3
ZR22K3E
0.9
0.9
0.9
0.9
0.9
0.8
0.8
ZR28K3E
1.8
2.3
3.0
3.8
4.7
5.7
6.9
ZR28K3E
1 .1
1.2
1 .1
1.1
1 .1
1.1
1 .1
ZR34K3E
2.2
2.9
3.6
4.5
5.5
6.7
8.1
ZR34K3E
1.4
1.4
1.4
1.3
1.3
1.3
1.3
1.5
ZR40K3E
2.5
3.3
4.2
5.2
6.4
7.8
9.3
ZR40K3E
1 .6
1.5
1.5
1.5
1.5
1.5
ZR48K3E
3.1
4.0
5.1
6.3
7.8
9.5
11.5
ZR48K3E
1. 8
1 .8
1 .8
1 .8
1 .8
1 .8
1 .8
ZR61KCE
4.0
5.2
6.5
8.1
9.9
12.1
14.6
ZR61KCE
2.1
2.1
2.2
2 .2
2.2
2 .2
2.3
ZR72KCE
4.8
6.2
7.8
9.7
11.9
14.5
17.4
ZR72KCE
2.6
2.6
2.6
2.6
2.6
2.6
2.7
ZR81KCE
5.5
7.0
8.8
10 .8
13.2
16.0
19.2
ZR81KCE
2.8
2.9
2.9
2.9
2.9
3.0
3.0
ZR94KCE
6.5
8.3
10.5
13.0
15.9
19.2
23.0
ZR94KCE
3.4
3.4
3.4
3.5
3.5
3.5
3.5
ZR108KCE
7.3
9.3
11.7
14.5
17.8
21.5
25.7
ZR108KCE
3.7
3.8
3.8
3.9
3.9
3.9
3.9
ZR125KCE
8.6
10.9
13.7
17.0
20.8
25.1
30.0
ZR125KCE
4.4
4.4
4.5
4.5
4.6
4.6
4.5
ZR144KCE
10.5
13.4
16.5
20.0
23.7
27.8
32.4
ZR144KCE
4.7
4.9
4.9
5.0
5.0
5.2
5.5
ZR160KCE
11.0
14.3
17.7
21.4
25.5
30.1
35.3
ZR160KCE
5.4
5.4
5.5
5.6
5.7
5.7
5.6
ZR190KCE
13.3
17.0
21.0
25.5
30.5
36.2
42.7
ZR190KCE
6.5
6.6
6.7
6.8
6.8
6.9
7.0
ZR250KCE
16.6
21.0
26.3
32.5
39.7
48.2
57.9
ZR250KCE
8.8
8.8
8.9
9.0
9.1
9.2
9.4
ZR310KCE
20.5
26.0
32.5
40.1
49.1
59.6
71.7
ZR310KCE
11.0
11.0
11.1
11.2
11.3
11.5
11.7
ZR380KCE
26.0
32.9
41.1
50.8
61.8
74.4
88.6
ZR380KCE
13.0
13.3
13.5
13.8
13.9
14.1
14.2
Suction Superheat 10K / Subcooling 0K
Tandem and Trio Model Overview
Cooling Capacity
R134a
kW (1)
Nominal Horsepower
hp
Cooling Capacity
R407C
kW (1)
ZRT 96 K3/E
2x4
20
14
•
ZRT 122 K3/E
2x 5
25
18
•
Model
Even
Tandem
Uneven
Tandem
Trio
Tandem ZRT - Tandem Uneven ZRU - Trio ZRY
ZRT 144 KC/E
2 x6
30
21
•
ZRT 162 KC/E
2 x 6.5
33
24
•
ZRT 188 K/E
2x8
41
28
•
ZRT 216 K/E
2x 9
46
31
•
ZRT 250 K/E
2 x 10
52
37
•
ZRT 288 K/E
2 x 12
59
42
•
10 + 15
66
45
2 x 13
67
46
13 + 15
73
50
2 x 15
78
54
ZRU 440 K/E(2)
15 + 20
92
63
ZRY 480 K/E(2)
3 x 13
99
67
ZRT 500 K/E(2)
2 x 20
104
71
ZRU 500 K/E(2)
15 + 25
104
71
•
ZRU 560 K/E(2)
20 + 25
117
79
•
ZRY 570 K/E(2)
3 x 15
116
80
ZRT 620 K/E(2)
2 x 25
130
88
ZRU 690 K/E(2)
25 + 30
147
99
ZRY 750 K/E(2)
3 x 20
154
105
ZRT 760 K/E(2)
2 x 30
163
111
ZRY 930 K/E(2)
3 x 25
192
129
•
ZRY 114 M/E(2)
3 x 30
241
164
•
ZRU 315 K/E(2)
ZRT 320 K/E
ZRU 350 K/E(2)
ZRT 380 K/E
•
•
•
•
•
•
•
•
•
•
•
•
(1) Conditions EN 12900: Evaporating 5°C, Condensing 50°C, Superheat 10K, Subcooling 0K
(2) Tandem / Trio assemblies by system manufacturers. Emerson Climate Technologies can provide full technical support.
12
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http://holodko.ru/
ZP Copeland Scroll™ Compressor Range for R410A
ZP Copeland Scroll compressors, for R410A, for comfort and pro­
cess/precision cooling applications.
Emerson Climate Technologies has been the pioneer in launching
the first complete line-up of R410A commercial scroll compres­
sors. The combination of Copeland Scroll technology and the ad­
vantages of the R410A refrigerant enables system manufacturers
(OEMs) to optimize the cost and efficiency of their systems.
ZP Copeland Scroll compressors are perfectly suitable for air
cooled chiller systems up to 600kW (720kW if water cooled)
featuring high comfort and superior seasonal efficiency (ESEER).
W hether used in stand-alone, tandem or trio configurations, the
broad ZP Copeland Scroll line-up meets today's market require­
ments with unmatched flexibility, efficiency and proven reliabil­
ity.
The second generation of Copeland™ commercial scrolls for
R410A now features the new ZP236K (20hp) & ZP296K (25hp)
with CoreSense™ Communications: this added feature unlocks
advanced diagnostics, protection and communication in Cope­
land compressors and sends data to the main system controller
via modbus RS485.
ZP Scroll Compressor
ZP Scroll Compressor Line-up
Tandem
••« ■ •••••••
Trio
k W C ooling
•
•
I
0
I
I
I
I
10 20 30 40
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
50 60 70 80 90 100 110120130140150 160170 180190 200 210 220 230 240250 260270 280290 300 310
Conditions EN12900: Evaporating 5°C, Condensing 50°C, Superheat 10K, Subcooling 0K
Features and Benefits
•
•
•
•
•
•
•
Operating Envelope R410A
Copeland qualified tandem and trio (now also uneven)
configurations for superior seasonal efficiency (ESEER
and SCOP)
Copeland Scroll axial and radial compliance for superior
reliability and efficiency
Extended 5K operating envelope suitable for HP applications
Low TEWI (Total Equivalent Warming Impact)
Wide scroll line-up for R410A
Low sound and vibration level
Low oil circulation rate
Maximum Allowable Pressure (PS)
•
•
ZP24 to ZP91:
Low Side PS 28 bar(g) / High Side PS 43 bar(g)
ZP90 to ZP485:
Low Side PS 29.5 bar(g) / High Side PS 45 bar(g)
Evaporating Temperature °C
10K Superheat
ZP24-91
14
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__—
- -
-
ZP90-137
ZP 154-485
3.9
Oil Quantity
(l)
2.8
Stub
Discharge
(inch)
5.1
P
O
C
Stub Suction
(inch)
1.9
Displacement
(m3/h)
ZP24KSE
Capacity
(kW)
R410A
Nominal
hp
Technical Overview
Length/
Width/
Heigth
(mm)
3/4
1/2
0.74
242/242/407
Net
Weight
(kg)
Motor Version/
Code
Maximum
Operating
Current (A)
Locked Rotor
Current (A)
Sound
Pressure
@1 m
(dBA)
1 Ph*
3
Ph**
1 Ph*
3
Ph**
1 Ph*
3
Ph**
22
PFZ
TFM
13
5
60
28
55
55
ZP29KSE
2.2
6.1
2.9
4.8
3/4
1/2
0.74
242/242/407
23
PFZ
TFM
16
6
67
38
ZP31KSE
3.0
6.5
2.8
5.0
3/4
1/2
0.74
242/242/388
23
PFZ
TFM
17
6
67
38
55
ZP36KSE
2.6
7.9
3.0
6.0
7/8
1/2
1.25
242/242/421
30
PFZ
TFM
22
7
98
46
57
ZP42KSE
3.4
9.0
2.9
6.9
7/8
1/2
1.25
242/242/421
31
PFZ
TFM
26
8
128
43
57
ZP54KSE
4.6
11.6
3.0
8.9
7/8
1/2
1.24
242/242/422
34
PFZ
TFM
31
10
115
51
69
ZP61KCE
5.0
13.1
3.0
10 .1
7/8
1/2
1.6 6
245/249/440
40
TFD
12
64
60
ZP72KCE
6.0
15.3
3.0
11.7
7/8
1/2
1.77
245/249/440
40
TFD
15
75
64
ZP83KCE
6.5
17.7
3.1
13.4
7/8
1/2
1.77
241/247/440
40
TFD
15
101
61
ZP91KCE
7.5
19.3
3.1
14.7
7/8
3/4
1.77
243/248/443
41
TFD
16
101
61
ZP90KCE
7.5
19.4
3.1
14.6
1 1/8
7/8
2.65
264/284/476
57
TFD
16
95
61
ZP103KCE
9.0
22.4
3.2
16.7
1 3/8
7/8
3.38
264/284/533
59
TFD
21
111
63
ZP120KCE
10 .0
26.6
3.2
19.7
1 3/8
7/8
3.38
264/284/533
61
TFD
22
118
63
ZP137KCE
12.0
29.9
3.2
2 2 .1
1 3/8
7/8
3.38
264/284/533
61
TFD
25
118
64
ZP154KCE
13.0
33.5
3.2
24.8
1 3/8
7/8
3.38
264/284/552
65
TFD
31
140
65
ZP182KCE
15.0
39.6
3.2
29.1
1 3/8
7/8
3.38
264/284/552
66
TFD
34
174
66
ZP235KCE
20.0
50.6
3.2
37.8
1 5/8
1 3/8
4.70
432/376/717
140
TWD
40
225
71
ZP236KCE
20.0
50.9
3.2
37.8
1 5/8
1 1/8
4.30
383/391/694
127
TED
41
229
71
ZP295KCE
25.0
63.5
3.2
46.7
1 5/8
1 3/8
6.80
448/392/725
160
TWD
48
272
74
ZP296KCE
25.0
63.2
3.2
46.5
1 5/8
1 1/8
4.30
383/391/694
132
TED
51
320
74
ZP385KCE
30.0
82.4
3.2
60.8
1 5/8
1 3/8
6.30
448/392/715
178
TWD
65
310
74
ZP485KCE
40.0
105.0
3.2
77.3
1 5/8
1 3/8
6.30
448/392/756
190
TWD
82
408
78
Conditions EN12900 : Evaporating 5°C, Condensing 50°C, Superheat 10K, Subcooling 0K
* 1 Ph: 230V/ 50Hz
** 3 Ph: 380-420V/ 50Hz
*** @ 1 m: sound pressure level at 1 m distance from the compressor, free field condition
15
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Capacity Data
C ondensing Te m p e rature +40°C
C ooling C ap acity (k W )
R410A
P o w er In p u t (k W )
R410A
Evap o rating Te m p e ra tu re <°C)
15
Evap o rating Tem p erature °C)
M odel
-15
-10
-5
0
5
10
M odel
-15
-10
-5
0
5
10
Z P2 4K S E
2.2
3.0
3.9
4.9
5.9
7.1
Z P24KSE
1.5
1.5
1.4
1.4
1.4
1.3
Z P29KSE
2.9
3.9
4.9
6.0
7.3
8.6
Z P29KSE
1.8
1.8
1.7
1.7
1.7
1.6
Z P31KSE
3.2
4.1
5.2
6.3
7.6
9.1
Z P31KSE
1.9
1.9
1.9
1.8
1.8
1.8
Z P36KSE
4.1
5.1
6.3
7.7
9.2
11.0
Z P36KSE
2.2
2.1
2.1
2.1
2.1
2.1
Z P42KSE
4.4
5.7
7.1
8.7
10.5
12.5
Z P42KSE
2.4
2.4
2.4
2.4
2.3
2.3
Z P54KSE
6 .0
7.5
9.3
11.3
13.5
16.0
Z P54KSE
3.1
3.1
3.0
3.0
2.9
2.9
Z P61KC E
6.5
8.3
10.4
12.6
15.2
18.1
Z P61KC E
3.7
3.7
3.6
3.5
3.5
3.4
Z P72KC E
8 .2
10 .1
12.3
14.8
17.7
20.9
Z P72KC E
4.0
4.0
4.0
4.0
4.1
4.1
15
Z P83KC E
9.4
11.6
14.2
17.1
20 .4
24.2
Z P83KC E
4.5
4.5
4.5
4.6
4.6
4.7
Z P91KC E
10 .2
12.6
15.4
18.6
22 .2
26.3
Z P91KC E
4.9
4.9
4.9
5.0
5.0
5.0
Z P90KC E
10.4
12.8
15.6
18.8
22.4
26.5
31.1
Z P90KC E
5.0
5.0
5.0
5.0
5.1
5.2
5.3
ZP103KC E
11.7
14.6
17.9
2 1.6
25.8
30.5
35.7
ZP103KC E
5.7
5.7
5.6
5.6
5.7
5.8
5.9
ZP120KC E
14.0
17.5
21.4
25.8
30.8
36.4
42.5
ZP120KC E
6 .6
6 .6
6.5
6.5
6.5
6 .6
6.7
ZP137KC E
15.9
19.9
24.2
29.2
34.8
41.2
48.3
ZP137KC E
7.4
7.4
7.4
7.4
7.4
7.4
7.5
ZP154KC E
18.2
22.3
27.1
32.6
38.9
46.1
54.3
ZP154KC E
8.1
8 .2
8.2
8.3
8.3
8.5
8.8
ZP182KC E
21 .4
26.3
32.0
38.4
45.6
53.9
63.3
ZP182KC E
9.5
9.7
9.9
10 .0
10 .1
10 .1
10 .0
ZP235KC E
26.5
32.9
40.3
48 .8
58.6
69.7
82.3
ZP235KC E
12.5
12.6
12.7
12.8
13.0
13.2
13.5
Z P236KC E
22.7
33.6
40.7
48 .9
58.2
68.9
81.0
Z P2 36 KC E
12.7
12.8
12.9
13.0
13.1
13.3
13.5
Z P295KC E
34.2
41.9
50.9
61.3
73.3
86.9
102.5
Z P2 95 KC E
15.8
16.0
16.1
16.2
16.4
16.6
16.8
Z P296KC E
33.3
41.3
40 .4
60.7
72.3
85.3
10 0 .0
Z P2 96 KC E
16.0
15.9
15.9
16.0
16.3
16.7
17.4
ZP385KC E
43.7
53.9
65.8
79.5
95.2
113.0
133.5
ZP385KC E
20.3
20 .4
20.5
20.7
20.9
21.3
21.7
ZP485KC E
57.5
70.0
84.7
10 1.6
121.0
143.0
168.0
ZP485KC E
24.9
25.3
25.8
26.3
27.0
27.8
28.8
Suction Superheat 10K / Subcooling 0K
16
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—
Tandem and Trio Model Overview
Model
Nominal
Horsepower
hp
Cooling Capacity
kW (1)
Even
Tandem
Uneven
Tandem
Trio
Uneven
Trio
Tandem ZPT - Tandem Uneven ZPU - Trio Z P Y - Uneven Trio ZPM
ZPT 72 K/E(2)
2x3
16
•
ZPT 84 K/E(2)
2 x 3,5
18
•
ZPT 108 K/E(2)
2x4
23
•
ZPT 122 K/E(2)
2x5
26
•
ZPT 144 K/E(2)
2 x 6
31
•
ZPT 166 K/E(2)
2 x 6,5
35
•
ZPT 180 K/E(2)
2 x 8
39
•
ZPT 182 K/E(2)
2 x 8
39
•
ZPT 2 0 6 K/E(2)
2x9
45
•
ZPT 2 4 0 K/E(2)
2 x 10
53
•
ZPT 2 7 4 K/E(2)
2 x 12
60
•
ZPU 302 K/E(2)
10 + 15
66
ZPT 30 8K /E(2)
2 x 13
67
Z P Y 3 0 9K /E(2)
3x9
66
ZPU 3 3 6 K/E(2)
13 + 15
73
Z P Y 360 K/E(2)
3 x 10
79
ZPT 3 6 4 K/E(2)
2 x 15
79
Z P Y 4 1 1K /E(2)
3 x 12
88
ZPU 417 K/E(2)
15 + 20
90
•
Z PU 418K/E(2)
20 + 15
90
•
Z P Y 462 K/E(2)
3 x 13
99
•
•
•
•
•
•
•
•
ZPT 4 7 0 K/E(2)
2 x 20
101
•
Z PT 47 2K /E(2)
2 x 20
101
•
ZPU 477 K/E(2)
15 + 25
103
•
ZPU 530 K/E(2)
20 + 25
114
•
ZPU 53 2K /E(2)
2 x 20
101
Z P Y 546 K/E(2)
3 x 15
117
ZPT 590 K/E(2)
2 x 25
127
•
ZPT 5 92K /E(2)
2 x 25
125
•
ZPU 6 8 0 K/E(2)
25 + 30
146
•
ZPU 68 1 K /E (2)
30 + 25
144
•
Z P Y 705 K/E(2)
3 x 20
150
Z P Y 7 0 8K /E(2)
3 x 20
150
ZPT 7 7 0 K/E(2)
2 x 30
165
ZPU 8 7 0 K/E(2)
30 + 40
187
Z P Y 885 K/E(2)
3 x 25
188
Z P Y 8 8 8 K/E(2)
3 x 25
187
ZPT 9 7 0 K/E(2)
2 x 40
209
Z P Y 115 M /E(2)
3 x 30
243
ZPM 125 M /E(2)
30 + 30 + 40
265
•
ZPM 135 M /E(2)
30 + 40 + 40
287
•
Z P Y 145 M /E(2)
40 + 40 + 40
309
•
•
•
•
•
•
•
•
•
•
•
(1) Conditions EN 12900: Evaporating 5°C, Condensing 50°C, Superheat 10K, Subcooling 0K
(2) Tandem / Trio assemblies by system manufacturers. Emerson Climate Technologies can provide full technical support.
17
http://holodko.ru/
ZPD & ZRD Copeland Digital Scroll™ Compressor Range
Stepless capacity modulation in air conditioning applications:
Flexible solution for R407C and R410A.
In many cooling and heating systems, the load and the operating
conditions vary over a wide range thus requiring the use of capac­
ity modulation. Digital Scroll assures stepless modulation down
to 10% of the nominal capacity, enabling precise temperature
control, superior comfort and energy saving.
ZPD & ZRD Copeland Digital
Scroll Compressor
Digital Scroll compressors are the preferred choice for process
cooling, refrigeration racks, condensing units, VRF, rooftop and
air handling unit systems.
ZPD Digital Scroll Compressor Line-up R410A
ZPD (3Ph)
• •
•
•
•
•
•
•
•
Tandem
•
•
• •
•
•
•
•
•
•
•
•
•
k W C ooling
5
10
15
20
25
30
35
40
45
50
55
60
65
70
75
ZRD Digital Scroll Compressor Line-up R407C
Conditions EN12900: Evaporating 5°C, Condensing 50°C, Superheat 10K, Subcooling 0K
Features and Benefits
Maximum Allowable Pressure (PS)
•
•
•
•
Wide modulation range from 10% to 100% for immediate
load adjustment, close temperature comfort,
optimal comfort
No complex electronics, a quasi-drop-in solution for fast
time to market, no EMI/EMC problems, easy installation and
maintenance
No impact on system mechanical balance: no vibration and
resonance phenomenon, no frame / piping redesign
necessary
•
•
•
Digital ZRD42 to ZRD81:
Low Side PS 20bar(g) / High Side PS 29.5 bar(g)
Digital ZRD94 to ZRD125:
Low Side PS 20bar(g) / High Side PS 32 bar(g)
Digital ZPD34 to ZPD91:
Low Side PS 28 bar(g) / High Side PS 43 bar(g)
Digital ZPD103 to ZPD182:
Low Side PS 29.5 bar(g) / High Side PS 45 bar(g)
Operating Envelope R410A/R407C
Evaporating Temperature °C
R410A - 10K Superheat
—
18
http://holodko.ru/
__—
ZPD 34-91
—
ZPD 103-182
Evaporating Temperature °C
R407C - 10K Superheat
—
ZRD 42-81
—
— ZRD 94-125
80
5.7
Locked Rotor
Current (A)
3 Ph**
3 Ph**
3 Ph**
Sound
Pres­
sure
@1 m
(dBA)
12
64
66
Oil Quantity
(l)
2.8
Maximum
Operating
Current (A)
Stub Discharge
(inch)
7.3
P
O
C
Motor Version/
Code
Stub Suction
(inch)
3.0
Displacement
(m3/h)
ZPD34KSE
Capacity
(kW)
R410A
Nominal
hp
Technical Overview
Length/
Width/Heigth
(mm)
7/8
1/2
1.24
243/243/448
31
TFM
Net
Weight
(kg)
ZPD42KSE
3.5
9.1
3.0
6.9
7/8
1/2
1.24
243/243/464
31
TFM
8
52
66
ZPD54KSE
4.5
11.5
3.0
8.9
7/8
1/2
1.24
236/236/479
35
TFM
10
62
67
ZPD61KCE
5.0
13.2
2.9
1 0 .1
7/8
1/2
1.89
241/246/484
41
TFD
12
64
63
ZPD72KCE
5.0
15.2
2.9
11.6
7/8
1/2
1.89
241/246/484
40
TFD
15
75
67
ZPD83KCE
6.0
17.7
3.0
13.4
7/8
1/2
1.77
241/246/484
40
TFD
16
101
64
ZPD91KCE
7.5
19.2
3.1
14.7
3/4
1.80
241/246/484
40
TFD
16
101
69
7/8
ZPD103KCE
9.0
22.4
3.2
16.7
1 3/8
7/8
3.25
293/285/533
61
TFD
21
111
63
ZPD120KCE
1 0 .0
26.3
3.2
19.7
1 3/8
7/8
3.25
285/293/533
62
TFD
22
118
63
ZPD137KCE
12.0
29.5
3.1
22 .1
1 3/8
7/8
3.25
285/293/533
62
TFD
25
118
63
ZPD154KCE
13.0
33.1
3.1
24.8
1 3/8
7/8
3.25
326/295/552
65
TWD
27
140
66
ZPD182KCE
15.0
39.0
3.1
29.0
1 3/8
7/8
3.25
326/295/552
67
TWD
34
173
68
Conditions EN12900 R410A: Evaporating 5°C, Condensing 50°C, Superheat 10K, Subcooling 0K
3 Ph**
3 Ph**
3 Ph**
7
46
60
64
Oil Quantity
(l)
2.9
Locked Rotor
Current (A)
Stub Discharge
(inch)
8.9
Maximum
Operating
Current (A)
Stub Suction
(inch)
3.5
P
O
C
Motor Version/
Code
Displacement
(m 3/h)
ZRD42KCE
Capacity
(kW)
R407C
Nominal
hp
** 3 Ph: 380-420V/ 50Hz
*** @ 1 m: sound pressure level at 1 m distance from the compressor, free field condition
Length/
Width/Heigth
(mm)
9.9
3/4
1/2
1.24
241/241/462
31
TFD
Net
Weight
(kg)
Sound Pressure
@1 m (dBA) ***
ZRD48KCE
4.0
10.5
3.0
11.4
7/8
1/2
1.36
241/241/465
32
TFD
10
48
ZRD61KCE
5.0
12.5
3.0
14.3
7/8
1/2
1.89
241/246/481
38
TFD
9.6
64
65
ZRD72KCE
6.0
14.3
2.9
17.0
7/8
3/4
1.89
241/246/481
40
TFD
13
74
63
67
ZRD81KCE
6.0
17.0
3.1
18.7
7/8
3/4
1.89
241/246/481
41
TFD
15
100
ZRD94KCE
7.5
21.0
3.3
2 2 .1
1 1/8
7/8
2.51
293/285/476
58
TFD
16
95
64
ZRD125KCE
1 0 .0
27.7
3.3
28.8
1 3/8
7/8
3.25
293/285/533
61
TFD
20
118
64
Conditions EN12900 R407C: Evaporating 5°C, Condensing 50°C, Superheat 10K, Subcooling 0K
** 3 Ph: 380-420V/ 50Hz
*** @ 1 m: sound pressure level at 1 m distance from the compressor, free field condition
19
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Capacity Data
C ondensing Te m p e rature +40°C
Cooling C ap acity (k W )
R410A
P o w e r In p u t (k W )
R410A
Evap o rating Te m p e rature (°C)
15
Evap o rating Tem p erature (°C)
M odel
-15
-10
-5
0
5
10
M odel
-15
-10
-5
0
5
10
Z PD 34K SE
3.9
5.0
6.2
7.6
9.2
11.0
ZPD 34K SE
2.1
2.1
2.1
2.0
2.0
2.0
15
Z PD 42K SE
4.8
5.9
7.3
8 .8
10 .6
12.6
ZPD 42K SE
2.3
2.3
2.4
2.4
2.4
2.3
Z PD 54K SE
6.5
7.9
9.5
11.4
13.5
16.0
Z PD 54K SE
3.1
3.1
3.1
3.0
3.0
3.0
ZPD 61K CE
6.9
8.6
10.5
12.7
15.3
18.2
ZPD 61K CE
3.3
3.4
3.5
3.5
3.6
3.6
ZPD 72K CE
8.2
10 .1
12.3
14.8
17.6
20.9
ZPD 72K CE
3.9
4.0
4.1
4.1
4.2
4.2
ZPD 83K CE
9.7
11.9
14.4
17.2
20.5
24.1
ZPD 83K CE
4.5
4.6
4.7
4.7
4.8
4.9
ZPD 91K CE
10 .1
12.6
15.3
18.5
2 2 .1
26.2
30.9
ZPD 91K CE
4.9
5.0
5.0
5.0
5.1
5.0
5.0
ZPD 103KC E
11.7
14.6
17.9
21.6
25.8
30.5
35.7
ZPD 103KC E
5.7
5.7
5.6
5.6
5.7
5.8
5.9
ZPD 120KC E
13.8
17.3
21.2
25.6
30.6
36.1
42.2
Z PD 120KC E
6.7
6.7
6.6
6 .6
6 .6
6.7
6.8
Z PD 137KC E
15.5
19.4
23.7
28.7
34.2
40.3
47.2
Z PD 137KC E
7.5
7.5
7.5
7.4
7.4
7.5
7.6
Z PD 154KC E
17.8
2 2 .0
26.6
31.9
38.0
45.0
53.0
Z PD 154KC E
8.2
8.3
8.4
8.5
8.6
8.7
8.9
Z PD 182KC E
22.3
26.8
32.0
37.9
44.6
52.5
61.6
Z PD 182KC E
9.8
9.9
10 .0
10 .1
10 .2
10.4
10.5
Suction Superheat 10K / Subcooling 0K
Condensing Te m p e ra tu re +40°C
C ooling C ap acity (k W )
R407C
Evap o rating Tem p erature [°C)
M odel
-15
-10
-5
0
5
ZR D 42KC E
4.3
5.4
ZR D 48KC E
4.9
6.4
6.7
8.3
10 .1
12.2
8 .0
10 .0
12.3
15.0
10
P o w e r Inp ut (k W )
R407C
15
Evaporating Te m p e rature [°C)
M odel
-15
-10
-5
0
5
10
15
14.6
ZRD 42KCE
2.0
2.1
2.1
2.2
2.2
2.3
2.3
18.1
ZRD 48KCE
2.5
2.6
2.6
2.7
2.7
2.8
2.9
ZR D 61KC E
6.1
7.7
9.5
11.7
14.2
17.3
21.0
ZRD 61KCE
3.0
3.1
3.2
3.4
3.4
3.4
3.3
ZR D 72KC E
3.5
6.0
8.9
12.3
16.2
20.6
25.6
ZRD 72KCE
3.5
3.6
3.7
3.8
4.0
4.1
4.3
ZR D 81KC E
8.0
10 .2
12.8
15.8
19.2
23.2
27.7
ZRD 81KCE
4.3
4.4
4.4
4.5
4.6
4.7
4.8
ZR D 94KC E
10 .0
12.7
16.0
19.8
24.1
28.9
34.5
ZRD 94KCE
5.0
5.1
5.1
5.1
5.1
5.2
5.3
ZRD 125KC E
13.2
16.9
21.3
26.3
31.7
37.6
43.7
ZR D 125KC E
6.5
6.6
6 .6
6.7
6.8
6.9
7.1
Suction Superheat 10K / Subcooling 0K
20
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—
http://holodko.ru/
ZH Copeland Scroll™ Compressor Range
ZH Copeland Scroll Compressor Range
The ZH compressor range is optimized for reversible and heat
pump applications. In addition to the existing R407C range, a
complete new range optimized for R410A has been developed.
Both ranges are based on three platform sizes and cover a capac­
ity of 4kW to 38kW.
ZH heating compressors have been optimized for reversible heat­
ing systems, they deliver higher capacity and efficiency at low
evaporating (heat source) temperatures and are therefore better
adapted to heating requirements than standard air conditioning
compressors. Due to their larger operating map they also require
less additional heating (electrical or gas) to cover the full heating
demand on the coldest days and therefore further improve the
system seasonal efficiency.
ZH Scroll Compressors with Enhanced Vapor Injection
ZH heating compressors with Enhanced Vapor Injection have
been further optimized to ensure best-in-class performances in
dedicated heating applications. This technology allows replace­
ment of traditional boilers in new building and retrofit applica­
tions, without the need of substituting existing heating elements
in the building.
ZH Copeland Scroll heating compressors with Enhanced Va­
por Injection have an additional port to inject vapor within the
compression process. This improves system performances by
increasing the heating capacity for a given compressor displace­
ment. Additional benefits are the reduction of the gas discharge
temperature and the extension of the operating envelope which
enable the production of high temperature water at all working
conditions.
ZHI heating compressors reach the same high standards of du­
rability and reliability as other Copeland Scroll compressors. This
includes the ability to handle relatively large amounts of liquid,
which is known to damage or cause compressor failures. Fewer
moving parts, robust running gear and low vibration due to bal­
anced compression mechanism make the ZH range of Copeland
Scroll compressors the most reliable solution available in the heat
pump market.
Enhanced Vapor Injection: System Design
EV
22
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ZH Scroll Compressors
ZH Nomenclature Guidelines
ZH **K 4E
Qualified for R407C/R134a
W ithout Enhanced Vapor Injection - ** capacity in Btu/h
Z H **K VE
Qualified for R407C only
Enhanced Vapor Injection - ** capacity in kW
ZH **K 1P
Qualified for R410A only
W ithout Enhanced Vapor Injection - ** capacity in kW
ZH! * * K 1P
Qualified for R410A only
Enhanced Vapor Injection - ** capacity in kW
Enhanced Vapor Injection: Enthalpy Diagram
ZH / ZH*KVE R407C Compressor Line-up
•
•
•
•
Single Phase
•
•
M
•
•
•
•
•
•
•
ZH *KV E with Enh. Vapor Inj.
ZH w ithout Enh. Vapor Inj.
•
•
•
Three Phase
•
•
•
•
•
•
•
•
•
•
•
•
l
35
1
0
5
10
15
20
25
30
l
40
l
45
l
50
Conditions Heating kW @ (-7/50)
ZH*P / ZHI*P R410A Compressor Line-up
•
•
•
•
Single Phase
• •
•
•
•
•
•
•
•
•
•
•
ZH I*P with Enh. Vapor Inj.
Z H *P without Enh. Vapor Inj.
•
•
i
35
i
40
•
Three Phase
• •
•
•
•
•
•
in developm ent
1
0
5
10
15
20
25
30
i
45
i
50
Conditions Heating kW @ (-7/50)
Features and Benefits
Maximum Allowable Pressure (PS)
Copeland Scroll axial and radial compliance
for high reliability
High efficiency and increased heating capacity
High water temperature for all applications
Low sound and low vibration level
Tandem combination for superior seasonal efficiency
Enhanced Vapor Injection technology for best seasonal
efficiency
Operating Envelope R410A Heating
cO'
O
Z H (I)**K 1 P :
Low Side PS 28 bar(g) / High Side PS 45 bar(g)
ZH12K4E to ZH45K4E:
Low Side PS 20 bar(g) / High Side PS 32 bar(g)
ZH56K4E to ZH11M 4E:
Low Side PS 22.6 bar(g) / High Side PS 32 bar(g)
ZH09KVE to ZH18KVE:
Low Side PS 20 bar(g) / High Side PS 32 bar(g)
ZH24KVE to ZH48KVE:
Low Side PS 22.6 bar(g) / High Side PS 32 bar(g)
Operating Envelope R407C Heating
n
e
n
o
TD
C
TD
Evaporating Tem p eratu re °C
Evaporating Tem p eratu re °C
------
ZH*P without Enh. Vapor Inj.
----
ZH without Enh. Vapor Inj.
------ ZH*P Transient
---- ZH Transient
------
----
ZHI*P with Enh. Vapor Inj.
ZH*KVE with Enh. Vapor Inj.
------ ZHI*P Transient
---
ZH*KVETransient
------
----
Wet Injection
Wet Injection
Refer to Em erson’s Select 7 .7 selection softw are fo r individual m odel operating envelopes and other refrigerants.
23
http://holodko.ru/
4.7
4.8
2.9
5.9
ZH19K4E
2.5
5.9
3.0
7.3
ZH21K4E
3.0
6.5
3.1
8.0
Oil Quantity
(l)
3.0
Stub Discharge
(inch)
3.7
2.0
P
O
C
Stub Suction
(inch)
1.7
ZH15K4E
Capacity
(kW)
ZH12K4E
R407C
Nominal
hp
Displacement
(m 3/h)
Technical Overview
Length/
Width/Heigth
(mm)
3/4
1/2
0.7
272/193/403
21
3/4
1/2
1.3
243/242/364
23
3/4
1/2
1.5
243/242/386
25
3/4
1/2
1.5
243/242/406
27
Net
Weight
(kg)
Motor Version/
Code
1 Ph*
3 Ph**
PFZ
Maximum
Operating
Current (A)
1 Ph*
3 Ph**
Locked Rotor
Current (A)
1 Ph*
3 Ph**
44
10
PFJ
TFD
15
5
PFJ
TFD
17
6
PFJ
TFD
16
5
Sound
Pressure
@1 m
(dBA)
53
58
26
60
74
32
60
76
32
59
ZH26K4E
3.5
8.2
3.1
1 0 .0
3/4
1/2
3.1
243/242/419
28
PFJ
TFD
20
7
97
46
63
ZH30K4E
4.0
9.5
3.1
11.7
7/8
1/2
1.9
247/241/438
38
PFJ
TFD
25
8
108
52
62
ZH38K4E
5.0
11.7
3.2
14.4
7/8
1/2
1.9
247/241/438
38
PFZ
TFD
31
10
150
64
63
ZH45K4E
6.0
14.0
3.2
17.1
7/8
1/2
1.9
250/246/450
36
TFD
12
74
64
ZH56K4E
7.5
17.4
3.1
20.9
1 - 3/8
7/8
4.0
357/321/538
93
TWD
17
99
69
ZH75K4E
10 .0
24.2
3.2
28.8
1 - 3/8
7/8
4.0
357/321/538
93
TWD
21
127
70
ZH92K4E
13.0
30.7
3.3
35.6
1 - 3/8
7/8
4.1
357/321/545
95
TWD
25
167
72
ZH11M4E
15.0
37.0
3.3
42.8
/8
7/8
4.1
357/321/592
112
TWD
32
198
72
ZH09KVE
3.0
8.2
3.3
8.0
3/4
1/2
1.5
243/243/406
30
PFZ
40
62
ZH13KVE
4.0
11.8
3.4
11.7
7/8
1/2
1.9
244/241/438
38
PFZ
ZH18KVE
6.0
16.7
3.4
17.1
7/8
1/2
1.9
244/241/438
41
TFD
ZH24KVE
7.5
21.3
3.3
20.9
7/8
4.0
368/321/525
93
TWD
ZH33KVE
10 .0
29.5
3.4
29.0
1 - 3/8
7/8
4.0
368/321/525
93
TWD
24
127
73
ZH40KVE
13.0
37.0
3.4
35.5
1 - 3/8
7/8
4.1
368/321/532
103
TWD
30
167
73
ZH48KVE
15.0
44.7
3.4
42.8
/8
7/8
4.1
368/323/579
112
TWD
36
198
76
1 - 3/8
TFD
21
7
97
TFD
30
10
160
64
65
14
10 1
67
18
99
73
Conditions Evaporating -7°C, Condensing 50°C, Superheat 5K, Subcooling 4K
* 1 Ph: 230V/ 50Hz
** 3 Ph: 380-420V/ 50Hz
*** @ 1 m: sound pressure level at 1 m distance from the compressor, free field condition
Stub Suction (inch)
Stub Discharge
(inch)
Oil Quantity
(l)
4.2
2.8
3.4
3/4
1/2
0.7
229/198/388
22
PFZ
TFM
9
5
50
28
62
2.0
5.0
2.8
4.0
3/4
1/2
0.7
242/242/407
22
PFZ
TFM
13
5
60
28
62
ZH06 K1P
2.7
6.6
2.9
5.1
7/8
1/2
1.2
242/242/422
31
PFZ
TFM
17
6
83
44
62
62
Displacement
(m 3/h)
COP
1. 8
ZH05 K1P
Nominal
hp
Capacity
(kW)
Maximum
Operating
Current (A)
ZH04 K1P
R410A
Motor Version/
Code
Length/Width/
Heigth
(mm)
Net
Weight
(kg)
1 Ph*
3 Ph**
1 Ph*
3 Ph**
Locked Rotor
Current (A)
1 Ph*
3 Ph**
Sound
Pressure
@1 m
(dBA)
ZH09 K1P
3.5
9.0
3.1
6.9
7/8
1/2
1.2
242/242/422
33
PFZ
TFM
23
7
108
52
ZH12 K1P
4.5
11.7
3.1
8.9
7/8
1/2
1.2
242/242/422
35
PFZ
TFM
28
10
130
62
65
ZH15 K1P
5.0
15.1
3.1
11.7
7/8
1/2
1.9
245/249/455
39
75
67
ZH19 K1P
6.5
18.5
3.1
14.8
7/8
3/4
1.9
229/198/388
39
ZHI08 K1P
2.8
8.2
3.1
5.1
7/8
1/2
1.2
229/246/418
31
PFZ
PFZ
TFM
13
TFM
17
TFM
19
TFM
25
67
6
108
9
130
43
63
ZHI11 K1P
3.6
10 .8
3.2
6.9
7/8
1/2
1.2
2428/242/421
31
ZHI14 K1P
4.6
13.9
3.3
8.9
7/8
1/2
1.2
2428/242/421
34
TFM
11
ZHI18 K1P
5.0
17.9
3.4
11.7
7/8
1/2
1.9
249/245/455
41
TFM
15
67
ZHI23 K1P
6.5
2 2 .8
3.4
14.8
7/8
3/4
1.9
249/245/455
41
TFM
19
67
Conditions Evaporating -7°C, Condensing 50°C, Superheat 5K, Subcooling 4K
* 1 Ph: 230V/ 50Hz
** 3 Ph: 380-420V/ 50Hz
*** @ 1 m: sound pressure level at 1 m distance from the compressor, free field condition
24
http://holodko.ru/
52
65
70
65
Capacity Data
Condensing Te m p e ra tu re +50°C
H eating C ap acity (k W )
R407C
E vaporating te m p e ra tu re <°C)
M odel
-30
-15
ZH 1 2K 4 E
n.a.
ZH 1 5K 4 E
n.a.
ZH 1 9K 4 E
ZH 2 1K 4 E
P o w er In p u t (k W )
R407C
Evap o rating te m p e ra tu re <°C)
-10
-5
0
5
15
M odel
-30
-15
-10
2.8
3.3
3.9
4.6
5.4
7.5
ZH 1 2K 4 E
n.a.
1.2
1.2
3.7
4.3
5.1
6.0
7.0
9.4
ZH 1 5K 4 E
n.a.
1.5
1.6
n.a.
4.5
5.3
6.2
7.3
8.6
11.7
ZH 1 9K 4 E
n.a.
1.9
1.9
n.a.
5.1
5.9
6.9
8 .1
9.6
13.2
ZH 2 1K 4 E
n.a.
2.0
2.1
-5
0
5
15
1.3
1.3
1.3
1.4
1.6
1.7
1.7
1.8
2.0
2.1
2.1
2.2
2.1
2.2
2.3
2.4
ZH 2 6K 4 E
n.a.
6.3
7.4
8.7
10.3
12.1
16.5
ZH 2 6K 4 E
n.a.
2.5
2.6
2.7
2.7
2.8
3.0
ZH 3 0K 4 E
n.a.
7.3
8 .6
10 .1
11.9
14.0
19.2
ZH 3 0K 4 E
n.a.
2.9
3.0
3.1
3.2
3.3
3.4
ZH 3 8K 4 E
n.a.
9.0
10 .6
12.5
14.6
17.2
23 .4
ZH 3 8K 4 E
n.a.
3.5
3.6
3.8
3.9
4.0
4.2
Z H 45K4E
n.a.
10 .8
12.7
14.9
17.4
20.3
27.2
ZH 4 5K 4 E
n.a.
4.2
4.3
4.5
4.6
4.7
5.1
Z H 5 6K 4 E
n.a.
13.4
15.8
18.6
2 1.8
25.5
34.1
ZH 5 6K 4 E
n.a.
5.3
5.5
5.7
6.0
6 .2
6.8
Z H 7 5K 4 E
n.a.
18.5
21.9
25.8
30.3
35.5
47.6
ZH 7 5K 4 E
n.a.
7.0
7.4
7.7
8 .0
8.2
8.5
Z H 9 2K 4 E
n.a.
23 .4
27.8
32.8
38.5
45.1
60.3
ZH 9 2K 4 E
n.a.
8.5
9.0
9.5
10 .0
10.4
11.2
Z H 11M 4E
n.a.
28 .4
33.6
39.5
46.3
54.3
72.7
Z H 11M 4E
n.a.
10.3
10.9
11.5
11.9
12.5
13.4
-30
-15
-10
-5
0
5
15
2.1
2.4
2.4
2.5
2.6
2.6
2.6
M odels w ith Enhanced V apo r In je ctio n
-30
-15
-10
-5
0
5
15
Z H 0 9K V E
4.1
6.6
7.6
8.7
9.9
11.2
14.3
Z H 0 9K V E
Z H 1 3K V E
5.7
9.5
10.9
12.5
14.3
16.2
20.7
Z H 1 3K V E
3.0
3.4
3.5
3.5
3.6
3.6
3.7
Z H 1 8K V E
8 .0
13.5
15.4
17.6
20.0
2 2 .6
28.7
Z H 1 8K V E
4.2
4.8
4.9
5.0
5.1
5.1
5.2
Z H 2 4K V E
9.7
17.0
19.6
22.5
25.5
28.9
36.7
Z H 2 4K V E
5.2
6.2
6.4
6.6
6.7
6.8
7.0
Z H 3 3K V E
14.3
23.7
27.2
31.1
35.3
40.0
50.7
ZH 3 3K V E
7.0
8.2
8.5
8.8
9.1
9.3
9.6
ZH 4 0K V E
18.1
29.6
34.1
39.1
44.7
50.9
65.5
ZH 4 0K V E
8.9
10 .2
10 .6
11.0
11.3
11.7
12.4
ZH 4 8K V E
21.1
35.6
41.1
47.2
54.1
61.8
80.4
ZH 4 8K V E
10 .0
12.2
12.7
13.2
13.5
14.0
15.1
Suction Superheat 5K / Subcooling 4K
C ondensing Te m p e rature +50°C
H eating C ap acity (k W )
R410A
P o w e r In p u t (k W )
R 410A
Evap o rating Te m p e ra tu re <°C)
Evap o rating Te m p e ra tu re <°C)
M odel
-30
-15
-10
-5
Z H 04 K1P
n.a.
3.3
3.9
4.5
5.2
6.0
7.6
Z H 04 K1P
n.a.
1.4
1.5
1.5
1.5
1.5
1.5
Z H 09 K1P
n.a.
7.1
8 .2
9.5
10.9
12.5
16.4
Z H 09 K1P
n.a.
2.8
2.9
3.0
3.0
3.0
3.0
ZH 12 K1P
n.a.
9.2
10.5
12.1
13.9
15.9
21.0
ZH 12 K1P
n.a.
3.7
3.7
3.8
3.8
3.8
3.8
ZH 15 K1P
n.a.
12.0
13.8
15.9
18.4
2 1.1
27.7
ZH 15 K1P
n.a.
4.7
4.9
5.0
5.1
5.2
5.2
Z H 19 K1P
n.a.
15.2
17.5
20.2
23.2
26.7
35.1
Z H 19 K1P
n.a.
6 .0
6.2
6.3
6.4
6.5
6.5
0
5
15
M odel
-30
-15
-10
-5
0
5
15
M odels w it h Enhanced V ap o r Injection
-30
-15
-10
-5
0
5
15
-30
-15
-10
-5
0
5
15
Z H I08 K1P
n.a.
6.7
7.6
8.4
9.4
10.5
13.1
Z H I08 K1P
2.5
2.6
2.6
2.6
2.6
2.6
2.4
ZHI11 K1P
n.a.
9.0
10 .1
11.3
12.6
14.0
17.2
ZHI11 K1P
3.2
3.3
3.3
3.3
3.3
3.3
3.1
Z H I14 K1P
n.a.
11.6
13.0
14.5
16.2
18.1
22.3
Z H I14 K1P
3.9
4.1
4.2
4.2
4.2
4.2
4.0
Z H I18 K1P
n.a.
14.9
16.7
18.7
20.9
23.2
28.7
Z H I18 K1P
5.1
5.3
5.4
5.4
5.4
5.3
5.2
Z H I23 K1P
n.a.
19.0
21.3
23.9
26.6
29.7
36.7
Z H I23 K1P
6.6
6.8
6.9
6.9
6.9
6. 8
6 .6
Suction Superheat 5K / Subcooling 4K
25
http://holodko.ru/
ZPV & ZHW Copeland Scroll™ Variable Speed Compressor Range
for R410A, with inverter drive
ZPV and ZHW Variable Speed scroll compressors for R410A, for
outstanding performance for cooling and heating applications.
The new Emerson Climate Technologies solution for variable
speed applications with capacity modulated compressors. ZPV
and ZHW compressors deliver outstanding performances, both
in new building and retrofit applications. Variable Speed Cope­
land Scroll compressors feature a state-of-the-art brushless per­
manent magnet motor matched with a highly efficient drive and
vapor injection technology (ZHW only). In addition to Copeland
market-proven robustness, ZPV and ZHW compressors with the
qualified inverter drive meet and exceed the level of reliability ex­
pected for these demanding applications.
ZHW Copeland Scroll Variable Speed
Compressor and Inverter Drive
ZPV & ZHW Variable Speed Scroll Compressor Line-up
Cooling kW @ (5/50) for ZPV, Heating kW @ (-7/50) for ZHW
Features and Benefits
•
•
•
•
•
•
•
Operating Envelope R410A
Highest efficiency throughout the operating envelope and
speed range
Envelope and speed management information for the
system controller (real-time communication via Modbus
RS485)
Enhanced Vapor Injection technology for best seasonal
efficiency (ZHW)
High water temperature for all applications (ZHW)
Compliance with electromagnetic-compatibility (EMC) and
electromagnetic-interference (EMI) requirements for
residential applications (VDE)
Wide speed range 30-117Hz
Mutually optimized and qualified scroll and drive
Maximum Allowable Pressure (PS)
•
•
ZHW:
Low Side PS 28 bar(g) / High Side PS 45 bar(g)
ZPV:
Low Side PS 28 bar(g) / High Side PS 43 bar(g)
26
http://holodko.ru/
Evaporating Temperature °C
------
ZPV 5K SH
------
ZPV 2.8K SH
------
ZHW with Enh. Vap. Inj.
------
ZHW Transient
------
Wet Injection
------
Wet Evaporating Transient
Technical Overview
Compressor
Capacity (kW)
R410A
ZHW08K1P
Stub Suction
(inch)
Stub
Discharge
(inch)
Oil Quantity
(l)
Length/
Width/Heigth
(mm)
Net Weight
(kg)
*Sound
Pressure
@1 m (dBA)
2.8
3/8
1 /2 ”
1.7
229/198/388
21
68
*COP
Displacement
(m 3/h)
Min
Max
2.0
8.2
2.9
ZHW16K1P
5.8
19.8
3.2
5.3
3/8
1 /2 ”
1.7
229/198/388
22
68
ZPV36K1P
3.2
11.4
3.8
6.0
3/8
1 /2 ”
1.7
229/198/388
21
65
ZPV60K1P
5.9
21.1
4.1
10 .1
3/8
1 /2 ”
1.7
229/198/388
22
65
1Ph 230V
3Ph 400V
Comm
Length/
Width/Heigth
(mm)
Y
Modbus
253/420/150
Co nd itio ns: Cooling kW (5 /5 0 ) fo r ZPV, Heating kW (-7/50) fo r ZH W
*@ N om inal Speed (5 0 H z)
Inverter Drive
Capacity (kW)
Matched
Compressor
Model
Cooling
Min
Max
Net Weight
(kg)
Air/Liquid
30
117
6.8
Nominal
EV041B
ZPV36 / ZHW08
4.1
EV081B
ZPV60 / ZHW16
8.1
Frequency (Hz)
n.a.
Y
Capacity Data
Condensing Temperature +50°C
Heating Capacity (kW)
R410A
Drive Power Input (kW)
R410A
Evaporating Temperature (°C)
-30
-15
-10
-5
0
5
15
Max
6.0
8.6
9.7
11.0
11.6
12.0
12.4
Min
2.0
2.6
2.8
2.9
2.8
3.1
3.8
Max
11.3
16.3
18.5
20.8
21.8
2 2 .6
23.7
Min
4.2
5.2
5.8
5.9
5.9
6.6
8.1
Model
Evaporating Temperature (°C)
-30
-15
-10
-5
0
5
15
Model
ZHW08
Max
3.1
3.3
3.3
3.4
3.2
2.9
2.4
Min
1.3
1 .1
1 .1
1.0
0.9
0.9
0.9
Max
5.7
6.0
6.1
6.1
5.7
5.4
4.4
Min
2.4
2.0
2.0
1.9
1.7
1.7
1.7
ZHW08
ZHW16
ZHW16
Condition: Suction Superheat 5K, Subcooling 4K
Condensing Temperature +50°C
Cooling Capacity (kW)
R410A
Drive Power Input (kW)
R410A
Evaporating Temperature (°C)
-15
-10
-5
0
5
10
Evaporating Temperature (°C)
15
Model
-15
-10
-5
0
5
10
15
2.6
Model
Max
4.6
6.0
8.4
9.9
11.2
11.8
12.3
Max
3.8
3.8
4.2
3.9
3.6
3.0
Min
2.1
2.7
2.9
3.1
3.7
4.2
4.5
Min
1.8
1. 8
1 .6
1.5
1.3
1.2
1. 1
Max
9.4
11.8
16.1
18.6
20.9
21.7
22.5
Max
6.1
6.1
6.9
6.6
6.1
5.3
4.6
Min
3.9
5.0
5.5
5.8
7.0
7.9
8.3
Min
2.8
2.8
2.5
2.2
2.2
2.1
1.9
ZPV36
ZPV60
ZHW08
ZHW16
27
http://holodko.ru/
ZRH & ZBH Copeland Scroll™ Horizontal Compressor Range
for R407C and R134a, for the specific needs of transport air conditioning.
Air conditioning for passenger comfort is a pre-requisite in to ­
day's public transport vehicles. At the same tim e, maximization
of passenger space and streamlining of high speed trains increas­
ingly impose limitations on height.
ZRH compressors are based on the unique Copeland Scroll de­
sign and provide the same reliability as a standard Copeland
Scroll. The addition of an oil pump covers the specific needs of
transport air conditioning and of horizontal compressor arrange­
ment in general.
The low profile design and modulation capabilities of the ZRH
compressor range are the ideal response to these market needs.
Horizontal Scroll Compressors
ZRH Scroll Compressors Line-up R407C
R407C Line-up
•
R134a Line-up
•
•
•
•
•
k W Cooling
0
2
3
4
5
6
7
9
8
10
11
12
13
14
15
EN12900: Evaporating 5°C, Condensing 50°C, Superheat 10K, Subcooling 0K
Features and Benefits
Maximum Allowable Pressure (PS)
•
•
•
•
•
•
•
Compactness and low weight
Horizontal design with less than 250mm height
Copeland Scroll compliance for superior reliability and
efficiency
Additional oil-pump
Reduction of potential risk of refrigerant leakage through
the drive shaft sealing
Capacity modulation from 70% to 150% for ZRHV/ZBHV
Operating Envelope R407C
Evaporating Temperature °C
10KSuction Superheat
25°C Suction Gas Return
28
http://holodko.ru/
Maximum Evaporating
Temperature
29.5 bar
16
17
18
19
20
ZBH30KJE
R407C
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Refrigeration Applications
Emerson Climate Technologies offers a wide range of solutions
Emerson Climate Technologies' prime focus for its semi-hermetic
for commercial refrigeration applications. With its long-lasting
reciprocating
expertise in semi- hermetic reciprocating compressor technology
refrigeration. Here aspects such as reliability, serviceability and
as well as in scroll technology, we can meet the requirements for
capacity modulation are of importance and they are perfectly
most applications - at the small end just like at the large end of
provided by Emerson Climate Technologies' semi-hermetic
commercial refrigeration.
reciprocating compressors. Innovations like the Discus™ and
Stream
Completed
by the
various
offerings
in the
segment of
condensing units, Emerson Climate Technologies is able to offer
technology is at the large end of commercial
technologies, digital
modulation
and
CoreSense™
Diagnostics for advanced protection and preventive maintenance
keep semi-hermetic at the forefront of compressor technology.
the best solution and performance, whether you are looking
for applications in foodservice or processing, supermarkets,
Especially when compact equipment, energy efficiency and
hypermarkets, petrol stations or refrigerated warehousing.
reliability are musts, the scroll technology is the preferred choice
for refrigeration applications. With developments such as vapor
injection and digital modulation, scroll has become the leading
technology and is widely recognized in the refrigeration market.
W hat ever the chosen technology and product solution, Emerson
Climate Technologies' range meets the specific refrigeration
needs covering the entire spectrum of medium and low
temperature applications whether using standard HFCs, low
GWP or natural refrigerants.
31
http://holodko.ru/
ZB Copeland Scroll™ Compressor Range
ge for M
Medium Temperature Refrigeration
using R404A, R407F, R407A/C, R134a and R22
Emerson Climate Technologies offers ZB compressors with a
wide cooling capacity range starting from 3kW to 54kW. It in­
cludes digital compressors models that offer continuous capacity
modulation technology.
Copeland Scroll compressors have 3 times less moving parts than
reciprocating compressors and feature a scroll compliance m ech­
anism which makes them particularly robust and reliable under
severe conditions including liquid slugging.
They have the advantage of light weight and compactness, mak­
ing them ideal for the usage in condensing units, compact refrig­
eration systems or special process units.
The Sum m it Series from 7 to 15 hp is designed to provide sea­
sonal efficiencies 15% higher than traditional semi-hermetic
compressors. These compressors are extrem ely quiet and can be
fitted with an external sound shell for an additional 10 dBA sound
reduction, which makes them best choice for refrigeration appli­
cations in urban and domestic areas.
ZB Compressor for Medium Temperature Refrigeration
with and without sound shell
The ZB range also features ZB220 (30hp), the largest refrigera­
tion scroll available on the market. These compressors are quali­
fied for R404A, R407F, R407A/C, R134a and R22.
For more details on Digital models please refer to page 40 in the
catalogue.
ZB and ZBD Compressor Line-up
Sum m it digital ZBD
Digital ZBD
Sum m it ZB
r
ZB
Cooling Capacity (kW),
Medium Temperature
0
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
a
50
52
Conditions EN12900, R404A: Evaporating -10°C, Condensing 45°C, Suction Gas Temperature 20°C, Subcooling 0K
Features and Benefits
Maximum Allowable Pressure (PS)
•
•
•
•
•
•
•
•
Copeland Scroll™ axial and radial compliance for superior
reliability and efficiency
Wide operating envelope with 10°C condensing limit and
fast pull down capabilities
High seasonal efficiencies as scrolls are designed at the
condition where equipment runs most of the time
Light weight and compactness, more than half the weight of
equivalent semi-hermetic compressors
Availability of optional sound shell on all models providing
an additional 10 dBA sound attenuation for silent operation
Includes 6 digital scroll compressor models for simple,
stepless 10 to 100% capacity modulation
One model for multi refrigerants R404A, R407F, R407A/C,
R134a and R22
32
http://holodko.ru/
•
•
ZB15 to ZB45:
Low Side PS 21 bar(g) / High Side PS 28.8 bar(g)
ZB50 to ZB220:
Low Side PS 22.6 bar(g) / High Side PS 32 bar(g)
Digital ZBD:
Low Side PS 22.6 bar(g) / High Side PS 32 bar(g)
54
Operating Envelope R404A
Operating Envelope R134a
Evaporating Temperature °C
Evaporating Temperature °C
-------- 20°C Suction Gas ReUim -------- 10K Superheat
-------- 20°C Suction Gas Return --------
10K Superheat
Refer to Emerson’s Select 7.7 selection software for individual model operating envelopes and other refrigerants.
Technical Overview
Net Weight
(kg)
3.3
1 .8
5.9
3/4
1/2
1.30
241/241/382
25
PFJ
TFD
13
5
58
26
55
2.5
4.2
2.0
6.8
1 1/4
1
1.50
242/242/369
27
PFJ
TFD
13
7
61
32
55
ZB21KCE
3.0
5.1
2.0
8.6
1 1/4
1
1.24
243/244/392
29
PFJ
TFD
16
7
82
40
58
ZB26KCE
3.5
5.8
2.0
1 0 .0
1 1/4
1
1.45
243/244/406
28
PFJ
TFD
18
9
97
46
58
ZB29KCE
4.0
6.8
2.1
11.4
1 1/4
1
1.50
242/242/423
29
50
59
3 Ph**
1 Ph*
3 Ph**
TFD
1 Ph*
10
3 Ph**
Sound Pressure
@1 m (dBA) ***
Length/Width/Heigth
(mm)
2.0
ZB19KCE
P
O
C
Displacement (m3/h)
ZB15KCE
Capacity
(kW)
1 Ph*
R404A
Nominal
hp
Oil Quantity
(l)
Locked Rotor
Current (A)
Rotalock Discharge
(inch)
Maximum Oper­
ating Current (A)
Rotalock Suction
(inch)
Motor Version/
Code
ZB30KCE
4.0
6.9
2.0
11.7
1 1/4
1
1.90
242/242/438
35
PFJ
TFD
26
10
142
49
59
ZB38KCE
5.0
8.5
2.0
14.4
1 1/4
1
1.90
242/242/438
37
PFJ
TFD
32
13
142
66
61
ZB42KCE
5.5
9.7
2.1
16.2
1 1/4
1
1.90
251/246/450
40
PFJ
ZB45KCE
6.0
10 .1
2.1
17.1
1 1/4
1
1.90
242/242/458
40
TFD
13
74
61
ZB48KCE
7.0
11.6
2.1
18.8
1 1/4
1 1/4
1.80
241/247/456
39
TFD
14
10 1
62
ZB50KCE
7.0
11.9
2.1
19.8
1 1/8
7/8
2.65
264/284/480
57
TFD
15
10 0
64
ZB58KCE
8.0
13.3
2.1
22 .1
1 3/4
1 1 /4
2.65
264/284/478
57
TFD
15
95
65
ZB6 6 KCE
9.0
15.1
2.1
24.9
1 3/4
1 1 /4
3.38
264/284/533
60
TFD
18
111
66
ZB76KCE
10 .0
17.9
2. 2
29.1
1 3/4
1 1 /4
3.38
264/284/546
61
TFD
20
118
66
ZB95KCE
13.0
21.7
2.1
36.4
1 3/4
1 1 /4
3.38
264/285/552
65
TFD
28
140
67
ZB114KCE
15.0
25.8
2.0
43.4
1 3/4
1 1 /4
3.38
264/285/552
66
TFD
33
174
71
ZB220KCE
30.0
53.2
2 .2
87.5
x N
™ 5, 3
3/4 x
12UN
6.30
448/392/717
176
TWM
69
310
78
36
150
62
1
Conditions EN12900 : MT, Evaporating -10°C, Condensing 45°C, Suction Gas Temperature 20°C, Subcooling 0K
* 1 Ph: 230V/ 50Hz
** 3 Ph: 380-420V/ 50Hz
*** @ 1 m: sound pressure level at 1 m distance from the compressor, free field condition
33
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Capacity Data
C ondensing Te m p e rature +40°C
Cooling C ap acity (k W )
R404A
M odel
P o w er In p u t (k W )
R 404A
Evap o rating Te m p e rature °C)
-35
Evap o rating Tem p erature °C)
-30
-25
-20
-15
-10
-5
M odel
-30
-25
-2 0
-15
-10
-5
Z B15KC E
1.4
1.9
2.4
3.0
3.7
4.5
ZB15KC E
-35
1.7
1.7
1.7
1.6
1.6
1.5
Z B19KC E
2.0
2.5
3.1
3.8
4.5
5.4
ZB19KC E
1.9
1.9
1.9
1.9
1.9
1.9
Z B21KC E
2.4
3.0
3.7
4.5
5.5
6.6
ZB21KC E
2.2
2.2
2.2
2.2
2.2
2.2
Z B26KC E
2.8
3.5
4.3
5.3
6.4
7.6
ZB26KC E
2.6
2.6
2.6
2.6
2.6
2.6
Z B29KC E
3.2
4.1
5.0
6 .2
7.5
9.0
ZB29KC E
2.8
2.9
2.9
2.9
2.9
2.8
Z B30KC E
3.2
4.1
5.0
6 .2
7.5
9.0
ZB30KC E
3.0
3.0
3.0
3.0
3.0
3.0
Z B38KC E
4.1
5.1
6.3
7.7
9.3
11.2
Z B38KC E
3.7
3.8
3.8
3.8
3.8
3.8
Z B 4 2 K C E **
4.6
5.7
7.1
8.7
10 .6
12.7
Z B 4 2 K C E **
4.2
4.2
4.2
4.2
4.2
4.2
ZB45KC E
4.8
6.0
7.4
9.1
11.0
13.2
ZB45KC E
4.3
4.3
4.3
4.3
4.3
4.3
ZB48KC E
5.5
6.9
8.6
10.5
12.7
15.2
ZB48KC E
4.9
4.9
4.9
4.9
4.9
4.9
ZB50KC E
2 .8 *
5.9
8.2
10 .6
13.1
15.8
ZB50KC E
5.2*
5.2
5.1
5.1
5.1
5.1
ZB58KC E
4 .2 *
7.2
9.4
11.9
14.5
17.5
ZB58KC E
5.6*
5.6
5.6
5.6
5.7
5.7
ZB 6 6 KCE
6 .0 *
8.9
11.1
13.6
16.4
19.7
Z B 6 6 KCE
6.1 *
6.2
6.3
6.3
6.4
6.4
ZB76KC E
7.0*
10.4
13.0
16.0
19.4
23.3
ZB76KC E
7.0*
7.1
7.2
7.3
7.3
7.4
ZB95KC E
7.6*
10.7*
15.6
19.5
23.8
28.7
Z B95KC E
9.6*
9.4*
9.4
9.3
9.4
9.5
ZB114KCE
8.5*
ZB220KCE
12.3*
18.3
23.0
28.3
34.4
ZB114KCE
28.4*
39.2
47.7
57.5
68.9
Z B 220KC E
1 1 .6 *
11.4*
11.3
11.3
11.3
11.4
21.4*
21.8
22 .0
22 .2
22.4
Suction Gas Return 20°C / Subcooling 0K
* Suction Superheat 10K / Subcooling 0K
** Single Phase only
Preliminary data
C ondensing Te m p e rature +40°C
C ooling C ap acity (k W )
R407A
M odel
Evap o rating Te m p e rature °C)
-35
-30
-25
-2 0
ZB15KC E
1 .6 *
2 .1 *
ZB19KC E
2 .1 *
2 .6 *
-15
P o w er In p u t (k W )
R407A
-10
-5
M odel
2.8
3.5
4.2
3.4
4.2
5.2
Evap o rating Tem p erature °C)
-35
-30
-25
-20
-15
-10
-5
ZB15KC E
1.5*
ZB19KC E
1.7*
1.5*
1.5
1.5
1.5
1.7*
1.8
1.8
1.8
Z B21KC E
2.5*
3.2*
4.1
5.1
6.2
ZB21KC E
2 .0 *
2 .1 *
2.1
2.1
2.1
Z B26KC E
2 .6 *
3.6*
4.7
5.8
7.1
ZB26KC E
2.3*
2.3*
2.3
2.3
2.4
Z B30KC E
3.4*
4.4*
5.8
7.3
8.9
ZB30KC E
2.7*
2.7*
2.7
2.7
2.8
Z B38KC E
4 .2 *
5.4*
7.2
8.9
11
ZB38KC E
3.2*
3.2*
3.3
3.3
3.4
Z B45KC E
4 .9 *
6.3*
8.2
10 .2
12.4
ZB45KC E
3.8*
3.9*
4.0
4.0
4.0
Suction Gas Return 20°C / Subcooling 0K
* Suction Superheat 10K / Subcooling 0K
C ondensing Te m p e rature +40°C
C ooling C ap acity (k W )
R407C
M odel
Evap o rating Te m p e rature [°C)
-35
-30
-25
-2 0
-15
-10
P o w e r In p u t (k W )
R407C
-5
M odel
Evap o rating Tem p erature [°C)
-35
-30
-25
-2 0
-15
-10
-5
ZB15KC E
1 .6 *
1.9*
2.3*
2.9
3.6
ZB15KC E
1 .2 *
1.3*
1.3*
1.3
1.3
ZB19KC E
1 .6 *
2 .1 *
2.7*
3.5
4.4
ZB19KC E
1 .6 *
1 .6 *
1 .6 *
1.6
1.6
ZB21KC E
2 .1 *
2.9*
3.7*
4.7
5.8
ZB21KC E
1.9*
2 .0 *
2 .0 *
2.0
2.0
ZB26KC E
2 .2 *
2.9*
3.7*
4.9
6.2
ZB26KC E
2 .2 *
2 .2 *
2 .2 *
2.2
2.2
ZB30KC E
2.7*
3.6*
4 .8 *
6.2
7.7
ZB30KC E
2.5*
2.5*
2 .6 *
2.6
2.6
ZB38KC E
3.1*
4.2*
5.6*
7.4
9.4
ZB38KC E
2.9*
3.0*
3.1*
3.1
3.2
Z B 4 2 K C E **
4.4*
5.7*
7.2*
9.1
11.2
Z B 4 2 K C E **
3.8*
3.8*
3.8*
3.8
3.6
ZB45KC E
3.7*
5.3*
7.1*
9.2
11.5
ZB45KC E
3.4*
3.6*
3.6*
3.7
3.7
Suction Gas Return 20°C / Subcooling 0K
*Suction Superheat 10K / Subcooling 0K
* * Single Phase only
34
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Capacity Data
Condensing Te m p e rature +40°C
C ooling C ap acity (k W )
R134a
M odel
-35
-30
-25
P o w e r In p u t (k W )
R134a
Evap o rating Te m p e rature (°C)
Evap o rating Te m p e rature (°C)
-2 0
-15
-10
-5
M odel
-2 0
-15
-10
-5
Z B15KC E
1.4
1.7
2.2
2.7
Z B15KC E
-35
-30
-25
0.9
0.9
0.9
0.9
Z B19KC E
1.6
2.0
2.5
3.2
ZB19KC E
1.1
1.1
1.1
1.1
ZB21KC E
2.0
2.5
3.2
4.0
ZB21KC E
1.3
1.3
1.3
1.3
ZB26KC E
2.3
2.9
3.7
4.6
ZB26KC E
1.5
1.5
1.5
1.5
ZB30KC E
2.5*
3.4
4.3
5.4
ZB30KC E
1.7*
1.7
1.7
1.8
ZB38KC E
3.0*
4.2
5.4
6.7
ZB38KC E
2 .1 *
2.1
2.1
2.2
Z B 4 2 K C E **
3.8
4.8
6 .0
7.5
Z B 4 2 K C E **
2.5
2.5
2.5
2.4
ZB45KC E
3.8*
5.1
6.4
8.0
ZB45KC E
2.4*
2.4
2.5
2.5
ZB50KC E
4.6
5.9
7.4
9.1
ZB50KC E
3.0
3.0
3.0
3.1
ZB58KC E
5.2
6.6
8.3
10.3
ZB58KC E
3.4
3.4
3.4
3.4
Z B 6 6 KCE
6.0
7.6
9.5
11.8
Z B 6 6 KCE
3.8
3.7
3.8
3.8
ZB76KC E
6.9
8.6
10 .8
13.5
ZB76KC E
4.4
4.4
4.4
4.5
ZB95KC E
8.2
10 .8
13.8
17.1
ZB95KC E
5.4
5.5
5.6
5.6
Z B 114KC E
9.6
12.7
16.3
20.4
Z B 114KC E
6.6
6.6
6.7
6.7
Suction Gas Return 20°C / Subcooling 0K
* Suction Superheat 10K / Subcooling 0K
** Single Phase only
Condensation Te m p e ra tu re +40°C
C ooling C ap acity (k W )
R407F
P o w e r In p u t (k W )
R407F
Evap o rating Te m p e ra tu re (°C)
M odel
-35
-30
-25
-10
-5
M odel
Z B1 5KC E*
3.3
4.1
Z B 15KC E*
Z B1 9KC E*
4.1
5.0
Z B 19KC E*
1.9
1.8
Z B2 1KC E*
4.9
6. 0
Z B 21KC E*
2.2
2.2
5.7
7.0
Z B 26KC E*
2.6
2.6
7.2
8.9
Z B30KC E
2.9
2.9
-2 0
-15
Evap o rating Te m p e ra tu re (°C)
Z B2 6KC E*
-35
-30
-25
-2 0
2.9*
-1 0
-5
1.6
1.5
Z B30KC E
4 .2 *
5.5*
Z B38KC E
5.2*
6.9*
8.9
11.0
ZB38KC E
3.7*
3.7*
3.7
3.7
Z B45KC E
6 .0 *
8 .1 *
10.5
13.0
Z B45KC E
4.1*
4 .2 *
4.3
4.2
Suction Gas Return 20°C / Subcooling 0K
* Suction Superheat 10K / Subcooling 0K
2.9*
-15
Preliminary data
Condensation Te m p e rature +40°C
Cooling C ap acity (k W )
R22
M odel
Evap o rating Te m p e rature (°C)
-35
-30
-15
P o w e r In p u t (k W )
R22
-25
-2 0
-5
Z B15KC E
1.4*
2 .1 *
2 .8 *
3.5
4.2
Z B19KC E
1.9*
2.5*
3.2*
4.0
4.8
Z B21KC E
2 .0 *
3.0*
4 .0 *
5.1
6 .2
Z B26KC E
2.7*
3.5*
4 .4 *
5.6
6.8
Z B30KC E
2 .2 *
3.2*
4 .5 *
6 .0
Z B38KC E
3.8*
4.9*
6.3*
8 .0
Z B 4 2 K C E **
5.2*
6 .6 *
8 .1 *
9.9
Z B45KC E
4.5*
6.4*
8.3*
10.3
Z B50KC E
4.6*
6.9*
9.2*
M odel
Evap o rating Tem p erature (°C)
-25
-2 0
ZB15KC E
1.5*
1.4*
1.4*
1.4
1.4
ZB19KC E
1 .6 *
1 .6 *
1 .6 *
1.6
1.6
ZB21KC E
2 .2 *
2 .1 *
2 .0 *
2.0
2.0
ZB26KC E
2 .2 *
2 .2 *
2 .2 *
2.2
2.2
7.7
ZB30KC E
2 .6 *
2.7*
2.7*
2.7
2.7
10 .0
ZB38KC E
2.9*
3.0*
3.1*
3.1
3.2
11.9
Z B 4 2 K C E **
3.9*
3.8*
3.8*
3.7
3.6
12.5
ZB45KC E
3.4*
3.6*
3.7*
3.7
3.8
11.7
14.4
ZB50KC E
4.4*
4 .4 *
4.4*
4.3
4.3
-10
-35
-30
-15
-10
-5
Z B58KC E
5.1*
7.5*
10 .1 *
13.0
16.1
ZB58KC E
4 .8 *
4.9*
4.9*
4.9
4.9
Z B 6 6 KCE
7.4*
9.6*
1 2 .2 *
15.1
18.4
ZB 6 6 KCE
5.1*
5.2*
5.3*
5.4
5.4
ZB76KC E
8.9*
11.5*
5.9*
6 .1 *
14.4*
17.8
21.7
ZB76KC E
6 .2 *
6.3
6.4
ZB95KC E
16.8*
21.4*
26.5*
ZB95KC E
8 .0 *
8 .1 *
8 .2 *
Z B 114KC E
19.9*
25.5*
31.7*
ZB114KCE
9.6*
9.6*
9.7*
Suction Gas Return 20°C / Subcooling 0K
* Suction Superheat 10K / Subcooling 0K
* * Single Phase only
35
http://holodko.ru/
ZF Copeland Scroll™ Compressor Range for Low Temperature Refrigeration
using R404A, R407F, R407A and R22
Emerson Climate Technologies developed the ZF range to pro­
vide the best performance in low tem perature. The range has a
wide application envelope as it can operate from -40°C evaporat­
ing temperature to +7°C. They have been optimized in their de­
sign to perfectly fit frozen food application requirements. Thanks
to their scroll compliance mechanism, these scroll compressors
feature particularly high tolerance to liquid slugging.
The range consists of:
• The ZF*KCE models that operate with liquid injection in
order to control discharge temperature and increase the
operating envelope.
• The ZF*KVE models that are optimized for vapor injection
with use of a sub-cooler. This boosts refrigeration system's
cooling capacity and efficiency.
• The Summit ZF* K6E models that operate both with liquid
injection or vapor injection.
ZF Compressor for Low Temperature Refrigeration
with and without sound shell
These compressors are qualified for R404A, R407F, R407A, R507,
R22 and R134a for certain models. For more details on Digital
Scroll™ model please refer to page 40 in the catalogue.
ZF and ZFD Compressor Line-up
Digital ZFD
W
ZF with Enhanced Vapor Injection
ZF with Liquid Injection
9
•
• • • • •
•
ZF Summ it
Cooling capacity (kW ),
Low Temperature
•
•
2
4
•
•
•
•
0
•
6
•
•
•
•
•
•
8
10
12
14
16
18
Conditions 12900, R404A: Evaporating -35°C, Condensing 40°C, Suction Gas Temperature 20°C, Subcooling 0K
Features and Benefits
•
•
•
•
•
•
Wide operating envelope with 10°C low condensing
temperature to minimize energy consumption
One model for multi-refrigerants
Light weight and compactness, more than half the weight of
equivalent semi-hermetic compressor
Optional Sound Shell allowing 10 dBA sound
attenuation.
ZF models with liquid injection
- Easy, efficient and reliable injection via Discharge
Temperature Control Valve (DTC) on the smaller
models
ZF models with Enhanced Vapor Injection
- Seasonal efficiencies compared to Emerson's best semihermetic compressors
- Improved system capacity and efficiency by 40% and
25% respectively, making them the most efficient
compressors on the market.
- Possibility to reduce the equipment and component
sizes by using smaller compressors
Maximum Allowable Pressure (PS)
•
•
•
Operating Envelope R404A
ZF06 to ZF18 (K4E/KVE):
Low Side PS 21 bar(g) / High Side PS 28.8 bar(g)
ZF24 to ZF48 (K4E/KVE/K6E):
Low Side PS 22.6 bar(g) / High Side PS 32 bar(g)
Digital ZFD:
Low Side PS 19 bar(g) / High Side PS 28 bar(g)
36
http://holodko.ru/
Evaporating Temperature °C
—
ZF*K4E & ZF*KVE
- - - Some Models (ZF24KVE-ZF48KVE)
Refer to Emerson’s Select 7.7 selection software for individual model operating
envelopes and other refrigerants.
Motor Ver­
sion/ Code
Maximum
Operating
Current (A)
Locked Ro­
tor Current
(A)
3 Ph**
3 Ph**
3 Ph**
52
Sound Pressure
@1 m (dBA) * * *
(kg)
Net Weight
Length/Width/Heigth
(m m )
(l)
Oil Quantity
Rotalock Discharge
(inch)
Rotalock Suction
(inch)
Displacement (m 3/h)
COP
Capacity
(kW )
hp
R404A
Nominal
Technical Overview
M odels w ith Liquid In je ctio n
Z F0 6K 4 E
2.0
1.4
1.0
Z F0 8K 4 E
Z F0 9K 4 E
5.9
2.5
1.8
1.1
7.3
3.0
1.9
1.1
8.0
Z F1 1K 4 E
3.5
2.5
1.1
9.9
Z F1 3K 4 E
4.0
2.8
1.2
11.8
Z F1 5K 4 E
5.0
3.4
1.2
14.5
Z F1 8K 4 E
6.0
4.2
1.2
17.1
Z F2 4K 4 E
7.5
5.2
1.1
20.9
Z F3 3K 4 E
10.5
7.1
1.2
28.8
Z F4 0K 4 E
12.5
8.8
1.2
35.6
Z F4 8K 4 E
15.0
10 .6
1.1
42.8
1.30
1
242/242/369
25
TFD
5
57
1.48
243/244/392
27
TFD
6
32
59
1.50
243/244/392
27
TFD
6
40
62
1.50
243/244/406
28
TFD
7
46
63
1.40
241/244/490
38
TFD
8
52
65
1.70
241/244/490
39
TFD
10
64
65
1 3/4
1 1/4
1 3/4
2 1/4
1.70
241/244/490
41
TFD
13
74
67
4 .1 4
368/316/542
100
TW D
16
99
72
4 .1 4
368/319/525
93
TW D
22
127
72
4 .1 4
368/324/532
103
TW D
25
167
72
4 .1 4
324/294/579
112
TW D
29
198
72
1 1 /4
1 1/4
M odels w ith Enhanced V apo r Inje ctio n
Z F1 3K V E
4.0
4.0
1.3
11.7
Z F1 8K V E
6.0
6.0
1.5
17.1
Z F2 4K V E
7.5
7.3
1.4
20.9
Z F3 3K V E
10.5
9.9
1.4
28.8
Z F4 0K V E
12.5
12.0
1.5
35.6
Z F4 8K V E
15.0
15.0
1.5
42.8
1.90
241/244/442
38
TFD
9
64
63
1.90
308/246/438
39
TFD
13
74
67
4 .1 4
316/368/542
100
TW D
16
99
70
1
1 3/4
1 1 /4
2 1/4
1 3/4
4 .1 4
368/319/525
93
TW D
21
127
72
4 .1 4
316/368/550
96
TW D
27
167
72
4 .1 4
324/294/579
112
TW D
31
198
72
Motor Version/ Code
Maximum
Operating
Current (A)
Locked Ro­
tor Current
(A)
3 Ph**
3 Ph**
3 Ph**
14
90
68
Conditions EN12900 : LT, Evaporating -35°C, Condensing 40°C, Suction Gas Temperature 20°C, Subcooling 0K
** 3 Ph: 380-420V/ 50Hz
*** @ 1 m: sound pressure level at 1 m distance from the compressor, free field condition
1.90
308/246/438
41
TFD
Length/Width/
Heigth
(m m )
t
h
ie g
)
W g
(k
t (
e
N
Sound Pressure
@1 m (dBA) * * *
1
(l)
1 1/4
Oil Quantity
21.3
Displacement
(m 3/h)
1.2
COP
5.1
Capacity
(kW )
Rotalock Discharge
(inch)
7.5
Rotalock Suction
(inch)
Z F2 5K 6 E
hp
R404A
Nominal
Technical Overview - “Sum m it” Compressors
Z F3 4K 6 E
9.0
6.8
1.3
29.1
1 3/4
1 1/4
3.20
280/279/456
63
TFD
19
100
68
Z F4 1K 6 E
10 .0
8.0
1.3
35.3
1 3/4
1 1/4
3.20
280/279/546
63
TFD
21
118
69
Z F4 9K 6 E
13.0
10 .1
1.2
42.3
1 3/4
1 1/4
3.20
280/279/564
63
TFD
31
118
71
Conditions EN12900 : LT, Evaporating -35°C, Condensing 40°C, Suction Gas Temperature 20°C, Subcooling 0K
** 3 Ph: 380-420V/ 50Hz
*** @ 1 m: sound pressure level at 1 m distance from the compressor, free field condition
Preliminary data
37
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Capacity Data
C ondensing Te m p e rature +40°C
M odels w ith Liquid Injection
C ooling C ap acity (k W )
R404A
M odel
-35
Z F06K4E
1.4
Z F08K4E
1.8
-30
-25
-2 0
1.8
2.2
2.6
2.2
2.8
3.4
-15
P o w er In p u t (k W )
R404A
Evap o ratio n Te m p e ra tu re <°C)
-10
-5
M odel
3.1
3.8
4.5
4.1
4.8
5.7
Evap o ratio n Te m p e ra tu re <°C)
-35
-30
-25
-2 0
-15
Z F06K4E
1.4
1.4
1.5
1.5
1.6
1.7
1.8
Z F0 8K 4 E
1.6
1.7
1.8
1.9
2.0
2.1
2.2
-10
-5
ZF0 9K 4 E
1.9
2.4
3.0
3.6
4.4
5.2
6.3
Z F0 9K 4 E
1.8
1.8
1.9
1.9
2.0
2.1
2.2
ZF1 1K 4 E
2.5
3.0
3.7
4.5
5.4
6.5
7.8
Z F1 1K 4 E
2.2
2.2
2.3
2.4
2.5
2.6
2.7
ZF1 3K 4 E
2.8
3.5
4.3
5.3
6.4
7.7
9.1
Z F1 3K 4 E
2.3
2.4
2.5
2.6
2.7
2.8
3.0
ZF1 5K 4 E
3.4
4.3
5.3
6.4
7.8
9.4
11.2
Z F1 5K 4 E
2.8
3.0
3.1
3.2
3.4
3.6
3.8
ZF1 8K 4 E
4.2
5.2
6.4
7.8
9.4
11.3
13.5
Z F1 8K 4 E
3.4
3.6
3.7
3.8
4.0
4.2
4.4
ZF2 4K 4 E
5.2
6.4
7.9
9.6
11.6
13.8
16.4
Z F2 4K 4 E
4.5
4.7
5.0
5.2
5.4
5.6
5.8
ZF3 3K 4 E
7.1
8.9
10.9
13.3
16.1
19.3
23.0
Z F3 3K 4 E
5.8
6 .2
6.5
6.9
7.2
7.5
7.8
ZF4 0K 4 E
8 .8
11.0
13.5
16.4
19.8
23.7
28.2
Z F4 0K 4 E
7.4
7.8
8 .2
8 .6
9.0
9.4
9.8
ZF4 8K 4 E
10 .6
13.2
16.3
20.0
24.1
28.9
34.4
Z F4 8K 4 E
9.7
10 .2
10 .6
11.1
11.6
12.1
12.7
-35
-30
-25
-2 0
-15
-30
-25
-2 0
-15
-1 0
-5
Z F1 3 K V E
4.0
4.9
6 .0
7.2
8 .6
10 .1
11.7
Z F1 3 K V E
3.0
3.0
3.1
3.2
3.3
3.4
3.5
Z F1 8 K V E
6. 0
7.1
8.5
10 .1
11.9
14.0
16.4
Z F1 8 K V E
4.0
4.2
4.4
4.6
4.7
4.9
5.0
Z F2 4 K V E
7.3
8.9
10.7
12.7
15.0
17.5
20.4
Z F2 4 K V E
5.2
5.4
5.6
5.8
6.0
6.3
6.5
Z F3 3 K V E
9.9
12.0
14.5
17.3
20 .4
24.1
28.1
Z F3 3 K V E
6.9
7.2
7.5
7.7
8.0
8.3
8 .6
Z F4 0 K V E
12.0
15.3
18.8
22.5
26.5
30.9
35.7
Z F4 0 K V E
8.0
8 .8
9.5
9.9
10.3
10 .6
10.9
Z F4 8 K V E
15.0
18.2
21.8
25.7
30.0
34.7
39.9
Z F4 8 K V E
9.8
10.4
11.0
11.6
12.2
12.9
13.5
-35
-30
-25
-2 0
-15
-10
-5
-35
-30
-25
-2 0
-15
-10
-5
ZF2 5K 6 E
5.1
6.3
7.8
9.6
11.7
14.1
16.8
Z F2 5K 6 E
4.1
4.4
4.7
4.9
5.1
5.3
5.5
ZF3 4K 6 E
6.8
8.5
10.4
12.6
15.3
18.3
21.8
Z F34K6E
5.2
5.5
5.8
6.0
6.3
6.6
6.9
ZF4 1K 6 E
8.0
10 .0
12.3
14.9
18.0
21.5
25.7
Z F41K6E
6.4
6.7
7.1
7.4
7.8
8 .1
8.5
Z F49K6E
10.7
13.3
16.4
20.0
24.1
28.9
34.3
Z F49K6E
9.7
10 .2
10 .6
11.1
11.6
12.1
12.7
M odels w ith Enhanced V apo r In je ctio n
-10
-5
-35
ZF S u m m it M odels - w it h Liquid Injection
ZF S u m m it M odels - w it h Enhanced V ap o r In je ctio n
-35
-30
-25
-2 0
-15
-10
-5
-35
-30
-25
-2 0
-15
-10
-5
Z F2 5K 6 E
7.8
9.5
11.4
13.5
15.9
18.5
21 .4
Z F25K6E
5.0
5.3
5.5
5.7
5.9
6.1
6.2
Z F3 4K 6 E
10 .2
12.4
14.9
17.6
20.7
24.1
27.8
Z F34K6E
6.3
6 .6
6.9
7.2
7.5
7.8
8 .1
Z F41K6E
12.6
15.3
18.3
21.7
25.5
29.6
34.2
Z F41K6E
7.8
8 .2
8.6
9.0
9.4
9.8
10 .2
Z F49K6E
15.1
18.3
21.9
26.0
30.5
35.5
41.0
Z F49K6E
9.6
10 .1
10 .6
11.1
11.5
12.0
12.5
Suction Gas Return 20°C / Subcooling 0K
Preliminary data
Condensing Te m p e rature +40°C
Cooling C ap acity (k W )
R134a
M odel
Evap o rating Tem p erature °C)
-35
-30
-25
-2 0
-15
-10
P o w e r Inp ut (k W )
R134a
-5
M odel
Evap o rating Te m p e ra tu re <°C)
-35
-30
-25
-2 0
-15
-10
-5
Z F1 3K 4 E
1.5
2.0
2.5
3.1
3.8
4.6
5.6
Z F1 3K 4 E
1.4
1.5
1.5
1.6
1.7
1.8
1.8
Z F1 5K 4 E
1.8
2.3
2.9
3.7
4.6
5.6
6.9
Z F1 5K 4 E
1.7
1.8
1.9
2.0
2.1
2.2
2.3
Z F1 8K 4 E
2.1
2.7
3.4
4.3
5.4
6.7
8 .1
ZF1 8K 4 E
2.3
2.3
2.4
2.5
2.6
2.8
2.9
Z F2 4K 4 E
2.7
3.5
4.4
5.4
6.7
8.2
10 .0
ZF2 4K 4 E
2.9
3.0
3.1
3.2
3.3
3.4
3.5
Z F3 3K 4 E
3.6
4.7
6.1
7.6
9.5
11.6
13.9
Z F3 3K 4 E
3.6
3.7
3.9
4.1
4.3
4.6
4.8
Suction Gas Return 20°C / Subcooling 0K
38
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—
Capacity Data
Condensing Te m p e ra tu re +40°C
C ooling C ap acity (k W )
R407A
P o w e r In p u t (k W )
R407A
Evap o rating Te m p e rature <°C)
Evap o rating Te m p e ra tu re (°C)
M odel
-35
-30
-25
-2 0
-15
-10
-5
M odel
-35
-30
-25
-2 0
-15
-10
-5
Z F0 9K 4 E
1.9
2.3
2.9
3.5
4.3
5.2
6.2
ZF0 9K 4 E
1.7
1.9
2.1
2.3
2.6
3.0
3.4
Z F1 1K 4 E
2.1
2.6
3.3
4.1
5.0
6 .1
7.4
Z F1 1K 4 E
1.5
1.7
1.9
2.0
2.2
2.4
2.5
Z F1 3K 4 E
2.2
2.8
3.5
4.4
5.5
6.5
7.7
Z F1 3K 4 E
2.1
2.2
2.3
2.3
2.4
2.5
2.5
Z F1 5K 4 E
2.7
3.4
4.3
5.5
6.7
8 .1
9.7
Z F1 5K 4 E
2.5
2.7
2.8
2.9
3.0
3.1
3.0
Z F1 8K 4 E
3.3
4.1
5.2
6.6
8 .1
9.7
11.5
Z F1 8K 4 E
3.0
3.2
3.3
3.5
3.6
3.7
3.5
-35
-30
-25
-2 0
-15
-10
-5
-35
-30
-25
-2 0
-15
-10
-5
Z F1 3K V E
3.1
4.0
4.9
6.0
7.3
8.7
10.4
Z F1 3K V E
2.3
2.3
2.4
2.5
2.6
2.7
2.7
Z F1 8K V E
4.9
6.0
7.3
8.8
10 .8
13.3
16.5
Z F1 8K V E
3.4
3.5
3.6
3.7
3.9
4.1
4.4
Z F2 4K V E
5.8
7.2
8.8
10.7
12.8
15.1
17.7
Z F2 4K V E
4.6
4.9
5.1
5.4
5.9
6.4
7.1
M odels w it h Enhanced V apo r Inje ctio n
Z F3 3K V E
7.7
9.8
12.2
14.7
17.2
19.3
21.0
Z F3 3K V E
6. 0
6.3
6.5
6.9
7.3
8.0
8.9
Z F4 0K V E
10 .2
12.7
15.5
18.8
22.3
26.1
30.1
Z F4 0K V E
7.0
7.4
7.8
8.3
8.9
9.6
10.5
-35
-30
-25
-2 0
-15
-10
-5
-35
-30
-25
-20
-15
-10
-5
req.
req.
req.
Z F2 5K 6 E
req.
req.
req.
req.
req.
req.
req.
Z F3 4K 6 E
5.5
5.6
5.7
5.9
Z F S u m m it M odels - w it h Liquid In je ctio n
Z F25K6E
req.
req.
req.
req.
Z F3 4K 6 E
8 .2
10 .1
12.2
14.8
Z F4 1K 6 E
10 .1
12.4
15.0
18.2
Z F41K6E
6.8
7.0
7.1
7.4
Z F4 9K 6 E
12.1
14.9
18.1
21.8
Z F4 9K 6 E
8.4
8 .6
8.8
9.1
Suction Gas Return 20°C / Subcooling 0K
Preliminary data
C ondensing Te m p e ra tu re +40°C
C ooling C ap acity (k W )
R407F
P o w er In p u t (k W )
R407F
Evap o rating Te m p e rature (°C)
Evap o rating Te m p e ra tu re (°C)
M odels
-35
-30
-25
-20
-15
-10
-5
M odels
-35
-30
-25
-20
-15
-10
-5
ZF06K4E-TFD *
1.2
1.6
2.0
2.5
3.1
3.7
4.5
Z F06K4E-TFD *
1.5
1.5
1.5
1.5
1.6
1.6
1.7
ZF08K4E-TFD *
1.5
2.0
2.5
3.2
3.9
4.8
5.7
Z F08K4E-TFD *
1.8
1.8
1.8
1.9
1.9
2.0
2.1
ZF09K4E-TFD *
1.7
2.2
2.7
3.4
4.3
5.2
6.3
Z F09K4E-TFD *
1.9
1.9
1.9
1.9
2.0
2.0
2.1
ZF11K4E-TFD *
2.1
2.7
3.4
4.3
5.3
6.5
7.8
Z F11K4E-TFD *
2.3
2.3
2.3
2.4
2.4
2.5
2.6
ZF13K4E-TFD *
2.5
3.2
4.0
5.0
6.1
7.4
8.9
Z F13K4E-TFD *
2.7
2.8
2.8
2.9
3.0
3.1
3.2
ZF15K4E-TFD *
3.1
4.0
3.5
6 .0
3.7
8.9
10 .8
ZF15K4E-TFD *
3.2
3.4
4.9
3.6
7.4
3.9
4.1
ZF18K4E-TFD *
3.6
4.7
5.9
7.3
8.9
10.9
13.2
Z F18K4E-TFD *
3.8
3.8
3.9
4.0
4.1
4.3
4.5
Suction Gas Return 20°C / Subcooling 0K
Preliminary data
Condensing Te m p e ra tu re +40°C
C ooling C ap acity (k W )
R22
M odel
-35
-30
-25
-2 0
-15
Z F0 9K 4 E
1.8
2.3
Z F1 1K 4 E
2.3
2.9
2.8
3.5
3.5
4.3
Z F1 3K 4 E
2.7
3.3
Z F1 5K 4 E
3.2
4.1
4.1
5.0
Z F1 8K 4 E
3.8
4.8
5.9
Z F2 4K 4 E
4.8
5.9
7.3
P o w e r In p u t (k W )
R22
Evap o rating Te m p e rature °C)
Evap o rating Te m p e ra tu re <°C)
-10
-5
M odel
-35
-30
-25
4.2
5.1
6 .1
Z F0 9K 4 E
5.2
6.3
7.5
Z F1 1K 4 E
5.0
6 .1
7.3
8.7
Z F1 3K 4 E
6 .1
7.4
8.9
10 .6
Z F1 5K 4 E
7.3
8.8
10.7
12.7
Z F1 8K 4 E
3.8
8.9
10 .8
13.1
15.6
Z F2 4K 4 E
4.4
-2 0
-15
-10
-5
1.9
1.9
2.1
2.1
2.0
2.0
2.1
2.1
2.2
2.2
2.3
2.4
2.5
2.7
2.5
3.0
2.5
2.6
2.7
2.8
2.9
3.0
3.1
3.2
3.3
3.4
3.6
3.7
3.8
3.9
4.0
4.1
4.3
4.5
4.7
4.9
5.1
5.3
5.4
5.6
Z F3 3K 4 E
6.2
7.9
9.9
12.3
15.0
18.1
21.4
Z F3 3K 4 E
5.7
6.0
6 .2
6.5
6 .8
7.2
7.6
Z F4 0K 4 E
8.3
10 .2
12.4
15.1
18.4
22 .2
26.7
Z F4 0K 4 E
7.2
7.5
7.8
8 .1
8.4
8.8
9.2
Z F4 8K 4 E
9.2
11.5
14.1
17.3
21.1
25.5
30.6
Z F4 8K 4 E
8.9
9.3
9.7
10 .1
10 .6
11.0
11.5
Suction Gas Return 20°C / Subcooling 0K
39
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ZFD & ZBD Copeland Scroll™ Digital Range for Medium and Low Temperature
Refrigeration
Copeland Scroll Digital ZBD and ZFD compressors provide step­
less continuous capacity modulation in medium and low temper­
ature refrigeration applications.
Based on the unique Copeland Compliant Scroll™ design, the
Digital modulation operates on a simple mechanism. Capac­
ity control is achieved by separating the scroll sets axially over a
small period of tim e. It is a simple mechanical solution allowing
precise temperature control and system efficiency.
Digital Scroll™ technology is a simple modulation solution that
can easily and quickly be implemented into any existing system
design as no other components are required.
Digital Scroll technology provides continuous, stepless modula­
tion from 10% to 100% with no operating envelope restriction.
As a result, system pressures and temperatures are tightly con­
trolled. These compressors provide optimum performance for
condensing units, refrigeration packs, process and agricultural
units.
The Digital Scroll range consists of:
• ZBD models dedicated to medium temperature applications
• ZFD models with vapor injection for low temperature
applications
• ZOD model designed for use in R744 (CO2) - see page 44
Copeland Scroll Digital for Low and Medium
Temperature Refrigeration with and without sound shell
These compressors are qualified for R404A, R407A, R407F for
some models and R22 for ZBD only.
Digital Scroll™ Compressor Line-up
ZFD
!•
Sum m it ZBD
•
ZBD
Medium/Low Temperature
kw/Cooling
0
•
2
4
•
6
8
•
•
•1
10
12
14
16
18
20
22
24
Digital ZBD R404A Evaporating -10°C, Condensing 45°C, Suction Gas Temperature 20°C, Subcooling 0K
Digital ZFD: R404A Evaporating -35°C, Condensing 40°C, Suction Gas Temperature 20°C, Subcooling 0K
Features and Benefits
•
•
•
•
•
•
•
•
Operating Envelope R404A
Continuous modulation from 10% to 100% ensuring a
perfect match of capacity and power to the desired load
An economical and reliable alternative to variable
speed drive
Precise suction pressure control with associated energy
savings
Food quality is maintained by stable evaporating
temperatures in the refrigerated areas
Longer lasting refrigeration equipment due to fewer
compressor cycling
Quick and easy integration into refrigeration equipment,
similar to any other scroll compressor
Availability of optional sound shell on all models providing
an additional 10dBA sound attenuation for silent operation
Availability of Emerson's series of controllers that operate
the Digital Scroll™ compressor
Maximum Allowable Pressure (PS)
Evaporating Temperature °C
•
•
Digital ZBD:
Low Side PS 22.6 bar(g) / High Side PS 32 bar(g)
Digital ZFD:
Low Side PS 19 bar(g) / High Side PS 28 bar(g)
40
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—
ZBD 20°C Suction Gas Return
ZFD 20°C Suction Gas Return
“ “ “
ZBD 10K Superheat
™ ™ ™ Summit ZBD
Refer to Emerson’s Select 7.7 selection software for individual model operating
envelopes and other refrigerants.
Motor Version/
Code
h*
Maximum Oper­
ating Current (A)
h*
CL
JZ
P
3
CL
PFJ
TFD
17
JZ
Locked Rotor
Current (A)
h*
P
3
CL
JZ
97
40
62
52
59
P
3
Z BD 21KC E
3.0
5.1
2.2
8
1.24
243/243/432
30
Z BD 30KC E
4.0
7.0
2.2
12
1.89
241/246/482
37
TFD
8
1.89
241/246/481
38
TFD
11
66
67
1.89
241/246/494
40
TFD
12
74
61
1
1/4
7
Sound Pressure
@1 m (dBA) ***
Net Weight (kg)
Length/Width/Heigth
(m m )
(l)
CD
ra
g
h
c
is h
)
Dc
^ c.E (i
o al
t
o
O'
Oil Q uantity
Rotalock Suction (inch)
Displacement (m3/h)
COP
Capacity
(kW )
hp
R404A
Nominal
Technical Overview
1
Z BD 38KC E
5.0
8.6
2.2
14
Z BD 45KC E
6.0
10 .2
2.1
17
Z BD 58KC E
8.0
13.5
2.1
22
1
1
2.51
264/284/476
60
TFD
15
95
65
29
3/4
1/4
3.25
293/285/533
62
TFD
20
118
66
Z BD 76KC E
10 .0
17.9
2.2
6.0
1.5
1
1/4
1
1.89
300/299/494
43
Motor Version/
Code
h*
CL
JZ
Maximum Oper­
ating Current (A)
h*
P
3
TFD
CL
JZ
Locked Rotor
Current (A)
h*
P
3
14
CL
JZ
P
3
74
Sound Pressure
@1 m (dBA) ***
Rotalock Discharge
(inch)
Rotalock Suction
(inch)
Displacement (m3/h)
17
o
Net Weight (kg)
6.0
P
O
C
y
ttii
n
a )
D^
Length/Width/Heigth
(m m )
Z FD 1 8K V E
Capacity
(kW )
R404A
Nominal
hp
Conditions EN12900 : MT, Evaporating -10°C, Condensing 45°C, Suction Gas Temperature 20°C, Subcooling 0K
* 1 Ph: 230V/ 50Hz
** 3 Ph: 380-420V/ 50Hz
* * * @ 1 m : sound pressure level at 1 m distance from the compressor, free field condition
62
Conditions EN12900 : LT, Evaporating -35°C, Condensing 40°C, Suction Gas Temperature 20°C, Subcooling 0K
* 1 Ph: 230V/ 50Hz
** 3 Ph: 380-420V/ 50Hz
* * * @ 1 m : sound pressure level at 1 m distance from the compressor, free field condition
41
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Capacity Data
C ondensing Te m p e rature +40°C
M edium Te m p e rature
C ooling C ap acity (k W )
R404A
Evap o rating Te m p e rature (°C)
-35
ZBD 21KC E
Z BD 30KC E
-5
M odel
Evap o rating Tem p erature °C)
-15
-10
-35
-30
3.0
3.7
4.5
5.5
6.6
ZBD 21KC E
1 .8 *
4.2
5.1
6.3
7.6
9.1
ZBD 30KC E
2.3*
6.3
7.7
9.3
11.1
ZBD 38KC E
-25
-2 0
-15
-10
-5
1.9
2.0
2.0
2.1
2.1
2.5
2.7
2.8
2.9
3.0
3.2
3.4
3.5
3.7
5.2
3.1
Z BD 45KC E
3.7*
5.6
7.0
8.7
10 .8
13.1
ZBD 45KC E
4 .0 *
4.1
4.2
4.3
4.4
4.5
Z BD 58KC E
4.3*
7.3
9.5
12.0
14.7
17.7
ZBD 58KC E
cn5
.
-2 0
cn2.
-25
3.
-30
© cn2
.
CN
M odel
P o w er In p u t (k W )
R404A
5.7
5.7
5.7
5.7
5.8
Z BD 76KC E
6.9*
10.3
12.9
15.9
19.4
23.2
ZBD 76KC E
7.2*
7.2
7.3
7.3
7.4
7.5
-35
-30
-25
-20
-15
-10
-5
4.0
4.2
4.4
4.6
4.7
4.9
5.0
ZBD 38KC E
Lo w Te m p e rature w ith Enhanced V ap o r Injection
ZFD 1 8K V E
-35
-30
-25
-20
-15
-10
-5
6 .0
7.1
8.5
10 .1
11.9
14.0
16.4
Z FD 1 8K V E
Suction Gas Return 20°C / Subcooling 0K
*Suction Superheat 10K / Subcooling 0K
Condensing Te m p e rature +40°C
M edium Te m p e rature
C ooling C ap acity (k W )
R407A
M odel
-35
-30
-25
P o w er In p u t (k W )
R407A
Evap o rating Te m p e rature °C)
Evap o rating Tem p erature °C)
-2 0
-15
-10
-5
M odel
-2 0
-15
-10
-5
ZBD 30KC E
4.6
5.8
7.3
9.0
ZBD 30KC E
-35
-30
-25
2.8
2.8
2.8
2.8
ZBD 38KC E
5.7
7.3
9.1
11.2
ZBD 38KC E
3.4
3.4
3.4
3.5
ZBD 45KC E
6.4
8 .1
10 .1
12.5
ZBD 45KC E
3.8
3.8
3.8
3.9
Low Te m p e ra tu re w ith Enhanced V apo r Inje ctio n
Z FD 1 8K V E
-35
-30
-25
-2 0
-15
-10
-5
4.9
6
7.3
8.8
10 .8
13.3
16.5
Z FD 18K V E
-35
-30
-25
-2 0
-15
-10
-5
3.4
3.5
3.6
3.7
3.9
4.1
4.4
Suction Gas Return 20°C / Subcooling 0K
* Suction Superheat 10K / Subcooling 0K
Condensing Te m p e ra tu re +40°C
C ooling C ap acity (k W )
R407F
M odel
-35
-30
-25
P o w er In p u t (k W )
R407F
Evap o rating Te m p e ra tu re (°C)
Evaporating Te m p e ra tu re (°C)
-2 0
-15
-10
-5
M odel
-2 0
-15
-10
-5
ZBD30KCE-TFD
4 .7 *
5.8*
7.3
8 .8
ZBD30KCE-TFD
2.5*
2.7*
2.8
2.9
ZBD38KCE-TFD
5.7*
7.1*
8.9
10 .8
ZBD38KCE-TFD
3.0*
3.3*
3.5
3.6
ZBD45KCE-TFD
6.4*
8.4*
10 .8
13.2
ZBD45KCE-TFD
3.7*
3.9*
4.1
4.3
Suction Gas Return 20°C / Subcooling 0K
* Suction Superheat 10K / Subcooling 0K
42
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-35
-30
-25
Capacity Data
Condensing Te m p e ra tu re +40°C
M edium Te m p e rature
C ooling C ap acity (k W )
R22
M odel
Evap o rating Tem p erature °C)
-35
-30
-15
-25
-2 0
Z BD 30KC E
3.4*
4.4*
5.5*
6.9
8.4
Z BD 45KC E
5.2*
6 .6 *
8 .2 *
10 .1
12.3
-10
P o w e r In p u t (k W )
R22
-5
M odel
Evap o rating Tem p erature °C)
-35
-30
-25
-2 0
-15
-10
-5
Z BD 30KC E
2.4*
2.5*
2.5*
2.6
2.7
Z BD 45KC E
3.5*
3.6*
3.6*
3.7
3.8
Suction Gas Return 20°C / Subcooling 0K
* Suction Superheat 10K / Subcooling 0K
43
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ZO & ZOD Copeland Scroll™ Compressor Range for CO2-Subcritical Refrigeration
ZO Copeland Scroll Compressors have been designed for use in
R744 (CO2) low temperature refrigeration systems. These com ­
pressors are suitable for usage in CO2-subcritical cascade and
booster systems.
Increasing environmental concerns about potential direct emis­
sions from HFC-based refrigeration systems into the atmosphere
have led to the revival of R744 in parts of the European refrigera­
tion market. Regionally, this trend is reinforced by legislation and
taxation schemes which favor the usage of refrigerant R744.
In comparison with HFC refrigerants, the specific properties of
R744 require changes in the design of the refrigeration system.
The ZO range of Copeland Scroll compressors has been particu­
larly designed to exploit the characteristics of the R744 refrigera­
tion system. Efficiency, reliability and liquid handling advantages
of the Copeland Scroll technology equally apply.
The optimized design of ZO compressors effectively address the
challenges of R744 systems i.e., high pressure levels, higher mass
flow for a given displacement while securing proper lubrication.
The range consists of 6 models including 1 digital model for 10 to
100% continuous cooling capacity modulation
ZO Compressor for Low Temperature Refrigeration
ZO and ZOD Compressor Line-up
Digital ZOD
•
ZO
•
•
C ooling c a p a c ity (k W )
•
•
•
•
1
0
2
4
6
1
8
10
12
14
16
18
•
1
20
1
22
Conditions EN12900 R744: Evaporating -35°C, Condensing -5°C , Suction Superheat 10K, Subcooling 0K
Features and Benefits
•
•
•
•
•
•
•
Operating Envelope R744
Optimized for high efficiency in CO2-subcritical cascade and
booster systems
High condensing temperature limit allowing for optimized
overall system design
Compact design minimizing required machine room space
Half the weight of equivalent semi-hermetic compressors
Optional Sound Shell allowing 10 dBA sound attenuation
High bearing reliability and lubrication of all critical parts
under all conditions including liquid slugging
Availability of a digital model offering simple, stepless 10 to
100% capacity modulation
Maximum Allowable Pressure (PS)
•
ZO:
•
Low Side PS 28 bar(g) / High Side PS 43 bar(g)
Digital ZOD:
Low Side PS 28 bar(g) / High Side PS 43 bar(g)
Evaporating Temperature °C
0°C Suction Gas Return
— — — 20K Superheat
Refer to Emerson’s Select 7.7 selection software for individual model operating
envelopes and other refrigerants.
44
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1
24
Maximum
Operating
Current
Motor
Version/
Code
Locked Ro­
tor Current
(A)
(A)
(kg)
Length/Width/
Heigth
(m m )
Net Weight
(l)
Oil Quantity
Stub Discharge
(inch)
Stub Suction (inch)
Displacement (m 3/h)
to >
cp^.
to "—
C
COP
hp
R744
Nominal
Technical Overview
3 Ph*
3 Ph*
3 Ph*
ZO 21K5E
1.5
4.6
3.6
2.6
0.95
242/246/385
22
TFD
3.6
27
ZO 34K3E
2.0
7.2
3.5
4.1
1.36
242/242/381
30
TFD
6
26
ZO 45K3E
2.5
10.3
3.9
5.4
1.42
242/242/403
31
TFD
6
35
ZO 58K 3E
3.5
13.0
3.9
6.9
1.42
242/242/417
33
TFD
8
48
ZO 8 8 KCE
5.0
19.5
3.9
10 .1
1.89
245/249/440
40
TFD
12
64
ZO 104KC E
6.0
2 2 .6
4.0
11.7
1.89
242/242/461
40
TFD
15
74
ZO D 34KCE
2
7.0
3.7
4.1
1.36
242/242/401
31
TFD
6
27
6.0
22 .1
3.8
11.7
1.89
241/246/484
41
TFD
15
75
1 1/4
ZO D 104KCE
1
EN12900 R744 - LT: Evaporating -35°C, Condensing -5°C, Suction Superheat 10K, Subcooling 0K
* 3 Ph: 380-420V/ 50Hz
Preliminary data
Capacity Data
Condensing Te m p e ra tu re -10°C
C ooling C ap acity (k W )
R744
P o w e r Inp ut (k W )
R744
Evap o rating Te m p e ra tu re (°C)
Evaporating Te m p e ra tu re (°C)
M odel
-45
-40
-35
-30
M odel
-45
-40
-35
-30
ZO 21K 5E
3.0
4.0
5.0
6.2
ZO 21K 3E
1.2
1.1
1.1
1.1
ZO 34K 3E
4.8
6.2
7.8
9.7
ZO 34K 3E
1.8
1.8
1.8
1.7
ZO 45K 3E
7.0
8.8
10.9
13.3
ZO 45K 3E
2.3
2.3
2.3
2.2
ZO 58K 3E
8.9
11.2
13.9
17.0
ZO 58K 3E
3.0
3.0
2.9
2.8
ZO 8 8 KCE
13.3
17.0
21.0
25.4
ZO 8 8 KCE
4.5
4.5
4.4
4.2
ZO 104KC E
15.9
19.7
24.1
29.2
ZO 104KC E
4.9
5.0
5.1
5.2
Suction Superheat 10K / Subcooling 0K
Preliminary data
Capacity Data - Digital Model
Condensing Te m p e ra tu re -10°C
C ooling C ap acity (k W )
R744
P o w e r Inp ut (k W )
R744
Evap o rating Te m p e ra tu re (°C)
-45
-40
-35
-30
ZO D 104KCE
15.6
19.1
23.2
27.9
ZO D 34KCE
4.8
6.2
7.8
9.7
Evaporating Te m p e ra tu re (°C)
-45
-40
-35
-30
ZO D 104KCE
5.0
5.0
5.1
5.3
ZO D 34KCE
1.8
1.8
1.8
1.8
Suction Superheat 10K / Subcooling 0K
Preliminary data
45
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Sound Shell for Copeland Scroll™ Compressors
Quiet Operation in Sound Critical Environment
Environmental noise has become a serious problem that can lead
to potential contentious situations. It is particularly true for re­
frigeration applications where kitchen equipment or compres­
sor packs are often source of disturbing noise in domestic areas.
Emerson Climate Technologies put sound minimisation at the
centre of any of its new compressor development along reliabil­
ity, seasonal efficiency, and size and weight reduction.
A large portion of equipment acoustic emissions come from con­
densers and compressors and in some critical sound sensitive
applications the refrigeration installations need to be acousti­
cally insulated. Simple solutions are now available to contain
sound emissions. Emerson Climate Technologies has developed
a dedicated Sound Shell for all Copeland Scroll compressors from
2-15 hp. It completely encapsulates the compressor, minimiz­
ing sound leaks while cooling performance remains uncompro­
mised.
46
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Groundbreaking design techniques and materials, derived from
the automotive industry, were utilized to design the Sound Shell.
The use of low pressure reaction injection moulded parts (top
cap cover, terminal box cover and compressor base plate) allows
a 10-12 dBA sound attenuation.
It is a significant improvement over conventional sound jackets
available from other suppliers that reduce sound by 3 -6 dBA de­
pending on the application. Particular attention was also paid in
the design stage to ensure ease of mounting in retrofit, service
and new installation situations.
Technical Overview
Sm all Scroll
A ll sizes
S u m m it Scroll
Sm all size
S u m m it D ig ital S c ro ll™
M edium size
Large size
Sm all size
M edium size
5.3
5.6
Technical Data
Sound atten u atio n
Total W e ig h t (kg )
10 - 1 2 dBA
3.4
4.8
M antle Th ickness
4.9
5.1
25m m
Fla m m a b ility
Conforms to IEC 60335-1 §30
M aterial
Green felt layer (cotton + binder 1.2 kg/m2)
M antle
Heavy layer (PVC 4.5 kg/m2)
Closure by use of Velcro fastening - High frequency welded on PVC layer
Base Plate
PU SRIM - Low pressure reaction injection moulding technology
PU SRIM - Low pressure reaction injection moulding technology
Top Cap Cover
Inside insulation green felt and alum inium film
High tem perature insulation ring
Term inal B o x Cover
PU SRIM - Low pressure reaction injection moulding technology
47
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Booster Compressors - S-Series and Scroll
Compressors for the low stage in cascade or booster refrigeration
systems are available as part of the semi-hermetic reciprocating
compressors from 7.5 to 30 hp and as part of the scroll range
from 2 to 15 hp. These provide optimized energy efficiency for re­
frigeration systems operating at low evaporating temperatures.
S-Series Booster Compressor Line-up
Conditions R404A: Evaporating -35°C, Condensing -10°C, Suction Gas Return 20°C, Subcooling 0K
Scroll Booster Compressor Line-up
ZB
•
•
•
•
•
•
•
•
•
•
•
•
•
k W Cooling
0
2
4
6
8
10
12
14
16
Conditions R404A: Evaporating -35°C, Condensing -10°C, Suction Gas Return 20°C, Subcooling 0K
Features and Benefits - S-Series Booster
•
•
•
•
•
•
•
•
Operating Envelope R404A - S-Series Booster
Positive displacement oil pump for high oil feeding pressure
ensuring good lubrication and bearing cooling
PTFE coated bearings for especially low friction and good
protection at start up
Aluminum piston with optimized geom etry for good
performance and resistance to liquid handling
High temperature resistant Molybdenum piston rings
preventing wear
Optimized bearing surface dimension
Valve reeds of impact resistant spring steel
Sensor for electronic Oil Pressure Switch OPS2 for durability
Electronic motor protection module
Features and Benefits - Scroll Booster
Evaporating Temperature °C
•
•
•
•
PTFE coated bearings for especially low friction and good
protection at start up
Copeland Scroll™ axial and radial compliance for superior
reliability and efficiency
Light weight and compactness, more than half the weight of
equivalent semi-hermetic reciprocating compressors
Availability of optional sound shell on all model providing an
additional 10dBA sound attenuation for silent operation
S-Series 25°C Suction Gas Return
Operating Envelope R404A - Scroll Booster
Maximum Allowable Pressure (PS)
•
•
S-Series booster:
Low Side PS 22.5 bar(g) / High Side PS 28 bar(g)
Scroll booster:
Low Side PS 22.6 bar(g) / High Side PS 32 bar(g)
Evaporating Temperature °C
ZB 25°C Suction Gas Return
48
http://holodko.ru/
18
Capacity Data - S-Series Booster
Condensing Te m p e rature -10°C
Cooling C ap acity (k W )
R404A
M odel
Evap o rating Te m p e rature °C)
-45
-40
-35
-30
-25
-2 0
P o w e r In p u t (k W )
R404A
-15
M odel
Evap o rating Te m p e ra tu re <°C)
-45
-40
-35
-30
-25
D3SC-75X-B
7.6
9.9
12.9
16.5
21.0
D3SC-75X-B
2.4
2.7
3.0
3.2
3.2
D 3SS-100X-B
10.5
13.6
17.4
2 2 .0
27.3
D3SS-100X-B
3.6
3.9
4.2
4.4
4.6
D4SL-150X-B
15.3
20.0
25.7
32.5
40 .4
D4SL-150X-B
4.9
5.3
5.6
5.8
5.9
D4ST-200X-B
18.4
24.0
30.7
38.7
48.1
D4ST-200X-B
5.6
6 .1
6 .6
6.8
7.0
D6SL-250X-B
22.4
29.2
37.4
47.2
58.7
D6SL-250X-B
6.7
7.4
8 .0
8.5
8.7
D6ST-320X-B
27.2
35.3
45.2
56.9
70.7
D6ST-320X-B
8.3
9.0
9.6
9.9
10 .1
-2 0
-15
Suction Gas Return 20°C / Subcooling 0K
Capacity Data - Scroll Booster
Condensing Te m p e rature -10°C
Cooling C ap acity (k W )
R404A
M odel
-45
P o w er In p u t (k W )
R404A
Evap o rating Tem p erature (°C)
-40
-35
-30
-25
ZB15KCE-B
1.9
2.2
2.7
3.3
ZB15KCE-B
ZB19KCE-B
2.1
2.6
3.3
4.2
ZB19KCE-B
ZB21KCE-B
2.6
3.1
3.8
4.7
ZB21KCE-B
ZB26KCE-B
2.9
3.7
4.6
5.8
ZB26KCE-B
ZB30KCE-B
3.5
4.4
5.5
6.8
ZB38KCE-B
4.3
5.5
6.9
8.6
ZB45KCE-B
5.2
6 .6
8.3
10.5
ZB45KCE-B
1.2
1.2
1.2
1.2
ZB50KCE-B
6.2
7.8
9.8
12.1
ZB50KCE-B
1.4
1.3
1.4
1.4
ZB58KCE-B
6 .8
8.7
10 .8
13.4
ZB58KCE-B
1.5
1.5
1.5
1.6
ZB 6 6 KCE-B
7.7
9.8
12.3
15.3
Z B 6 6 KCE-B
1.8
1.8
1.9
1.9
ZB76KCE-B
8.9
11.3
14.3
17.7
ZB76KCE-B
2.1
2.1
2.2
2.2
ZB95KCE-B
11.3
14.4
18.0
22 .2
ZB95KCE-B
2.5
2.5
2.5
2.6
ZB114KCE-B
13.7
17.2
21 .4
26.5
Z B114KCE-B
2.9
3.0
3.0
3.1
-2 0
-15
M odel
Evap o rating Te m p e rature (°C)
-45
-40
-35
-30
-25
0.4
0.5
0.4
0.4
0 .6
0 .6
0 .6
0.5
0.7
0.7
0.7
0.7
0 .8
0 .8
0 .8
0 .8
ZB30KCE-B
0.9
0.9
0.9
0.9
ZB38KCE-B
1.1
1.1
1.1
1.0
-20
-15
Suction Gas Return 20°C / Subcooling 0K
49
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Semi-Hermetic Reciprocating Compr
Emerson Climate Technologies offers different ranges of semi-
end of the compression and allows for the highest compressor
hermetic reciprocating compressors with distinct levels of
efficiency. To date, no other reciprocating compressor is able to
performance and technical characteristics depending on the
match Discus in terms of performance. Available from 4 to 60 hp,
application requirements.
they are referred to as 2D, 3D, D4D, D6D and 8D in this catalogue.
BRAND CHANGE
The Stream Series:
Emerson Climate Technologies has introduced Stream, a brand
Brand Change
To harmonize Emerson's semi-hermetic compressor ranges in
new line of semi-hermetic 4 and 6 cylinder compressors. The
terms of color and branding, Emerson is changing the product
series provides best in class performance for today's HFC-based
brand and the nomenclature of the semi-hermetic compressors
and uprising natural and low GWP refrigerants, significantly
for the K & L-Series and the Discus-range. In the future, we will
reducing cost of operation and environmental impact compared
start using the well-known ‘Copeland brand products' label
to competing products.
replacing “ DWM Copeland” and change the compressor color
from grey to black.
The range is made of 4 and 6 cylinder models, available for
inverter applications, and 4 and 6 cylinder digital models for
By this initiative, all compressor products from Emerson with both
continuous capacity modulation. The compressors can be fitted
scroll and piston technology are using one and the same branding
with a dedicated sound shell for sound sensitive applications.
and color: Copeland™ brand products - painted in black. Our
customers can better focus their marketing and communications
The new Emerson Climate Technologies line-up of 4 cylinder
efforts leading to improved brand and company recognition.
compressors for CO2-transcritical applications is the
ideal
solution for R744 medium temperature cascade and booster
Over tim e, our product range will be streamlined to only one
systems. It is characterised by a design pressure of 135 bar.
compressor model line. The reed valve compressors of the 2- to
Refrigerant flow and heat transfer have been optimized for best
8-cylincer S-series will gradually be replaced by the puck design
performance. In combination with the CO2-subcritical scroll
valve compressors of our Stream and Discus series. This results
for the low temperature refrigeration side, Emerson Climate
in reduced inventory lines at our distribution partners. Emerson
Technologies offers the most energy efficient package available
Climate Technologies will provide you with a full model list to
on the market today.
support you in the transition phase.
With advanced protection and diagnostics features for system
The S-Series:
reliabilty, reduced service costs and increased equipment uptime,
Its design is based on traditional
the Stream series is built to last in today's modern changing
“ reed” valve plates similar to what is
world.
used in reciprocating compressors
offered by other m anufacturers. The
S-Senes6 Cylinder
performance of such compressors
meets basic market requirements but cannot compete with
Discus compressors in terms of efficiency. The S-Series ranges
from 1.5 to 70 hp and is composed of K, L, 2S, 3S, 4S and 8S
presented in this catalogue.
The Discus Range:
It is broadly recognized as the most efficient compressor whatever
the running condition. This range is mainly used in refrigeration
medium
and low temperature applications where system
efficiency is a priority for the end-user.
The key difference between Discus and
Stream Digital 4 Cylinder
other reciprocating compressors lies
Stream Digital 6 Cylinder
in its valve plate design. Traditional
“ reed” valves are replaced by ‘puck”
type valves that are integrated in the
Discus 2 Cylinder
valve plate. This special design eliminates the dead volume at the
\r S ■j S
Stream 4 Cylinder for R744
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Sound Shell for Stream
Emerson CoreSense™ Diagnostics for Refrigeration
Emerson CoreSense Diagnostics is an innovative technology
for Copeland Stream refrigeration compressors. It goes beyond
compressor protection by assisting in system diagnosis and
optimization.
Providing
service
engineers
with
detailed
information at the right tim e, system-related problems can
be diagnosed faster or even before they occur. Supermarket
operators benefit from increased system uptime, reduction in
food loss and reduced maintenance costs.
Technical Specification
Power supply 120/240V AC, 24V AC
Front end: 2 x LED, green/red, yellow
Communication protocol (Modbus®RTU)
Emerson CoreSense Diagnostics for Refrigeration.
Ensuring Best Performance over Full Lifetime.
Bus to system controller: RS 485, 3-wire, (+ ,GND,-)
Discharge temperature sensor
Current sensor and sensor module
Flash memory
Functions
Alarm reset button
M otor and
Oil protection
IP 54
Benefits
•
Reduce applied system costs
•
Manage on-site compressor data
•
Sensor Module
Modbus®
Current sensing,
voltage imbalance,
phase loss monitoring
Communication
to system controller
Facilitate predictive maintenance &
advanced diagnostics
•
Reduce maintenance costs
•
Increase system uptime / reduce food loss
•
Power consumption monitoring
Memory
Asset, runtime and
alarm information
Status LEDs
Compressor
Power
Monitoring
Discharge
Temperature
Protection
Scope of Supply
Discharge Temperature Sensor
CoreSense™ Diagnostics
Control Module
Current Sensor
Oil Pressure Sensor
Motor Temperature Sensor
Sensor Module
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K and L Reciprocating Compressor Range
Small 2-cylinder semi-hermetic reciprocating compressors for
medium and low temperature refrigeration applications and
transport refrigeration.
Designed on the principle of standard reed valve type technol­
ogy, these compressors feature an internal oil pump that guaran­
tees optimum reliability in all operating conditions.
The K-series ranges from 0.5 to 2 hp and the L-series from 2 to 4
hp and provide cooling capacities from 1.5 to 9 kW in medium
temperature (R404A, -10/45°C) and 0.5 to 3.5kW in low temper­
ature (R404A, -35/40°C).
These compressors are qualified for R404A, R507, R134a and
R22.
K-Series compressor
K & L Compressor Line-up
L-Series
•
•
D isp lacem e n t (m 3/h)
•
I
1
0
2
4
6
•
•
I
8
10
12
14
16
Conditions EN12900, R404A: Evaporating -10°C, Condensing 40°C, Suction Gas Temperature 20°C, Subcooling 0K
•
•
•
•
•
Operating Envelope R404A
70
Large operating envelope from 5°C to -45°C evaporating and
up to 55°C condensing
Two motor sizes per displacement, optimized for different
applications
Compact and light compressors
Ideal for condensing unit or transport applications
Integrated oil pump for maximum reliability
60
20
22
---------50
24
t
Features and Benefits
18
I---------------------------------------------------
•
•
•1
/
K-Series
•
•
// r
1
1
1
1
1
1
40
Maximum Allowable Pressure (PS)
30
•
Low Side PS 22.5 bar (g)/ High Side PS 28 bar (g)
c
20
10
0
-60 -55 -50 -45 -40 -35 -30 -25 -20 -15 -10 -5
0
Evaporating Temperature °C
Small Motor
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Large Motor
5
10
15
Motor Version /
Code
Maximum
Operating Cur­
rent (A)
Locked Rotor
Current (A)
3 Ph*
3 Ph*
3 Ph*
Sound Pressure
@1 m (dBA) **
Length/Width/
Height
(mm)
Net Weight
(kg)
Oil Quantity
(l)
P
C
COP 2)
O
Capacity
(kW) 2)
Capacity
(kW) 1)
Displacement
(m 3/h)
R404A
Nominal
hp
Technical Overview
KM-7X
0.8
4.0
1.8
1.9
0.65
365/235/280
39
EWL
2.4
12.2
45
KJ-10X
1 .0
5.1
2.5
1.9
0.65
365/235/280
39
EWL
3
16
45
KSJ-15X
1.5
6.3
3.2
1.9
0.65
365/235/280
40
EWL
3
20
53
KL-20X
2. 0
7.4
3.7
2. 1
0.65
365/235/280
39
EWL
4
20
KSL-20X
2. 0
9.1
4.6
1.9
0.65
365/235/280
40
EWL
5
20
LE-20X
2. 0
9.9
4.6
2.2
2.00
470/330/385
78
EWL
6
38
51
LF-30X
3.0
12.9
6.5
2.2
2.00
470/330/385
80
EWL
7
53
51
LJ-30X
3.0
14.5
7.2
2. 1
2.00
470/330/385
83
EWL
8
53
52
LL-40X
4.0
18.2
9.2
2.2
2.00
470/330/385
87
EWL
10
69
63
KM-5X
0.5
4.0
0.6
1. 1
0.65
365/235/280
39
EWL
2
12
45
KJ-7X
0.8
5.1
0.8
1. 1
0.65
365/235/280
39
EWL
2
12
45
KSJ-10X
1 .0
6.3
1 .0
1 .1
0.65
365/235/280
40
EWL
3
16
50
KL-15X
1.5
7.4
1.2
1.2
0.65
365/235/280
39
EWL
3
20
47
LF-20X
2.0
12.9
1 .6
1 .1
2.00
470/330/385
80
EWL
5
38
51
LJ-20X
2.0
14.5
1.9
1.2
2.00
470/330/385
78
EWL
6
38
52
LL-30X
3.0
18.2
2.6
1.3
2. 00
470/330/385
85
EWL
7
53
52
LSG-40X
4.0
22.5
3.5
1.4
2. 00
470/330/385
77
EWL
9
69
63
(1)
(2)
*
**
MT= Conditions EN12900 : Evaporating -10°C, Condensing 45°C, Suction Gas Temperature 20°C, Subcooling 0K
LT= Conditions EN12900 : Evaporating -35°C, Condensing 40°C, Suction Gas Temperature 20°C, Subcooling 0K
3 Ph: 380-420V/ 50Hz
@ 1 m: sound pressure level at 1 m distance from the compressor, free field condition
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Capacity Data
Condensing Temperature 40°C
C ooling C ap acity (k W )
R404A
M odel
-45
-35
-30
-2 0
K M -5X
0.2
0.6
0.8
1.3
K M -7X
0.2
0.5
0.8
1.3
2.0
2.5
KJ-10X
0.3
0.7
1.0
1.8
2.8
3.4
KJ-7X
0.4
0.8
1.1
1.8
KSJ-10X
0.5
1.0
1.4
2.3
KSJ-15X
0.5
1.0
1.4
2.3
-10
-5
3.5
4.2
5.0
5
-45
-35
-30
-2 0
KM -5X
0.3
0.5
0.6
0.7
3.6
KM -7X
0.3
0.5
0.6
4.9
KJ-10X
0.4
0.7
0.8
KJ-7X
0.5
0.7
0.8
1.0
KSJ-10X
0.7
0.9
1.1
1.3
KSJ-15X
0.6
0.9
1.0
1.3
KL-15X
0.8
1.0
1.2
1.5
KL-20X
0.6
0.9
1.1
1.4
KSL-20X
0.8
1.2
1.4
1.0
1.2
6.1
KL-15X
0.6
1.2
1.6
2.6
0.4
1.1
1.5
2.6
4.1
KSL-20X
0.7
1.5
2.0
3.3
5.1
6.1
1.1
1.7
3.2
5.1
6.4
9.4
LE-20X
7.2
8.8
12.8
LF-30X
8.0
9.8
14.2
1.6
2.3
4.0
0.7
1.9
2.6
4.6
1.9
2.8
5.0
LJ-30X
0.8
2.1
2.9
5.1
LL-30X
0.9
2.6
3.7
6.5
LL-40X
1.1
2.7
3.7
6.4
LSG -40X
1.4
3.5
4.8
8.2
LF-20X
LF-30X
LJ-20X
Evap o rating Te m p e ra tu re (°C)
M odel
KL-20X
LE-20X
P o w e r In p u t (k W )
R404A
Evap o rating Te m p e ra tu re (°C)
18.4
5
0 .8
0.9
0.9
1.0
1.0
1.2
1.3
1.4
1.6
1.7
1.8
1.7
1.8
1.9
2.3
2.5
1.6
2.0
2.2
2.5
2.9
3.1
3.4
3.3
3.6
3.9
4.0
4.3
4.8
15
1.4
1.7
2.2
1.6
1.9
2.4
1.6
1.9
2.6
LJ-30X
1.1
1.8
2.1
2.8
LL-30X
1.1
2.0
2.4
3.3
LL-40X
1.4
2.2
2.6
3.3
LSG-40X
1.6
2.6
3.1
4.1
LJ-20X
12.6
-5
1.0
LF-20X
10 .2
-10
Suction Gas Return 20°C / subcooling 0K
High Discharge Temp - Additional cooling required
Condensing Temperature 40°C
Cooling Capacity (kW)
R134a
Model
Evaporating Temperature (°C)
-30
Power Input (kW)
R134a
-2 0
-10
-5
5
10
KM-5X
0.7
1.2
1.5
2.3
2.8
KJ-7X
0.9
1.6
2.0
3.0
KSJ-10X
1.2
2.0
2.5
3.8
KL-15X
1.4
2.3
2.8
4.3
KSL-15X
1.7
2.8
3.5
KSL-20X
1.7
2.9
3.7
LE-20X
1.5
2.8
LF-20X
2. 2
LJ-20X
2.6
15
Model
Evaporating Temperature (°C)
-30
-20
-10
-5
5
10
KM-5X
0.5
0.6
0.6
0.6
0.7
3.7
KJ-7X
0.6
0.7
0.7
0.8
0.9
4.6
KSJ-10X
0.7
0.8
0.9
1.0
1.0
5.2
KL-15X
0.8
1 .0
1.1
1.3
1.3
5.3
6.5
KSL-15X
1.0
1.3
1.4
1.6
1.7
5.6
6.7
KSL-20X
1.0
1.2
1.4
1.6
1.6
3.6
5.6
6.9
LE-20X
1.0
1.3
1.4
1.5
1.6
3.8
4.9
7.5
9.1
LF-20X
1.2
1 .6
1.7
1.9
2.0
4.3
5.4
8.3
1 0 .1
LJ-20X
1.6
1.9
2.1
2.4
2.5
LL-30X
3.2
5.5
7.0
10.9
13.2
LL-30X
1.9
2.4
2.6
3.0
3.1
LSG-40X
4.3
7.2
9.0
13.7
16.6
LSG-40X
2.3
2.9
3.2
3.7
3.9
Suction Gas Return 20°C / Subcooling 0K
High Discharge Temp - Additional cooling required
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Capacity Data
Condensing Temperature 40°C
Cooling Capacity (kW)
R22
Model
Evaporating Temperature (°C)
-45
Power Input (kW)
R22
-30
-20
-10
-5
KM-5X
0.4
0.6
1.2
1.9
2.3
KM-75/-7X
0.4
0.6
1.2
1.9
2.4
3.5
KM-75/-7X
0.4
KJ-10X
0.7
0.9
1 .6
2.6
3.2
4.7
KJ-10X
0.6
0.7
0.9
1 .6
2.5
3.1
0.6
0.7
KJ-75/-7X
0.3
KSJ-10X
0.4
KSJ-15X
KL-15X
1.2
2.0
3.2
3.9
1.2
2.1
3.3
4.0
Model
-45
KM-5X
5.7
KJ-75/-7X
0.4
KSJ-10X
0.5
KSJ-15X
-35
-30
-20
-10
-5
0.4
0.5
0.7
0.8
0.8
0.5
0.7
0.8
0.8
0.9
0.7
0.9
1 .0
1.1
1.2
0.9
1.0
1.1
0.8
0.9
1.1
1.3
1.4
0.8
0.9
1.1
1.3
1.4
5
1.5
1. 0
1.4
2.4
3.7
4.6
KL-15X
0.9
1 .1
1.3
1.5
1.7
KSL-20X
1.3
1 .8
3.0
4.7
5.7
KSL-20X
1 .1
1.3
1.6
1.9
2.1
LE-201/-20X
1.1
1. 6
2.9
4.8
6.1
LE-201/-20X
1 .1
1.3
1.7
2.0
2.1
1.4
1.7
2.2
2.7
2.9
1.4
1.7
2.2
2.6
2.8
3.0
1 .1
1 .6
1.9
2.5
1 .6
1.9
2.5
3.0
3.2
3.5
1.4
2.0
2.4
3.1
2.0
2.4
3.0
3.7
3.9
4.3
2.7
3.2
4.0
LF-201/-20X
0.5
0.9
0.9
5
Evaporating Temperature (°C)
-35
1 .6
2.3
4.1
6.7
8.3
1.6
2.3
4.1
6.8
8.4
0.8
1.9
2.7
4.8
1.9
2.6
4.8
1 .1
2.5
3.5
6.2
2.5
3.5
6.2
3.5
4.8
7.9
0.6
LF-301/-30X
LJ-201/-20X
LJ-301/-30X
LL-301/-30X
LL-401/-40X
LSG-401/-40X
1 .6
9.1
LF-201/-20X
12.2
9.6
13.8
LJ-301/-30X
LL-301/-30X
9.8
12.0
17.2
1 .0
LF-301/-30X
LJ-201/-20X
7.8
0.6
LL-401/-40X
LSG-401/-40X
1 .8
2.3
Suction Gas Return 20°C / Subcooling 0K
High Discharge Temp - Additional cooling required
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Discus™ Reciprocating Compressor Ra nge
From 2 to 8 cylinder semi-hermetic reciprocating compressors
for medium / low temperature refrigeration applications.
The key difference between Discus and traditional reciprocating
technologies lies in the valve plate design. The Discus valve plate
allows gas to flow into the cylinders with a minimum heat gain,
while suction cavities are designed to smoothly route the gas to
minimize losses. These effects lead to:
• Superior cooling capacity due to no re-expansion volume
• Up to 10% higher efficiency compared to conventional “costeffective” reed type compressors
• Lower operating costs for the end-user
The Discus ranges from 5 to 60 hp and provide cooling capacities
from 8 to 96 kW in medium temperature (R404A, -10/45°C)
and 2 to 35 kW in low temperature (R404A, -35/40°C). These
compressors are qualified for R404A, R507, R134a and R22.
All Discus compressors are designed to deliver maximum
performance and reliability:
• Discus “ puck” valve integrated into the valve plate for
highest performance whatever the operating condition
• Positive displacement high flow oil pump guarantees high oil
feeding pressure for good lubrication and bearings' cooling
Discus compressor
PTFE coated bearings for especially low friction and good
protection at start up
Electronic motor protection module
Availability of two motor sizes per displacement. The small
motor covers all refrigeration applications while the large
motor can be used in comfort or inverter applications
Discus Compressor Line-up
8 D-Series
I*
D 6 D-Series
•
D4D-Series
•
3D-Series
•
•
•
40
50
•
• I
•
•
2D-Series
D isp lacem e n t (m 3/h)
0
10
20
30
60
70
80
90
100
110
120
130
140
150
160
170
180
190
200
Conditions: EN12900, R404A: Evaporating -10°C, Condensing 40°C, Suction Gas Temperature 20°C, Subcooling 0K
Features and Benefits
•
•
•
•
•
•
Operating Envelope R404A
Highest level of efficiency available on the market, whatever
the refrigerant and operating condition
Integrated oil pump and Electronic Oil Pressure Switch OPS2
for maximum reliability
Two motor sizes per displacement, optimized for different
applications
Large operating envelope that allows medium and low tem ­
perature applications to be covered by one single model
with condensing limit as low as 5°C
Provide cooling capacity modulation either by cylinder head
blocked suction or with use of frequency inverters from 25
to 60Hz
Multi-refrigerant compressor range - one model to cover all
standard refrigerants
Maximum Allowable Pressure (PS)
•
Low Side PS 22.5 bar (g)/ High Side PS 28 bar (g)
Evaporating Temperature °C
Refer to Emerson’s Select 7.7 selection software for individual model operating
envelopes and other refrigerants.
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Large Motor 25°C SGRT
Large Motor 25°C SGRT + Fan
Small Motor 25°C SGRT
Small Motor 0°C SGRT + Fan
3 Ph*
3 Ph*
3 Ph*
Sound Pressure
@1 m (dBA) **
Locked Ro­
tor Current
(A)
5.0
16.8
7.9
2.3
2.1
1.2
2.30
590/330/470
132
AWM
9
55
65
2DD-50X
5.0
19.3
9.7
2.4
2.8
1.3
2.30
590/330/470
132
AWM
10
55
65
2DL-40X
4.0
23.7
12.0
2.3
3.8
1.4
2.30
590/330/470
131
AWM
11
55
64
2DL-75X
7.5
23.7
12.2
2.4
3.6
1.3
2.30
590/330/470
136
AWM
14
70
66
2DB-50X
5.0
28.0
14.6
2.3
4.6
1.4
2.30
590/330/470
131
AWM
13
55
64
66
P
O
C
Net Weight
(kg)
2DC-50X
Capacity
(kW) 1)
Length/Width/
Height
(mm)
R404A
Nominal
hp
Oil Quantity
(l)
Maximum
Operating
Current (A)
COP 2)
Motor Ver­
sion / Code
Capacity
(kW) 2)
Displacement
(m3/h)
Technical Overview
2DB-75X
7.5
28.0
14.9
2.4
5.0
1.5
2.30
590/330/470
136
AWM
16
70
3DA-50X
5.0
32.2
16.3
2. 2
5.7
1.4
3.70
655/370/480
146
AWM
16
55
69
3DA-75X
7.5
32.2
17.2
2.4
5.2
1.3
3.70
680/370/480
152
AWM
18
106
70
3DC-100X
10 .0
38.0
20.6
2.5
6.5
1.4
3.70
680/370/480
164
AWM
21
121
70
3DC-75X
7.5
38.0
19.8
2.3
7.0
1.4
3.70
655/370/480
150
AWM
18
70
71
3DS-100X
10 .0
49.9
27.1
2.3
9.6
1.5
3.70
680/370/480
162
AWM
24
121
71
3DS-150X
15.0
49.9
27.5
2.3
9.1
1.4
3.70
710/370/490
166
AWM
29
129
71
8DH-500X
50.0
151.0
81.7
2.4
26.3
1.4
7.60
835/475/610
330
AWM
88
458
79
8DL-370X
37.0
151.0
81.4
2.3
28.0
1.4
7.60
835/475/610
323
AWM
74
349
77
8DJ-600X
60.0
181.0
98.0
2.3
32.7
1.4
7.60
835/475/610
331
AWM
108
476
80
8DT-450X
45.0
181.0
96.0
2.3
34.7
1.5
7.60
835/475/610
335
AWM
91
441
78
Previous Generation - Replacement by Stream compressors
D4DF-100X
1 0 .0
56.0
29.1
2.3
9.7
1.4
3.30
680/535/605
179
AWM
27
105
76
D4DA-200X
20.0
56.0
30.2
2.4
9.2
1.4
3.30
650/535/495
196
AWM
33
175
72
D4DH-250X
25.0
70.8
38.6
2.4
12.2
1.4
3.30
670/535/495
209
AWM
42
199
72
D4DL-150X
15.0
70.8
38.4
2.3
13.1
1.4
3.30
680/535/605
205
AWM
35
156
77
D4DT-220X
22 .0
84.7
46.5
2.3
16.2
1.5
3.30
700/535/795
215
AWM
43
175
78
D4DJ-300X
30.0
84.7
46.6
2.3
15.4
1.4
3.30
690/535/495
214
AWM
53
221
74
D6DH-350X
35.0
160.0
56.6
2.3
18.7
1.4
3.30
760/580/490
246
AWM
64
304
76
D6DL-270X
27.0
106.0
54.4
2.2
19.0
1.4
3.30
740/580/490
242
AWM
54
199
80
D6DJ-400X
40.0
127.0
68.1
2.3
22.3
1.4
6.80
760/580/545
261
AWM
83
304
76
D6DT-320X
30.0
127.0
66.2
2.2
23.6
1.4
6.80
740/580/700
261
AWM
62
255
81
(1)
(2)
*
**
MT= Conditions EN12900 : Evaporating -10°C, Condensing 45°C, Suction Gas Temperature 20°C, Subcooling 0K
LT= Conditions EN12900 : Evaporating -35°C, Condensing 40°C, Suction Gas Temperature 20°C, Subcooling 0K
3 Ph: 380-420V/ 50Hz
@ 1 m: sound pressure level at 1 m distance from the compressor, free field condition
57
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Capacity Data
Condensing Temperature 40°C
Cooling Capacity (kW)
R404A
Model
-45
2DC-50X
2DD-50X
-35
-30
-20
-10
-5
5
2.1
3.0
5.4
8.8
11.0
16.5
2DC-50X
19.3
2DD-50X
2.8
3.9
6.8
10 .8
13.2
3.8
5.1
8.5
13.2
16.2
3.6
4.9
8.4
13.4
16.5
4.6
6.2
10.4
16.0
19.4
5.0
6.6
10.7
16.4
20.0
5.7
7.4
11.9
17.9
21.7
3DA-75X
5.2
7.2
12.2
18.9
23.1
33.4
3DC-100X
6.5
8.9
14.7
22.7
27.6
39.7
21.6
26.1
2DL-40X
1 .2 *
2DL-75X
2DB-50X
1.7*
2DB-75X
3DA-50X
2 .0 *
3DC-75X
2 .8 *
7.0
9.1
14.4
3DS-100X
4.0*
Power Input (kW)
R404A
Evaporating Temperature (°C)
Model
Evaporating Temperature (°C)
-45
-35
-30
-20
-10
-5
5
1.7
2.1
2.7
3.3
3.6
3.8
4.3
2. 2
2.5
3.3
3.9
4.1
2.7
3.2
4.1
4.9
5.3
2.7
3.1
4.0
4.8
5.1
3.2
3.8
4.9
5.9
6.3
3.4
3.9
5.0
5.9
6.3
4.0
4.7
5.9
6.9
7.3
3DA-75X
3.9
4.6
5.9
6.9
7.3
7.6
3DC-100X
4.5
5.3
6.8
7.9
8.4
8.7
8.7
2DL-40X
24.1
2DL-75X
28.8
2DB-75X
2DB-50X
3DA-50X
1 .8 *
2 .2 *
2.7*
3DC-75X
3.4*
4.9
5.6
7.0
8.2
3DS-100X
4.7*
5.5
6.9
9.6
12.5
19.8
29.5
35.5
6.5
7.5
9.4
11.1
11.7
3DS-150X
9.1
12.2
19.9
30.2
36.5
51.9
3DS-150X
6.3
7.4
9.4
11.1
11.6
12.0
8DH-500X
26.3
35.7
58.8
89.3
108.0
153.5
8DH-500X
19.1
22 .1
27.9
32.8
34.7
37.3
8DL-370X
1 0 .8 *
8DJ-600X
8DT-450X
14.2*
28.0
36.9
59.3
88.8
106.5
32.7
44.0
71.3
107.0
128.5
34.7
44.9
70.6
105.0
125.5
8DL-370X
181.0
13.2*
8DJ-600X
8DT-450X
16.9*
19.5
22.4
27.9
32.7
34.7
23.0
26.8
33.7
39.5
41.9
23.7
27.2
34.0
40.2
42.8
6.8
8.0
1 0 .2
12.0
12.7
45.5
Previous Generation - Replacement by Stream compressors
D4DF-100X
3.5*
9.7
12.8
20.9
32.0
38.7
D4DF-100X
4.4*
D4DA-200X
9.2
12.8
21.6
33.2
40.4
57.9
D4DA-200X
6.5
7.8
1 0 .1
11.9
12.6
13.3
D4DH-250X
12.2
16.6
27.6
42.4
51.6
73.9
D4DH-250X
8.8
10.3
13.1
15.4
16.3
17.5
13.1
17.2
27.6
41.7
50.5
15.6
16.6
20. 1
D4DL-150X
5.1*
D4DT-220X
6 .6 *
D4DJ-300X
D6DL-270X
7.5*
16.3
21.2
33.7
50.7
61.1
15.4
20.7
33.8
51.0
61.5
19.1
24.8
39.7
59.8
72.1
86.9
D4DL-150X
6 .2 *
9.1
10.5
13.3
D4DT-220X
7.7*
11.2
13.0
16.2
19.0
10 .6
12.5
15.9
18.8
19.9
13.6
15.7
19.8
23.4
24.9
D4DJ-300X
D6DL-270X
9.2*
21.4
D6DH-350X
18.8
25.2
41.0
61.9
74.7
106.0
D6DH-350X
13.0
15.3
19.5
22.9
24.2
26.1
D6DJ-400X
22.3
30.0
49.1
74.8
90.7
130.0
D6DJ-400X
15.8
18.6
23.7
28.0
29.9
32.8
23.6
30.9
48.9
72.3
86.2
16.4
18.9
23.6
27.9
29.8
D6DT-320X
9.0*
D6DT-320X
11.3*
Suction Gas Return 20°C / Subcooling 0K
*Suction Superheat 10K / Subcooling 0K
High Discharge Temp - Additional cooling required
Condensing Temperature 40°C
Cooling Capacity (kW)
R407C
Model
-30
-5
5
Power Input (kW)
R407C
Evaporating Temperature (°C)
10
15
Model
Evaporating Temperature (°C)
-30
-20
-10
-5
5
-20
-10
10
2DC-50X
4.1
7.4
9.6
15.1
18.5
2DC-50X
2.1
2.7
2.9
3.3
3.3
2DD-50X
4.9
8.7
11.2
17.4
21.3
2DD-50X
2.5
3.1
3.4
3.8
3.9
2DL-75X
6.3
10.9
13.9
21.5
26.2
2DL-75X
3.1
3.9
4.2
4.8
4.9
2DB-75X
8.3
13.5
16.9
25.4
30.7
2DB-75X
3.9
4.7
5.1
5.7
5.8
3DA-75X
9.2
15.4
19.5
29.9
36.3
3DA-75X
4.5
5.5
5.9
6.4
6.5
3DC-100X
11.3
18.5
23.2
35.3
42.7
3DC-100X
5.3
6.4
6.9
7.6
7.7
3DS-150X
15.8
24.8
30.8
46.0
55.4
3DS-150X
7.4
8.8
9.4
10.3
10.5
8DH-500X
40.0*
70.6
88.9
135.0
163.5
8DH-500X
2 2 .0 *
26.6
28.7
31.8
32.5
8DJ-600X
47.9*
84.6
106.5
162.0
195.5
8DJ-600X
25.9*
31.8
34.6
39.2
40.6
9.4
10.3
11.4
11.7
Previous Generation - Replacement by Stream compressors
D4DA-200X
17.2
28.0
34.9
D4DH-250X
D4DJ-300X
52.3
63.1
D4DA-200X
7.7
22.7
35.7
26.5
41.2
44.5
66.3
79.2
D4DH-250X
10.9
12.6
13.5
15.0
15.5
50.8
74.8
89.6
D4DJ-300X
12.9
15.7
17.0
19.2
20.0
D6DH-350X
33.6
53.1
66.0
98.4
118.0
D6DH-350X
15.6
19.0
20.5
2 2 .8
23.3
D6DJ-400X
38.9
61.8
77.0
115.5
138.5
D6DJ-400X
18.5
22 .8
24.9
28.1
29.1
Suction Gas Return 20°C / Subcooling 0K
*Suction Superheat 10K / Subcooling 0K
58
http://holodko.ru/
15
Capacity Data
Condensing Temperature 40°C
Cooling Capacity (kW)
R134a
Model
-30
Power Input (kW)
R134a
Evaporating Temperature (°C)
-20
-10
-5
5
10
15
-20
-10
-5
5
10
15
2DC-50X
2.4*
4.7*
6.3*
10.3
12.7
15.4
2DC-50X
1 .6 *
2 .0 *
2 .1 *
2.3
2.3
2.3
2DD-50X
3.1*
5.8*
7.6*
12.2
15.0
18.1
2DD-50X
1.9*
2.3*
2.5*
2.7
2.7
2.6
2DL-40X
4.0
7.2
9.2
14.4
17.6
2DL-40X
2.3
2.8
3.1
3.4
3.5
2DL-75X
3.6*
6 .8 *
8.9*
14.3
17.5
21.2
2DL-75X
2 .1 *
2.7*
3.0*
3.3
3.4
2DB-50X
2.6
3.3
3.6
4.0
4.1
25.0
2DB-75X
2 .6 *
3.3*
3.5*
3.9
4.0
3DA-50X
3.0
3.7
4.0
4.4
4.5
2DB-50X
5.2
9.1
11.6
17.9
21.8
2DB-75X
4.5*
8.2 *
1 0 .6 *
17.0
20.7
3DA-50X
6.0
10.2
12.9
19.8
24.1
Model
Evaporating Temperature (°C)
-30
3.4
4.0
3DA-75X
5.1*
9.6*
12.5*
20.1
24.5
29.7
3DA-75X
3.1*
3.8*
4.1*
4.5
4.6
4.5
3DC-100X
6 .8 *
1 2 .0 *
15.3*
24.2
29.5
35.6
3DC-100X
3.7*
4.5*
4.8*
5.2
5.2
5.2
3DC-75X
7.4
12.5
15.7
23.9
29.0
3DC-75X
3.6
4.5
4.8
5.3
5.4
7.4
3DS-100X
9.7
16.2
20.4
31.0
37.5
3DS-100X
4.7
5.9
6.4
7.2
3DS-150X
9.7*
16.3*
2 0 .6 *
31.7
38.3
45.8
3DS-150X
5.0*
6 .2 *
6 .6 *
7.3
7.4
7.3
8DH-500X
28.6*
47.9*
60.9*
95.6
116.5
140.5
8DH-500X
15.5*
18.8*
2 0 .2 *
2 2 .2
22.7
22.9
8DL-370X
31.4
51.6
64.5
97.3
117.5
8DJ-600X
34.4*
57.5*
72.9*
114.0
138.0
8DT-450X
38.7
62.1
77.1
115.0
139.0
D4DF-100X
11.2
18.6
23.4
166.5
8DL-370X
15.1
18.5
19.9
2 2 .2
22 .8
8DJ-600X
18.1*
2 2 .2 *
24.0*
26.8
27.7
8DT-450X
18.4
22.5
24.4
27.5
28.5
5.5
6.6
7.1
7.9
8.1
28.2
Previous Generation - Replacement by Stream compressors
35.7
43.4
D4DF-100X
D4DA-200X
1 1 .0 *
18.6*
23.6*
36.6
44.3
53.2
D4DA-200X
5.1*
6.4*
7.0*
7.9
8.2
8.4
D4DH-250X
13.5*
22.9*
29*
44.9
54.4
65.2
D4DH-250X
7.0*
8.7*
9.4*
10.4
10.6
1 0 .6
D4DL-150X
15.0
24.5
30.5
45.7
55.2
D4DL-150X
7.0
8.7
9.4
10.5
10.9
D4DJ-300X
16.5*
27.8*
35.1*
54.3
65.7
D4DJ-300X
8.3*
10.4*
11.4*
13.2
14.0
D4DT-220X
18.4
29.7
37.0
55.4
66.9
D4DT-220X
8.6
10.5
11.4
12.7
13.1
D6DH-350X
19.8*
33.5*
42.5*
66.2
80.3
D6DH-350X
10.4*
13.1*
14.3*
16.0
16.5
D6DL-270X
21.4
35.7
44.9
68.1
82.5
D6DJ-400X
24.6*
40.5*
50.9*
78.5
94.7
D6DT-320X
26.8
43.2
53.7
80.1
96.5
78.9
96.6
113.5
D6DL-270X
10 .1
12.5
13.6
15.4
15.9
D6DJ-400X
1 2 .2 *
15.3*
16.9*
19.6
20.6
D6DT-320X
12.7
15.6
16.9
19.1
19.9
14.5
16.6
21.2
Suction Gas Return 20°C / Subcooling 0K
*Suction Superheat 10K / Subcooling 0K
59
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Capacity Data
Condensing Temperature 40°C
Cooling Capacity (kW)
R22
Model
Evaporating Temperature (°C)
-45
-35
-30
2DC-50X
2DD-50X
2DL-400 DC
1.4
3.1
4.3
2DL-75X
2DB-500 DC
1.9
4.0
5.4
2DB-75X
3DA-500 DC
-5
5
4.9
8.4
10 .6
15.9
12.3
18.4
5.8
9.8
11.7
7.4
1 2 .2
9.1
14.2
9.5
15.0
4.5
6.0
10 .1
2.7
5.4
7.3
12.5
10.7
3DC-100X
3DS-1000 DC
-1 0
2.1
3DA-75X
3DC-750 DC
-2 0
7.4
12.9
3.4
7.5
10 .2
Model
22.7
18.4
26.7
31.6
25.4
37.2
17.2
17.7
27.4
8DH-500X
48.4*
8DJ-600X
58.0*
2.5
2.9
2.3
3.2
3.6
-2 0
-1 0
-5
5
2.4
2.9
3.1
3.4
3.6
3.9
4.5
4.9
2.8
3.4
3.7
4.4
3.5
4.2
4.5
5.2
4.3
5.1
5.4
5.8
5.9
6.3
6.6
7.0
7.4
7.8
9.4
1 0 .0
10 .6
2 .2
3.4
4.0
5.0
2.8
4.0
4.7
6.1
3DA-75X
5.0
3DC-100X
3DS-1000 DC
3DS-150X
1.7
2DB-75X
3DC-750 DC
20 .6
-30
2DL-75X
2DB-500 DC
21.4
-35
2DD-50X
2DL-400 DC
15.2
Evaporating Temperature (°C)
-45
2DC-50X
3DA-500 DC
17.3
Power Input (kW)
R22
5.9
3.9
5.7
6.6
8.4
33.4
48.3
3DS-150X
8.1
79.3
97.6
143.0
8DH-500X
24.6*
28.9
30.7
33.1
95.1
117.0
171.5
8DJ-600X
29.2*
34.8
37.3
41.0
10.4
1 1 .0
11.9
13.6
14.4
15.6
13.9
16.5
17.7
19.5
17.5
20.5
2 1 .8
23.6
24.9
26.7
29.3
Previous Generation - Replacement by Stream compressors
D4DF-1000 DC
3.8
7.8
10.5
D4DA-200X
D4DL-1500 DC
6.0
1 1 .6
15.2
7.6
13.9
17.9
D4DH-250X
D4DT-2200 DC
17.4
20 .1
D6DH-350X
38.2
55.5
23.6
25.7
D4DJ-300X
D4DF-1000 DC
31.3
D4DL-1500 DC
39.5
48.1
69.3
28.2
46.4
56.2
80.4
38.4
59.0
71.9
103.5
5.8
6.8
8.8
5.9
8.5
9.8
1 2 .2
7.2
10 .0
11.5
8.7
D4DH-250X
D4DT-2200 DC
30.7
3.7
D4DA-200X
11.5
D4DJ-300X
D6DH-350X
14.3
D6DL-2700 DC
7.5
15.0
19.9
32.1
D6DL-2700 DC
8.0
1 1 .8
13.7
17.0
D6DT-3200 DC
9.7
18.7
24.4
37.8
D6DT-3200 DC
10 .0
14.4
16.6
20 .1
D6DJ-400X
44.6
Suction Gas Return 20°C / Subcooling 0K
*Suction Superheat 10K / Subcooling 0K
High Discharge Temp - Additional cooling required
60
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—
69.0
84.3
1 2 2 .0
D6DJ-400X
20 .8
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Copeland™ Stream With CoreSense™ Diagnostics,
Semi-Hermetic Reciprocating Compressors For HFC
Stream series 4 and 6 cylinder compressors provide best-in-class
performance, thereby significantly reducing cost of operation
and environmental impact compared to competing products.
With advanced protection and diagnostics features for system
reliabilty, reduced service costs and increased equipment uptime,
Stream series is built to last in today's modern changing world.
Features and Benefits
• Range of 16 models from 62 to 153m3/h
• Best-in-class seasonal efficiencies, up to 15% higher than
market standard
• Multi-refrigerant compressor as it is compatible with R404A,
R134a, R407F, R407A/C and R22
• Stepless capacity modulation by means of inverter or Digital
modulation
• Wide Operating Envelope covering Low and Medium
Temperature Refrigeration w ithout cooling fan
• Reduced sound level, dimensions and weight by up to 45 kg
Copeland Stream compressor
Designed to Deliver Best-in-Class Performance
CoreSense Diagnostics Features
• Motor and oil protection
• Storage of compressor asset and advanced runtime
information
•
•
•
Runtime/alarm signalling using multi-colour LED flash-codes
Communication to system controller via Modbus®
Individual compressor power monitoring
Stream Line-up w ith R404A, Medium Temperature
Stream 6 Cylinder
•
•
Stream 4 Cylinder
•
•
•
I
35
k W Cooling
30
I
•
•
I
40
•
1
45
50
55
60
65
70
75
80
90
85
Conditions: EN12900 R404A: Evaporating -10° C, Condensing 45° C, Suction Gas Temperature 20° C, Subcooling 0K
Stream Line-up w ith R404A, Low Temperature
Stream 6 Cylinder
•
•
Stream 4 Cylinder
•
k W Cooling
0
2
4
6
8
10
•
•
•
•
•
1
1
1
1
1
12
14
16
18
20
22
24
26
Conditions: EN12900 R404: Evaporating -35° C, Condensing 40° C, Suction Gas Temperature 20° C, Subcooling 0K
Operating Envelope R404A
W ith Sm all M otor
Evaporating Temperature °C
25°C SGRT
0°C SGRT
- - -
SH <20°C
Maximum Allowable Pressure (PS)
•
Low Side PS 22.5 bar(g) / High Side PS 28 bar(g)
62
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__—
W ith L a rg e M otor
Evaporating Temperature °C
25°C SGRT
0°C SGRT
1
1
28
30
Oil Quantity
Net Weight (kg)
Motor Version /
Code
Maximum Oper­
ating Current (A)
Locked Rotor
Current (A)
3Ph*
1)
2)
638/501/452
177
AWM
30.8
105
68
70
3.3
638/501/452
177
AWM
36.3
175
68
75
4MF-13X
13
62
31.6
2.3
10.7
4MA-22X
22
62
32.7
2.4
10.5
1.4
4ML-15X
15
71
38.4
2.3
13.3
1.5
3.3
638/501/452
180
AWM
35.4
156
69
71
4MH-25X
25
71
38.5
2.4
12.4
1.4
3.3
657/501/452
187
AWM
41.6
199
69
75
4MM-20X
17
78
42.0
2.3
15.1
1.5
3.3
657/501/452
182
AWM
39.0
175
70
71
4MI-30X
27
78
42.8
2.4
14.4
1.5
3.3
657/501/452
188
AWM
46.6
221
70
75
4MT-22X
22
88
47.6
2.3
17.0
1.5
3.3
657/501/452
183
AWM
44.5
175
71
73
4MJ-33X
33
88
47.6
2.4
16.2
1.5
3.3
657/501/452
190
AWM
52.9
221
71
74
4MU-25X
25
99
53.1
2.3
18.6
1.4
3.3
657/501/452
186
AWM
51.9
199
73
72
4MK-35X
32
99
53.5
2.3
18.3
1.4
3.3
688/501/452
20 2
AWM
61.1
255
72
74
6MM-30X
27
12 0
64.2
2.3
22.7
1.4
3.3
695/547/450
215
AWM
59.7
255
72
78
6MI-40X
35
12 0
64.6
2.3
21.9
1.4
3.3
695/547/450
219
AWM
71.4
304
72
78
6MT-35X
32
135
72.4
2.3
25.6
1.5
3.3
725/547/450
221
AWM
67.3
255
73
77
6MJ-45X
40
135
72.4
2.3
24.3
1.4
3.3
725/547/450
223
AWM
81.5
304
74
79
6MU-40X
40
153
81.4
2.3
28.4
1.4
3.3
757/547/450
225
AWM
75.8
304
75
78
6MK-50X
50
153
80.9
2.3
27.3
1.4
3.3
773/547/450
230
AWM
92.9
393
76
80
O
P
C
Sound Pressure
@1m (dBA)**
Capacity
(kW) 2)
3Ph*
3.3
Capacity
(kW) 1)
3Ph*
1.4
Displacement (m3/h)
Length/
Width/Height
(mm)
R404A
Nominal hp
COP 2)
Technical Overview
1) MT = Conditions EN12900 : Evaporating -10°C, Condensing 45°C, Suction Gas Temperature 20°C, Subcooling 0K
2) LT = Conditions EN12900 : Evaporating -35°C, Condensing 40°C, Suction Gas Temperature 20°C, Subcooling 0K
* 3 Ph: 380-420V/ 50Hz
** @ 1 m: sound pressure level at 1 m distance from the compressor, free field condition
Capacity Data
Condensing Temperature: 40°C
Cooling Capacity (kW)
R404A
Model
-45
-35
-30
-2 0
10.5
14.3
3.6*
10.7
14.1
12.4
16.7
4MA-22X
4MF-13X
4MH-25X
oo4.
4ML-15X
4MI-30X
4MM-20X
5.7*
4MJ-33X
36.0
43.5
62.0
22 .8
34.8
42.2
27.5
42.2
51.3
13.3
17.4
27.9
42.0
50.8
14.4
19.4
31.2
46.8
56.3
15.1
19.6
30.9
46.1
55.4
34.6
52.4
63.4
21.9
34.7
52.0
62.7
18.3
24.0
38.8
58.9
71.3
7.2*
18.6
24.1
38.5
58.1
70.2
21.9
28.9
46.7
70.8
85.8
22.7
29.3
46.5
70.2
85.1
24.3
32.3
52.5
79.5
96.1
25.6
33.0
52.5
79.3
95.9
27.3
36.3
58.7
88.6
107.0
28.4
36.8
58.7
89.0
108.0
8.9*
10.3*
1 1 .0 *
Model
73.6
4MH-25X
79.5
4MI-30X
4ML-15X
4MM-20X
1 1 .0 *
-2 0
-1 0
-5
5
7.3
8.6
1 1 .0
13.0
13.7
14.7
7.4
8.7
1 1 .0
13.1
13.9
8.6
1 0 .1
13.0
15.4
16.3
16.7
9.0
10.5
13.3
15.8
9.8
11.5
14.5
17.0
18.0
1 0 .1
1 1 .6
14.6
17.1
18.2
10.9
12 .6
16.1
19.0
20 .2
11.5
13.2
16.6
19.5
20.7
1 2 .6
14.6
18.5
2 2 .0
23.5
12.9
14.9
18.8
22.3
23.7
15.2
17.6
2 2 .2
26.1
27.7
15.7
18.1
22.5
26.3
27.8
19.6
24.9
29.5
31.4
12.3*
17.5
20 .1
25.3
29.7
31.5
19.4
22.5
28.3
33.5
35.9
13.8*
19.7
22.7
28.5
33.6
35.8
6MK-50X
6MU-40X
-30
16.8
6MJ-45X
6MT-35X
152.0
7.1*
6MI-40X
6MM-30X
136.5
6.3*
4MK-35X
4MU-25X
122.5
5.0*
4MJ-33X
4MT-22X
1 0 2 .0
-35
4MA-22X
4MF-13X
90.4
-45
o9
.
21.4
6MK-50X
6MU-40X
23.6
17.0
6MJ-45X
6MT-35X
5
16.2
6MI-40X
6MM-30X
-5
6.7*
4MK-35X
4MU-25X
-1 0
Evaporating Temperature (°C)
o .8
4MT-22X
Power Input (kW)
R404A
Evaporating Temperature (°C)
17.5
19.5
2 1 .8
25.7
30.1
33.9
39.9
Suction Gas Return 20°C, Subcooling 0K
* Suction Superheat 10K, Subcooling 0K
63
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Capacity Data
Cooling Capacity (kW)
R134a
Power Input (kW)
R134a
Condensing Temperature: 40°C
Condensing Temperature: 40°C
Evaporating Temperature (°C)
Model
-45
-35
-30
4MA-22X
Evaporating Temperature (°C)
-2 0
-1 0
-5
5
Model
11.9*
2 0 .2 *
25.7*
40.0
4MA-22X
-45
-35
-30
-2 0
-1 0
-5
5
5.9*
7.3*
7.9*
8.7
4MF-13X
12.3
20.4
25.6
38.9
4MF-13X
5.8
7.2
7.8
8.7
4MH-25X
13.6*
23.3*
29.6*
46.3
4MH-25X
7.1*
8.7*
9.4*
10.4
4ML-15X
15.0
24.5
30.5
46.0
4ML-15X
6.9
8.5
9.3
10.4
4MI-30X
15.3*
25.7*
32.5*
50.6
4MI-30X
7.6*
9.4*
10.3*
11.4
4MM-20X
16.6
27.0
33.6
50.3
4MM-20X
7.7
9.4
10 .2
11.4
4MJ-33X
17.2*
28.7*
36.3*
56.3
4MJ-33X
8.7*
10.7*
11.5*
1 2 .8
4MT-22X
19.1
30.6
38.1
57.2
4MT-22X
8.7
10 .8
11.7
13.1
4MK-35X
19.3*
32.2*
40.7*
63.1
4MK-35X
9.7*
1 2 .2 *
13.3*
14.9
4MU-25X
20.7
33.9
42.3
63.8
4MU-25X
9.8
1 2 .2
13.3
15.1
6MI-40X
22.4*
38.0*
48.3*
75.8
6MI-40X
1 2 .0 *
14.6*
15.8*
17.8
6MM-30X
25.2
40.7
50.7
76.1
6MM-30X
11.7
14.6
15.8
17.7
6MJ-45X
25.8*
43.1*
54.6*
85.1
6MJ-45X
13.0*
16.2*
17.8*
20.3
6MT-35X
28.5
46.0
57.1
85.2
6MT-35X
13.3
16.5
17.9
20 .0
6MK-50X
26.5*
46.1*
59.2*
94.0
6MK-50X
15.2*
18.8*
20.5*
23.3
6MU-40X
31.5
50.6
62.9
94.5
6MU-40X
14.6
18.4
20 .1
23.0
R407F
Condensing Temperature: 40°C
-1 0
-5
5
Suction Gas Return 20°C, Subcooling 0K
* Suction Superheat 10K, Subcooling 0K
Cooling Capacity (kW)
R407F
Power Input (kW)
Condensing Temperature: 40°C
Evaporating Temperature (°C)
Model
-45
-35
-30
-2 0
Evaporating Temperature (°C)
-1 0
-5
5
Model
-45
-35
-30
-2 0
4MA-22X
20.7*
34.8
43.0
63.8
4MA-22X
1 0 .2 *
12.4
13.2
14.4
4MH-25X
24.2*
40.4
49.9
73.8
4MH-25X
11.9*
14.4
15.4
16.8
4MI-30X
26.9*
44.4
54.8
80.7
4MI-30X
13.1*
15.8
17.0
18.6
2 1.1
4MJ-33X
30.2*
49.5
60.9
89.8
4MJ-33X
14.8*
17.8
19.2
4MK-35X
33.7*
55.3
68.3
1 0 1 .0
4MK-35X
16.8*
20.4
2 2 .1
24.4
6MI-40X
41.2*
67.9
83.5
122.5
6MI-40X
2 0 .2 *
24.4
26.2
28.9
6MJ-45X
45.8*
75.2
92.6
136.0
6MJ-45X
22.9*
27.6
29.7
32.8
6MK-50X
51.3*
84.5
104.0
153.5
6MK-50X
25.8*
31.3
33.7
37.5
Suction Gas Return 20°C, Subcooling 0K
* Suction Superheat 10K, Subcooling 0K
64
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Capacity Data
Cooling Capacity (kW)
R22
Power Input (kW)
R22
Condensing Temperature: 40°C
Condensing Temperature: 40°C
Evaporating Temperature (°C)
Model
-45
-35
-30
4MA-22X
4MF-13X DC
4.2*
8 .6 *
11.5*
4MH-25X
4ML-15X DC
4MM-20X DC
5
2 2 .1
34.5
42.2
61.2
39.8
48.4
69.9
19.2*
11.7*
15.3*
23.7*
7.0*
1 2 .8 *
16.6*
26.0*
28.3
31.8
7.8*
14.4*
18.6*
4MK-35X
4MU-25X DC
-5
6 .0 *
4MJ-33X
4MT-22X DC
-1 0
25.9
4MI-30X
16.3*
2 1 .0 *
Model
51.9
74.3
-30
48.1
58.2
83.3
4MJ-33X
54.5
66.0
94.4
4MK-35X
4MT-22X DC
4MU-25X DC
-2 0
-1 0
-5
5
9.6
11.5
1 2 .2
13.1
13.7
14.5
15.7
15.3
16.3
18.0
17.1
18.3
20 .1
19.4
20.7
2 2 .8
4.0*
6.4*
7.5*
9.7*
5.9*
8.5*
9.8*
12.3*
6.7*
9.3*
1 0 .6 *
13.2*
1 1 .6
4MI-30X
4MM-20X DC
33.1*
-35
4MH-25X
4ML-15X DC
42.9
-45
4MA-22X
4MF-13X DC
29.2*
36.0
8.9*
Evaporating Temperature (°C)
-2 0
12.9
14.4
7.5*
10.4*
11.9*
14.8*
8.5*
1 1 .8 *
13.5*
16.8*
16.3
6MI-40X
43.5
66.9
81.5
117.5
6MI-40X
19.8
23.3
24.7
26.7
6MJ-45X
47.4
73.4
89.5
129.5
6MJ-45X
2 2 .1
26.5
28.3
31.2
6MK-50X
53.7
83.2
101.5
147.0
6MK-50X
25.1
30.0
32.1
35.4
Suction Gas Return 20°C, Subcooling 0K
* Suction Superheat 10K, Subcooling 0K
Additionally Cooling required
65
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Copeland™ Stream Digital with CoreSense™ Diagnostics
for Continuous Capacity Modulation
Stream Digital series 4 and 6 cylinder compressors provide an
alternative means of continuous modulation to inverter. Digital
modulation is the most simple and precise method of capacity
control and helps to contain applied costs associated with modu­
lation.
Digital technology is based on controlling a high cycle solenoid
valve fitted on one of the cylinder heads based on cycle tim e.
The valve actuates a piston that controls the flow of gas into the
suction area of the Stream valve plate.
The compressor always run at constant speed which resolves the
challenges related to oil return, mechanical and electrical stress
on the system.
All compressors are equipped with CoreSense technology and of­
fer the possibility to diagnose system related problems faster or
even before they occur.
Copeland Stream Digital compressor
Features and Benefits
• Range of 16 Models from 62 to 153 m3/h
• Multi-refrigerant compressor as it is compatible with R404A,
R407F, R407A/C, R134a and R22
• Continuous modulation from 50-100% (4-cylinder) and
33-100% (6-cylinder) ensuring a perfect match of capacity
and power to refrigeration load
• Economical and reliable alternative to frequency inverters
• Precise suction pressure control with associated energy
savings and stable evaporating temperatures
• Quick and easy integration into refrigeration equipment,
similar to any other standard compressor
•
•
•
•
Possibility to easily retrofit existing installations with digital
cylinder head kit
No vibrations or mechanical stress on system piping and
compressor parts
Reduced compressor cycling for longer contactor and
compressor life
Emerson CoreSense Diagnostics technology providing
advanced protection, diagnostics and preventive
maintenance
Stream Digital Line-up w ith R404A, Medium Temperature
Stream 6 Cylinder
•
•
Stream 4 Cylinder
•
•
k W Cooling
30
•
•
•
•
1
1
1
1
1
35
40
45
50
55
60
65
70
75
80
85
90
Conditions: EN12900 R404A: Evaporating -10° C, Condensing 45° C, Suction Gas Temperature 20° C, Subcooling 0K
Stream Digital Line-up w ith R404A, Low Temperature
Stream 6 Cylinder
Stream 4 Cylinder
•
1
k W Cooling
1
1
1
1
1
1
2
2
0
2
Conditions: EN12900 R404: Evaporating -35° C, Condensing 40° C, Suction Gas Temperature 20° C, Subcooling 0K
66
•
•
8
8
•
6
6
•
4
4
•
2
2
0
0
http://holodko.ru/
•
•
24
26
28
30
Operating Envelope R404A
W ith Sm all M otor
W ith Large M otor
Evaporating Temperature °C
Evaporating Temperature °C
25°CSGRTat 100% modulation or
0°CSGRT +Fan between 33% (6 cyl) or 50% (4 cyl) and 99% modulation
0°C SGRT at 100% modulation
— — — SH >20°C at 100% modulation
0°C SGRT between 33% (6 cyl) or 50% (4 cyl) and 99% modulation
25°C SGRT between 33% (6 cyl) or 50% (4 cyl) and 99% modulation
Net Weight (kg)
Motor Version /
Code
Maximum Operat­
ing Current (A)
Locked Rotor
Current (A)
1)
2)
177
AWM
30.8
105
68
70
1.3
3.3
638/501/452
177
AWM
36.3
175
68
75
1 2 .1
1.3
3.3
638/501/452
180
AWM
35.4
156
69
71
2.4
1 1 .1
1.3
3.3
657/501/452
187
AWM
41.6
199
69
75
2.3
13.7
1.4
3.3
657/501/452
182
AWM
39.0
175
70
71
2.4
13.0
1.3
3.3
657/501/452
188
AWM
46.6
221
70
75
47.2
2.3
15.4
1.4
3.3
657/501/452
183
AWM
44.5
175
71
73
47.1
2.4
14.6
1.4
3.3
657/501/452
190
AWM
52.9
221
71
74
52.2
2.3
16.9
1.3
3.3
657/501/452
186
AWM
51.9
199
73
72
99
53.0
2.3
16.5
1.3
3.3
688/501/452
20 2
AWM
61.1
255
72
74
120
63.6
2.3
20 .6
1.3
3.3
695/547/450
215
AWM
59.7
255
72
78
120
64.0
2.3
19.7
1.3
3.3
695/547/450
219
AWM
71.4
304
72
78
32
135
71.7
2.3
23.2
1.3
3.3
725/547/450
221
AWM
67.3
255
73
77
40
135
71.7
2.3
21.9
1.3
3.3
725/547/450
223
AWM
81.5
304
74
79
40
153
80.5
2.3
25.7
1.3
3.3
757/547/450
225
AWM
75.8
304
75
78
50
153
80.1
2.3
24.5
1.3
3.3
773/547/450
230
AWM
92.9
393
76
80
4MFD-13X
13
62
31.3
2.3
9.5
4MAD-22X
22
62
32.4
2.4
9.3
4MLD-15X
15
71
38.0
2.3
4MHD-25X
25
71
38.1
4MMD-20X
17
78
41.6
4MID-30X
27
78
42.3
4MTD-22X
22
88
4MJD-33X
33
88
4MUD-25X
25
99
4MKD-35X
32
6MMD-30X
27
6MID-40X
35
6MTD-35X
6MJD-45X
6MUD-40X
6MKD-50X
O
P
C
Sound Pressure
@1m (dBA)**
Oil Quantity
3Ph*
638/501/452
Capacity
(kW) 2)
3Ph*
3.3
Capacity
(kW) 1)
3Ph*
1.3
Displacement (m3/h)
Length/
Width/Height
(mm)
R404A
Nominal hp
COP 2)
Technical Overview
1) MT = Conditions EN12900 : Evaporating -10°C, Condensing 45°C, Suction Gas Temperature 20°C, Subcooling 0K
2) LT = Conditions EN12900 : Evaporating -35°C, Condensing 40°C, Suction Gas Return Temperature 0°C, Subcooling 0K
* 3 Ph: 380-420V/ 50Hz
** @ 1 m: sound pressure level at 1 m distance from the compressor, free field condition
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Capacity Data
Cooling Capacity (kW)
R404A
Power Input (kW)
R404A
Condensing Temperature: 40°C
Condensing Temperature: 40°C
Evaporating Temperature (°C)
Model
-45
4MAD-22X
Evaporating Temperature (°C)
-35
-30
-2 0
-1 0
-5
5
8. 1 *
11.7*
23.4
35.6
43.1
61.3
4MFD-13X
8.3*
11.5*
22 .6
34.5
41.8
4MHD-25X
9.6*
13.7*
27.2
41.7
50.7
4MLD-15X
1 0 .6 *
14.5*
27.6
41.6
50.2
4MID-30X
11.4*
16.2*
30.9
46.3
55.7
4MMD-20X
1 2 .2 *
16.4*
30.6
45.6
54.8
4MJD-33X
12.9*
17.8*
34.2
51.9
62.7
4MTD-22X
13.7*
18.4*
34.3
51.5
62.1
4MKD-35X
14.5*
2 0 .0 *
38.4
58.3
70.6
4MUD-25X
14.9*
2 0 .1 *
38.1
57.5
69.5
6MID-40X
17.3*
28.6*
46.2
70.1
84.9
6MMD-30X
18.2*
29.0*
46.0
69.5
84.3
6MJD-45X
19.2*
32.0*
51.9
78.7
95.1
6MTD-35X
20.5*
32.7*
52.0
78.5
94.9
6MKD-50X
21.4*
36.0*
58.1
87.7
106.0
6MUD-40X
2 2 .6 *
36.5*
58.1
88.1
107.0
72.9
78.7
89.5
1 0 1 .0
121.5
135.0
150.5
Model
-45
-35
-30
-2 0
-1 0
-5
5
4MAD-22X
7.3*
8 .6 *
1 1 .0
13.0
13.7
14.7
4MFD-13X
7.4*
8.7*
1 1 .0
13.1
13.9
4MHD-25X
8 .6 *
1 0 .1 *
13.0
15.4
16.3
4MLD-15X
9.0*
10.5*
13.3
15.8
16.7
4MID-30X
9.8*
11.5*
14.5
17.0
18.0
4MMD-20X
10 .1 *
1 1 .6 *
14.6
17.1
18.2
4MJD-33X
10.9*
1 2 .6 *
16.1
19.0
2 0 .2
4MTD-22X
11.5*
13.2*
16.6
19.5
20.7
4MKD-35X
1 2 .6 *
14.6*
18.5
2 2 .0
23.5
4MUD-25X
12.9*
14.9*
18.8
22.3
23.7
6MID-40X
15.2*
17.6*
2 2 .2
26.1
27.7
6MMD-30X
15.7*
18.1*
22.5
26.3
27.8
6MJD-45X
16.8*
19.6*
24.9
29.5
31.4
6MTD-35X
17.5*
20 .1 *
25.3
29.7
31.5
6MKD-50X
19.4*
22.5*
28.3
33.5
35.9
6MUD-40X
19.7*
22.7*
28.5
33.6
35.8
17.5
19.5
2 1 .8
25.7
30.1
33.9
39.9
Suction Gas Return 20°C, Subcooling 0K, 100% loaded
* Suction Superheat 10K, Subcooling 0K
Cooling Capacity (kW)
R134a
Power Input (kW)
R134a
Condensing Temperature: 40°C
Condensing Temperature: 40°C
Evaporating Temperature (°C)
Model
-45
-35
-30
Evaporating Temperature (°C)
-2 0
-1 0
-5
5
4MAD-22X
1 1 .8 *
2 0 .0 *
25.4*
39.6
4MFD-13X
1 2 .1
20 .2
25.4
38.5
4MHD-25X
13.5*
23.1*
29.3*
45.8
4MLD-15X
14.8
24.2
30.2
45.5
4MID-30X
15.1*
25.4*
32.2*
Model
-45
-35
-30
-2 0
-1 0
-5
5
4MAD-22X
5.9*
7.3*
7.9*
8.7
4MFD-13X
5.8
7.2
7.8
8.7
4MHD-25X
7.1*
8.7*
9.4*
10.4
4MLD-15X
6.9
8.5
9.3
10.4
50.1
4MID-30X
7.6*
9.4*
10.3*
11.4
4MMD-20X
16.5
26.7
33.3
49.8
4MMD-20X
7.7
9.4
1 0 .2
11.4
4MJD-33X
17.0*
28.5*
35.9*
55.7
4MJD-33X
8.7*
10.7*
11.5*
1 2 .8
4MTD-22X
18.9
30.3
37.7
56.7
4MTD-22X
8.7
10 .8
11.7
13.1
4MKD-35X
19.1*
31.9*
40.3*
62.5
4MKD-35X
9.7*
1 2 .2 *
13.3*
14.9
4MUD-25X
20.5
33.5
41.9
63.2
4MUD-25X
9.8
1 2 .2
13.3
15.1
6MID-40X
2 2 .2 *
37.6*
47.8*
75.1
6MID-40X
1 2 .0 *
14.6*
15.8*
17.8
6MMD-30X
24.9
40.3
50.2
75.3
6MMD-30X
11.7
14.6
15.8
17.7
6MJD-45X
25.6*
42.7*
54.0*
84.3
6MJD-45X
13.0*
16.2*
17.8*
20.3
6MTD-35X
28.2
45.5
56.5
84.4
6MTD-35X
13.3
16.5
17.9
20.0
6MKD-50X
26.2*
45.7*
58.6*
93.1
6MKD-50X
15.2*
18.8*
20.5*
23.3
6MUD-40X
31.2
50.1
62.3
93.6
6MUD-40X
14.6
18.4
20 .1
23.0
Suction Gas Return 20°C, Subcooling 0K, 100% loaded
* Suction Superheat 10K, Subcooling 0K
68
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Capacity Data
Cooling Capacity (kW)
R407F
Power Input (kW)
R407F
Condensing Temperature: 40°C
Condensing Temperature: 40°C
Evaporating Temperature (°C)
Evaporating Temperature (°C)
All Preliminary Data
Model
-45
-35
-30
-2 0
-1 0
-5
5
Model
-45
-35
-30
-2 0
-1 0
-5
5
4MAD-22X
20.5*
34.4
42.6
63.1
4MAD-22X
1 0 .2 *
12.4
13.2
14.4
4MHD-25X
23.9*
40.0
49.4
73.1
4MHD-25X
11.9*
14.4
15.4
16.8
4MID-30X
26.6*
44.0
54.2
79.9
4MID-30X
13.1*
15.8
17.0
18.6
4MJD-33X
29.8*
49.0
60.3
88.9
4MJD-33X
14.8*
17.8
19.2
2 1.1
4MKD-35X
33.3*
54.8
67.6
10 0 .0
4MKD-35X
16.8*
20.4
2 2 .0
24.4
6MID-40X
40.7*
67.2
82.6
121.5
6MID-40X
2 0 .2 *
24.4
26.2
28.9
6MJD-45X
45.3*
74.5
91.6
135.0
6MJD-45X
22.9*
27.6
29.7
32.8
6MKD-50X
50.7*
83.7
103.0
151.5
6MKD-50X
25.8*
31.3
33.7
37.5
Suction Gas Return 20°C, Subcooling 0K, 100% loaded
* Suction Superheat 10K, Subcooling 0K
Cooling Capacity (kW)
R22
Power Input (kW)
R22
Condensing Temperature: 40°C
Condensing Temperature: 40°C
Evaporating Temperature (°C)
Model
-45
-35
-30
4.2
8.6
11.5
4MAD-22X
4MFD-13X DC
4MHD-25X
4MLD-15X DC
4MMD-20X DC
6.0
1 1 .6
15.2
7.0
12 .8
16.5
7.8
14.4
18.5
8.9
16.3
2 1 .0
9.2
17.7
23.1
10.3
19.9
25.9
42.1
61.2
11.7
22.5
29.4
39.8
48.5
69.9
42.9
51.9
74.3
48.1
58.2
83.3
66.0
94.4
4MKD-35X
66.9
81.5
117.6
6MID-40X
4MUD-25X DC
6MMD-30X DC
73.4
89.5
129.6
40.2
45.5
101.5
147.0
-1 0
-5
5
9.6
11.4
1 2 .2
13.1
4.0
6.4
7.5
9.7
13.64
14.5
15.7
15.2
16.3
18.0
17.1
18.3
20 .1
19.4
20.7
2 2 .8
23.3
24.7
26.7
26.5
28.3
31.2
30.0
32.1
35.4
1 1 .6
5.9
8.5
9.8
12.3
6.7
9.3
10 .6
13.2
7.8
10.4
1 1 .8
14.8
1 2 .8
14.4
16.3
8.5
1 1 .8
13.4
9.4
13.7
15.7
19.1
1 0 .6
15.3
17.6
21.4
2 2 .1
6MKD-50X
6MUD-40X DC
16.8
19.8
6MJD-45X
6MTD-35X DC
83.2
-2 0
4MJD-33X
54.5
35.8
-30
4MID-30X
4MTD-22X DC
33.1
-35
4MHD-25X
4MMD-20X DC
29.2
-45
4MAD-22X
4MLD-15X DC
26.0
53.7
Model
4MFD-13X DC
23.7
47.4
6MKD-50X
6MUD-40X DC
34.5
19.2
43.5
6MJD-45X
6MTD-35X DC
2 2 .1
36.0
6MID-40X
6MMD-30X DC
5
31.8
4MKD-35X
4MUD-25X DC
-5
28.3
4MJD-33X
4MTD-22X DC
-1 0
25.9
4MID-30X
Evaporating Temperature (°C)
-2 0
25.1
1 2 .0
17.4
19.9
24.2
Suction Gas Return 20°C, Subcooling 0K, 100% loaded
Additional Cooling required
69
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Copeland™ Stream Compressors with CoreSense™ Diagnostics
for R744-Transcritical Applications
Stream series of 4 cylinder CO2 compressors is the ideal solution
for R744 medium temperature cascade and booster systems. It
is characterized by a design pressure of 135 bar. Refrigerant flow
and heat transfer have been optimized for best performance. All
compressors are equipped with CoreSense technology and offer
the possibility to diagnose system-related problems faster or
even before they occur.
Features and Benefits
Stream provides for flexibility in pack design and operation:
• Compact dimensions
• Integrated high and low pressure relief valve
• Discharge Temperature Protection
• Service valve 360° rotation for ease of piping design
• 2 sight glasses for mounting of oil management control and
visual inspection
• One additional sight glass for oil visual inspection at run time
• One oil port for oil equalization in parallel system
• Oil splasher system ensuring lubrication at constant and
variable speed
Designed for durability and performance in R744 applications:
• Low sound, low vibration and large discharge chamber to
eliminate pulsation
• High design pressures of 135 bar (high side) and 90 bar
(low side)
• Burst pressures in excess of safety factor 3
• Cylinder head and discharge plenum design minimizing heat
transfer to suction side
• Stepless capacity modulation via inverter from 30 to 70Hz
• CoreSense™ Diagnostics
• Individual compressor power consumption monitoring
Copeland Stream Compressors for R744 Refrigeration
Designed for Durability and Best-in-Class
Performance in R744 Transcritical Applications
Stream Line-up for R744
R744
•
•
•
k W Cooling
15
10
20
Conditions: EN12900 R744: Evaporating -10°C, Gas cooler exit: 35°C/ 90 bar, Superheat: 10K
Operating Envelope R744
130 -|---------- --------------
110
9 0 -----------------------------------------------------------------------------CD
D
£ 7 0 ------------------------------------------------------------------------------CL
QJ
CT
5 0 -------------------------------------------------------- 1 ------------------u
O
3 0 ------------------------------------------------------
10 -|---------- ^
-25
-20
^
-15
^
^
-10
^
-5
^
0
Evaporating Temperature °C
70
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—
---------5
10
25
30
1
1
35
40
Sound Pressure
@1 m (dBA) **
30
3 Ph*
3 Ph*
3 Ph*
145
69
Length/Width/
Heigth
(mm)
9.5
18.3
1.7
3.30
697/445/422
170
AWM
26
12.5
24.9
1.8
3.30
697/445/422
170
AWM
35
156
72
17.9
36.5
1.8
3.30
697/445/422
175
AWM
50
221
75
Net Weight
(kg)
15
4MTL-30X
Locked Rotor
Current (A)
Q_
O
C
Oil Quantity
(l)
4MTL-15X
4MTL-12X
Maximum Operat­
ing Current (A)
Capacity
(kW)
12
R744
Motor Version /
Code
Displacement
(m3/h)
Nominal
hp
Technical Overview
Conditions EN12900 R744: Evaporating -10°C, Gas cooler exit: 35°C/90bar, Superheat: 10K
* 3 Ph: 380-420V/ 50Hz
** @ 1 m: sound pressure level at 1 m distance from the compressor, free field condition
Capacity Data
Gas Cooler
4MTL-30X
Condensing
Gas Cooler
4MTL-15X
Condensing
Gas Cooler
Pressure (bar)
Power Input (kW)
Evaporating Temperature (°C)
Temperature
(°C)
4MTL-12X
Condensing
Model
Cooling capacity (kW)
Evaporating Temperature (°C)
19,7
10
45.0
2 2 .2
27.0
32.4
38.6
6.0
5.8
5.4
15
50.9
20 .2
24.6
29.6
35.3
41.6
6.7
6.6
6.3
5.9
5.2
20
57.3
18.2
2 2 .1
26.7
31.9
37.6
7.4
7.4
7.2
6.9
6.4
7.6
-2 0
-15
-10
-5
0
-2 0
34,9
19,7
Equivalent evaporation pressure (bar)
22,9
26,5
30,5
-15
-1 0
-5
0
Equivalent evaporation pressure (bar)
22,9
26,5
30,5
4.8
34,9
25
64.3
15.9
19.4
23.4
28.0
33.1
8.0
8.2
8.2
8.0
30
75
12.7
15.6
18.9
2 2 .6
26.7
8.7
8.9
9.1
9.0
8.9
35
90
1 2 .1
14.8
18.0
2 1 .6
25.6
9.9
10.3
10.7
10 .8
10.9
40
10 0
10.4
13.1
16.0
19.3
22.9
10 .6
11.3
1 1 .8
1 2 .1
12.3
40
110
10.4
13.1
16.0
19.3
22.9
10 .6
11.3
1 1 .8
1 2 .1
12.3
10
45.0
30.3
36.8
44.1
52.4
7.67
7.44
6.98
6.26
15
50.9
27.6
33.6
40.4
48.1
56.5
8.54
8.46
8.17
7.63
20
57.3
24.8
30.2
36.4
43.4
51.1
9.4
9.47
9.35
8.99
8.37
25
64.3
2 1 .6
26.4
31.9
38.1
45
10.25
10.45
10.5
10.35
9.93
30
75
17.3
2 1 .2
25.7
30.7
36.3
11.05
11.45
11.7
11.7
11.45
35
90
16.35
20 .1
24.5
29.3
34.5
1 2 .6
13.2
13.7
13.95
13.95
40
10 0
14.1
17.65
2 1 .6
26
30.8
13.5
14.45
15.1
15.55
15.8
40
110
14.1
17.65
2 1 .6
26
30.8
13.5
14.45
15.1
15.55
15.8
10
45.0
44.7
54.0
64.7
76.8
1 1 .2
10.9
10.3
9.3
6.81
15
50.9
40.7
49.3
59.2
70.4
82.7
12.4
12.3
12 .0
11.3
10 .1
20
57.3
36.6
44.3
53.3
63.5
74.7
13.7
13.8
13.7
13.2
12.4
25
64.3
32.0
38.8
46.8
55.8
65.8
14.9
15.2
15.3
15.1
14.6
30
75
25.6
31.2
37.7
45.0
53.0
16.1
16.7
17.0
17.1
16.8
35
90
24.4
29.7
35.9
42.9
50.6
18.3
19.2
19.9
20.3
20.4
40
10 0
2 1.1
26.3
32.0
38.3
45.3
19.6
2 1 .0
21.9
2 2 .6
23.0
40
110
2 1.1
26.3
32.0
38.3
45.3
19.6
2 1 .0
21.9
2 2 .6
23.0
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S-Series Reciprocating Compressor Ra nge
From 2 to 8 cylinder semi-hermetic reciprocating compressors
for medium/low temperature refrigeration and comfort
applications.
The S-series ranges from 5 to 70 hp and provide cooling
capacities from 11 to 90 kW in medium temperature (R404A,
-10/45°C) and 4 to 29 kW in low temperature (R404A, -35/40°C).
These compressors are qualified for R404A, R507, R134a, R22
and R407C (some models).
The S-series comprises the 2S, 3S, 4S, 6S and 8S models. It is
suction gas cooled and uses reed valve technology, found on all
reciprocating compressors except Discus™ and Stream. It is suited
for numerous single- or multi-compressor applications such as
condensing units or compact compressor packs for medium to
large supermarkets.
S-Series Compressor
All compressors are designed for unquestionable reliability:
• Positive displacement high flow oil pump guarantees high oil
feeding pressure for good lubrication and bearings' cooling
• PTFE coated bearings for especially low friction and good
protection at start up
• Aluminium piston with optimized geom etry for good perfor­
mance and resistance to liquid handling
• High temperature resistant Molybdenum piston rings
preventing from wear
Optimized bearing surface dimensions
Valve reeds of impact resistant spring steel
Pre-set internal pressure relief valve between suction and
discharge that opens if the maximum differential pressure is
exceeded
Electronic motor protection module
S Series Compressor Line-up
D 8 S-Series
D 6 S-Series
D4S-Series
D3S-Series
D2S-Series
D isp lacem e n t (m 3/h)
0
10
20
30
40
50
60
70
80
90
100
110
120
130
140
150
160
170
180
190
200
Conditions: EN12900, R404A: Evaporating -10°C, Condensing 40°C, Suction Gas Temperature 20°C, Subcooling 0K
Features and Benefits
Operating Envelope R404A
Integrated oil pump and Electronic Oil Pressure Switch OPS2
for durability
Two motor sizes per displacement, optimized for different
applications
Ability of the refrigeration compressors with small motor
size to operate as low as 10°C condensing
Large operating envelope that allows medium and low
temperature applications to be covered by one single model
Provide cooling capacity modulation either by cylinder head
blocked suction or with use of frequency inverters from 25
to 60Hz with the standard AWM motors
Multi-refrigerant compressor range - one model to cover all
standard refrigerants
Maximum Allowable Pressure (PS)
•
Low Side PS 22.5 bar (g)/ High Side PS 28 bar (g)
Evaporating Temperature °C
72
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Large Motor25°C SGRT
Large Motor 25°C SGRT +Fan
Small Motor 25°C SGRT
Small Motor 0°CSGRT+Fan
Locked Rotor
Current (A)
3 Ph*
3 Ph*
3 Ph*
5.5
22.4
1 1 .2
2.0
5.5
26.8
13.4
2.0
D2SC-65X
6.5
26.9
13.3
2.0
D2SK-65X
6.5
31.2
15.9
2.0
2.40
560/330/395
D3SA-75X
7.5
32.2
15.6
2 .2
3.70
655/370/480
D3SC-100X
10 .0
38.0
18.9
2 .2
3.70
682/370/480
159
D3SC-75X
10 .0
38.0
18.3
2 .1
5.5
1.3
3.70
655/370/480
159
AWM
19
82
66
D3SS-100X
10 .0
49.9
24.5
2 .0
8.2
1.3
3.70
680/370/480
162
AWM
26
109
67
D3SS-150X
15.0
49.9
25.9
2 .1
3.70
680/370/480
162
AWM
30
125
D4SA-200X
20.0
56.0
27.5
2 .2
3.30
650/485/495
183
AWM
32
175
D4SF-100X
10 .0
56.0
27.3
2.1
3.30
680/485/495
178
AWM
27
105
72
D4SH-250X
25.0
70.8
35.1
2.1
3.30
670/490/495
194
AWM
42
199
71
D4SL-150X
15.0
70.8
36.4
2.1
D4SJ-300X
30.0
84.5
42.8
2 .2
4.5
D2SA-55X
D2SC-55X
2.0
D4ST-200X
20.0
84.7
43.4
2.1
D6SA-300X
30.0
84.0
41.8
2 .2
D6SF-200X
20.0
84.0
41.8
2.1
D6SJ-400X
40.0
127.0
62.7
2 .2
D6ST-300X
32.0
127.0
D6ST-320X
32.0
127.0
D6SU-400X
40.0
D6SK-500X
50.0
D8SH-370X
37.0
D8SH-500X
D8SJ-450X
D8SJ-600X
60.0
)
2
P
O
C
3.5
1 .2
4.1
1.3
4.9
8.9
11.9
14.5
1 .2
1.3
1.4
1.4
Length/Width/
Heigth
(mm)
2.40
560/330/395
90
EWL
11
69
2.40
560/330/395
90
EWL
13
67
2.40
560/330/395
91
EWL
13
74
2.40
560/330/395
91
EWL
16
85
92
EWL
16
85
159
AWM
18
82
AWM
22
106
Net Weight
(kg)
P
C
Oil Quantity
(l)
1 1 .1
D2SA-45X
O
Capacity
(kW) 2)
22.4
R404A
Nominal
hp
Capacity
(kW) 1)
Maximum
Operating
Current (A)
Displacement
(m3/h)
Motor
Version /
Code
Sound Pressure
@1 m (dBA) **
Technical Overview
67
70
3.30
680/490/495
186
AWM
36
156
72
3.30
690/515/495
2 10
AWM
48
221
70
3.30
700/490/495
198
AWM
42
175
72
3.30
740/540/490
214
AWM
50
221
75
212
AWM
38
175
13.5
1.4
3.30
740/540/490
6.80
760/565/545
252
AWM
75
304
21.3
1.4
6.80
740/540/545
252
AWM
63
255
255
1 1 .1
2.1
21.3
1.4
6.80
740/540/545
252
AWM
63
151.8
1 1 .1
2.1
26.6
1.4
6.80
740/540/545
265
AWM
78
304
152.0
73.1
2.1
6.80
770/570/539
268
AWM
89
393
151.0
1 1 .1
2.1
50.0
151.0
78.2
2 .2
45.0
181.0
1 1 .1
2.1
181.0
90.4
2 .2
24.6
1.4
7.60
835/467/610
314
AWM
71
349
7.60
835/467/610
326
AWM
95
458
28.7
1.4
7.60
835/527/610
345
AWM
91
441
7.60
835/527/610
346
AWM
106
476
74
78
77
76
(1) MT= Conditions EN12900 : Evaporating -10°C, Condensing 45°C, Suction Gas Temperature 20°C, Subcooling 0K
(2) LT= Conditions EN12900 : Evaporating -35°C, Condensing 40°C, Suction Gas Temperature 20°C, Subcooling 0K
* 3 Ph: 380-420V/ 50Hz
** @ 1 m: sound pressure level at 1 m distance from the compressor, free field condition
73
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Capacity Data
Condensing Temperature 40°C
Cooling Capacity (kW)
R404A
Model
-45
-35
-30
-2 0
-1 0
-5
D2SA-45X
1 .1 *
3.5
4.8
7.9
1 2 .2
14.8
4.7
7.9
12.3
15.0
1 .1 *
4.1
5.5
9.4
14.7
18.0
5.6
9.4
14.6
17.8
D2SA-55X
D2SC-55X
D2SC-65X
D2SK-65X
1 .2 *
4.9
Power Input (kW)
R404A
Evaporating Temperature (°C)
5
21.5
Model
-45
-35
-30
-2 0
-1 0
-5
D2SA-45X
1.9*
2.9
3.4
4.5
5.4
5.8
3.3
4.3
5.2
5.6
1.9*
3.2
3.9
5.2
6.3
6.8
4.2
5.3
6.3
6.7
D2SA-55X
D2SC-55X
25.6
Evaporating Temperature (°C)
D2SC-65X
D2SK-65X
2 .6 *
4.0
5
6.2
7.3
6.7
11.3
17.5
21.4
4.7
6 .2
7.5
8.2
D3SA-75X
6.3
10.9
17.2
2 1.2
30.9
D3SA-75X
4.2
5.6
7.0
7.5
8.3
D3SC-100X
8.0
13.5
20.9
25.4
36.6
D3SC-100X
5.3
6.9
8.4
9.1
10 .0
D3SC-75X
1 .6 *
5.5
7.5
12.9
20.3
24.9
D3SC-75X
2 .8 *
4.3
5.2
6.9
8.6
9.4
D3SS-100X
2.7*
8.2
10 .8
17.6
26.8
32.5
D3SS-100X
4.4*
6 .2
7.2
9.5
11.9
12.9
11.4
18.6
28.3
34.4
49.2
7.6
9.8
1 1 .8
12.7
14.3
54.0
14.4
D3SS-150X
D4SA-200X
D4SF-100X
3.0*
8.9
D4SH-250X
D4SL-150X
3.8*
11.9
D4SJ-300X
D4ST-200X
5.2*
14.5
D6SA-300X
D6SF-200X
11.3
19.3
30.4
37.2
11.9
19.6
30.1
36.6
14.6
24.7
38.7
47.4
15.9
26.1
40.0
48.6
17.7
30.5
47.1
57.2
19.2
31.3
47.7
57.8
17.2
29.3
46.3
57.1
46.1
55.5
13.5
18.3
30.3
26.4
44.9
69.4
84.4
D6ST-300X
6 .6 *
21.3
28.5
46.8
71.2
85.9
D6ST-320X
6 .6 *
21.3
28.5
46.8
71.2
85.9
D6SU-400X
9.4*
26.6
35.0
56.2
84.4
101.5
30.7
52.1
80.9
98.6
32.9
53.8
81.2
97.6
D6SJ-400X
D6SK-500X
D8SH-370X
7.9*
24.6
8.4*
28.7
D8SH-500X
D8SJ-450X
D8SJ-600X
33.7
55.6
85.9
105.0
38.8
64.7
99.5
1 2 1 .0
38.9
64.7
99.6
121.5
D4SA-200X
D4SF-100X
68.6
D4SH-250X
81.2
D4SJ-300X
D4SL-150X
D4ST-200X
83.8
4.4*
D3SS-150X
142.5
10 .2
10 .0
1 2 .1
13.1
8.0
10.5
12.7
13.6
9.8
12.9
15.7
16.9
1 0 .2
13.3
16.3
17.6
1 1 .2
15.1
18.5
19.9
15.8
19.5
21.3
1 2 .0
11.3
15.0
18.3
19.8
15.3
18.7
2 0 .2
9.6
11.5
16.6
22.3
27.8
30.2
D6ST-300X
1 0 .0 *
15.5
18.3
23.9
29.3
31.8
D6ST-320X
1 0 .0 *
15.5
18.3
23.9
29.3
31.8
D6SU-400X
12.4*
18.7
22 .0
28.8
35.5
38.6
19.9
26.5
32.9
35.8
27.6
33.7
36.3
D6SJ-400X
D6SK-500X
1 1 .2 *
17.6
20.9
23.0
29.1
34.6
36.9
13.4*
20 .6
24.4
32.0
39.1
42.2
24.3
31.8
38.9
42.1
D8SH-500X
D8SJ-450X
174.5
6.7*
8.6
7.5
6 .1 *
D8SH-370X
150.5
5.6*
6.8
D6SA-300X
D6SF-200X
12 1.0
4.4*
D8SJ-600X
18.8
22 .0
21.9
34.3
40.0
40.1
47.2
Suction Gas Return 20°C / Subcooling 0K
*Suction Superheat 10K / Subcooling 0K
High Discharge Temp - Additional cooling required
Condensing Temperature 40°C
Cooling Capacity (kW)
R407C
Model
-30
Power Input (kW)
R407C
Evaporating Temperature (°C)
Model
Evaporating Temperature (°C)
-2 0
-1 0
-5
5
10
15
-2 0
-1 0
-5
5
10
15
D4SA-200X
15.7*
27.1
33.7
50.6
61.2
73.3
D4SA-200X
-30
7.9*
9.8
10.7
1 2 .0
12.4
12.5
D4SH-250X
19.1*
33.5
41.9
63.3
76.6
92.0
D4SH-250X
9.8*
12.4
13.5
15.3
15.9
16.3
D4SJ-300X
2 2 .8 *
40.5
50.5
75.3
90.4
107.5
D4SJ-300X
1 1 .8 *
15.3
16.8
18.9
19.6
19.9
D6SA-300X
20 .1 *
37.3
47.2
72.3
87.9
106.0
D6SA-300X
11.9*
14.7
15.9
18.0
18.7
19.2
D6SJ-400X
34.3*
59.9
74.7
1 1 2 .0
135.0
162.0
D6SJ-400X
17.6*
22.5
24.7
28.2
29.3
29.8
D6SK-500X
38.6*
70.8
89.1
135.0
163.0
195.5
D6SK-500X
2 1 .1 *
26.7
29.2
33.2
34.7
35.7
D8SJ-600X
48.8*
86.4
107.5
160.5
193.0
230.0
D8SJ-600X
25.2*
32.7
35.8
40.5
41.8
42.3
D8SK-700X
53.8*
98.2
124.0
189.0
229.0
276.0
D8SK-700X
29.7*
38.1
41.9
47.7
49.5
50.2
Suction Gas Return 20°C / Subcooling 0K
*Suction Superheat 10K / Subcooling 0K
74
http://holodko.ru/
Capacity Data
Condensing Temperature 40°C
Cooling Capacity (kW)
R134a
Model
D2SA-45X
-30
Power Input (kW)
R134a
Evaporating Temperature (°C)
-2 0
-1 0
-5
5
10
4.2
7.0
8.9
13.7
16.8
15
Model
D2SA-45X
Evaporating Temperature (°C)
-30
-2 0
-1 0
-5
5
10
2.5
3.0
3.3
3.6
3.7
4.6
D2SC-55X
5.2
8.5
10.7
16.2
19.7
D2SC-55X
2.9
3.6
4.0
4.5
D2SK-65X
5.7
9.5
12 .0
18.3
2 2 .2
D2SK-65X
3.3
4.2
4.5
5.1
5.4
D3SC-75X
6.9
11.3
14.3
22 .0
27.0
D3SC-75X
3.8
4.8
5.4
6.4
6.9
D3SS-100X
9.0
14.9
18.7
28.8
35.3
D3SS-100X
5.0
6.4
7.1
8.3
8.8
D4SA-100X
11.3
18.6
23.1
34.4
41.3
D4SA-100X
5.2
6.6
7.3
8.4
8.8
D4SF-100X
10.3
17.7
22.4
34.4
41.9
D4SF-100X
5.4
6.9
7.6
8.7
9.1
D4SH-150X
1 2 .2
21.5
27.4
42.3
51.5
D4SH-150X
6.3
8 .2
9.0
10.3
10.5
D4SL-150X
13.6
23.0
29.0
44.1
53.6
D4SL-150X
6.8
8.7
9.6
1 1 .2
1 1 .8
D4SJ-200X
17.0
28.0
34.9
52.1
62.6
D4SJ-200X
8.2
10.7
11.9
14.1
15.0
14.3
D4ST-200X
16.5
27.7
34.8
52.9
64.2
D4ST-200X
8.1
10.5
1 1 .6
13.6
D6SF-200X
16.1
27.2
34.4
52.6
63.8
D6SF-200X
7.9
10 .2
11.3
13.2
13.9
D6SH-200X
20.5
33.2
41.4
62.0
74.9
D6SH-200X
10.5
13.1
14.5
16.9
17.9
D6SJ-300X
23.9
39.6
49.7
75.3
91.3
D6SJ-300X
1 2 .2
15.6
17.3
20.4
2 1 .6
D6ST-300X
24.0
41.1
52.1
79.8
97.1
D6ST-300X
12.4
15.9
17.6
20.4
21.4
D6ST-320X
24.2
41.3
52.2
79.9
97.2
D6ST-320X
12.3
15.9
17.6
20.5
21.7
D6SU-400X
29.9
49.6
62.1
93.9
113.5
D6SU-400X
15.2
19.2
2 1.1
24.5
25.9
D6SK-400X
27.0
45.5
57.4
88.0
107.0
D6SK-400X
13.7
18.2
20.3
23.6
24.7
D8SH-370X
28.8
47.9
60.1
90.9
1 1 0 .0
D8SH-370X
14.8
18.7
20.6
23.8
25.1
D8SH-400X
27.7
46.7
58.8
89.7
109.0
D8SH-400X
14.0
18.2
20.0
22 .8
23.7
D8SJ-500X
31.9
54.0
68.1
104.0
126.5
D8SJ-500X
17.6
2 2 .1
24.3
28.1
29.6
D8SJ-450X
33.4
57.4
72.7
111.5
135.5
D8SJ-450X
16.8
21.5
23.7
27.3
28.5
D8SK-600X
36.1
62.4
79.9
123.0
148.0
D8SK-600X
18.9
24.7
27.6
32.4
33.9
15
Suction Gas Return 20°C / Subcooling 0K
75
http://holodko.ru/
Capacity Data
Condensing Temperature 40°C
Cooling Capacity (kW)
R22
Model
Evaporating Temperature (°C)
-45
D2SA-45X
D2SA-45X Air
1 .1 *
-35
-30
-2 0
-1 0
-5
2.4*
3.5*
6.9
10.9
13.4
3.3
4.5
7.4
11.5
14.0
6.6
10.9
13.6
8.4
13.7
16.9
9.4
14.6
17.8
10.3
16.1
19.8
D2SA-55X
D2SC-55X
D2SC-55X Air
1.3*
2.4*
4.0*
4.0
5.4
D2SC-65X
D2SK-65X
3.6*
5.4*
Power Input (kW)
R22
5
Model
Evaporating Temperature (°C)
-45
D2SA-45X
D2SA-45X Air
20.4
1.7*
-30
-2 0
-1 0
-5
2.4*
2.9*
3.8
4.6
4.9
2.5
3.0
D2SA-55X
D2SC-55X
D2SC-55X Air
25.6
-35
2 .1 *
2.9*
3.5*
3.1
3.6
3.7*
4.3*
D2SC-65X
D2SK-65X
3.8
4.6
4.9
3.8
4.5
4.7
4.6
5.5
5.9
5.3
6.3
6.7
5.5
6.6
7.1
5
5.2
7.3
D3SA-75X
9.5
15.5
19.3
29.0
D3SA-75X
5.1
6.1
6.6
7.2
D3SC-100X
11.7
18.6
23.0
34.4
D3SC-100X
6.3
7.4
7.9
8.6
12 .0
19.4
23.9
6.0
7.5
8.2
D3SC-750-DTC
2.0
4.9
6.8
16.4
25.6
31.4
2.6
6.7
9.4
16.3
25.7
31.5
9.2*
16.8*
27.0*
33.3*
D3SS-150X
D3SS-1000-DTC
D4SF-100X
D3SC-750-DTC
46.0
2.6
3.9
4.6
8.6
10.3
1 1 .1
3.5
5.6
6.6
8.6
10.7
11.9
7.0*
9.0*
1 0 .8 *
11.5*
D3SS-150X
D3SS-1000-DTC
D4SF-100X
12.3
D4SA-200X
18.0*
29.2
36.0
52.7
D4SA-200X
9.0*
10.7
11.4
12.4
D4SH-250X
2 2 .6 *
37.2
45.9
67.2
D4SH-250X
11.3*
13.6
14.6
16.0
D4SL-150X
D4SL-1500-DTC
4.5
9.7
13.0*
22.4*
35.8
44.0
D4SL-150X
13.3
22.7
35.8
44.0
D4SL-1500-DTC
25.7*
43.5
53.9
15.0*
26.1*
42.0
51.6
D4ST-200X
15.3
26.4
41.9
51.6
D4ST-2000-DTC
24.6*
41.9
52.0
13.8*
24.8*
39.7*
48.9*
2 2 .1
38.0
60.0
73.6
37.2*
63.2
78.3
D4SJ-300X
D4ST-200X
D4ST-2000-DTC
5.2
1 1 .2
D6SA-300X
D6SF-200X
D6ST-3200-DTC
7.3
16.1
D6SJ-400X
D6SU-4000-DTC
9.7
2 1 .2
28.9
D6SK-500X
D8SH-370X
27.1*
D8SJ-450X
31.6*
D8SJ-600X
D8SK-700X
49.5
77.9
95.5
45.8*
76.2
94.1
46.7*
72.3*
87.6*
76
76.8
7.8
9.1*
1 1 .8 *
14.2
15.4
9.1
11 .8
14.2
15.4
13.1*
16.1
17.4
D4SJ-300X
6.1
8.9
10.4*
13.5*
16.5
18.0
10.4
13.5
16.5
18.0
13.4*
16.2
17.3
10.5*
13.8*
16.6*
17.7*
15.7
20.5
25.8
28.5
2 0 .2 *
24.5
26.4
D6SA-300X
D6SF-200X
D6ST-3200-DTC
115.5
D6SJ-400X
139.0
D6SK-500X
D6SU-4000-DTC
9.0
1 1 .6
13.4
16.9
19.7
25.1
30.3
32.7
23.1*
28.4
30.7
19.5
19.0
29.3
34.3
D8SH-370X
18.9*
24.5*
29.2*
31.0*
D8SJ-450X
21.4*
28.3*
34.4*
36.9*
28.9*
35.0
37.6
41.6
33.8*
41.1
44.3
49.2
55.1*
87*
107*
53.8*
92.0
114.0
168.5
D8SJ-600X
62.8*
103.5
127.5
191.0
D8SK-700X
Suction Gas Return 20°C / Subcooling 0K
*Suction Superheat 10K / Subcooling 0K
High Discharge Temp - Additional cooling required
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79.6
5.3
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Condensing Units
Emerson Climate Technologies offers the broadest and most
Copeland Scroll™ indoor condensing units are equipped with the
reliable condensing unit product line-up. Leveraging the latest
latest refrigeration scroll compressors and constitute the widest
compressor technology, each platform provides you the option
range of their kind. The modular line concept offers base units
to select the refrigerant, capacity and application temperature
which can be adapted to the target application by various options
combinations that m eet your requirements. A huge variety
including weather housings and fan speed controls.
of Copeland™ indoor and outdoor condensing units offer the
right solution for applications in food retail and food service,
Copeland Scroll™ Digital Receiver Units HLR are an innovative
commercial and industrial refrigeration.
offering for food service and retail businesses. Their compact
design and the power of digital scroll continuous capacity
Copeland EazyCool Scroll™ Outdoor Condensing Units are
modulation enable optimized environmental integration with
designed and fully equipped for a quick and easy installation
highest system efficiency.
and ideal to integrate into urban environments. The latest scroll
technology is combined with high quality Alco components and
Semi-hermetic condensing units: robust, reliable and efficient
covered by a weatherproof housing in a unique design.
air-cooled condensing unit platforms featuring semi-hermetic
reciprocating compressor technology are for use in high, medium
The Copeland EazyCool™ Outdoor Condensing Unit ZX Series
and low temperature refrigeration applications. Products range
offers the highest energy efficiency available in a standard unit
from 0.8 to 40 hp and are available for R404A, R407A/C, R134a
to lower operators' utility bills. Ranging in size from 2 to 7.5 hp,
and R22 refrigerants.
the ZX units are perfectly suited for typical food service and
retail applications. The key benefits of compactness, silence
and efficiency in the standard models will be enhanced by the
capability of continuous capacity modulation of the ZX Digital
models. This makes ZX Digital condensing units the perfect fit for
applications with wide load variations.
79
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Copeland EazyCool™ Outdoor Condensing Units with Scroll Compressors
Copeland™ air-cooled outdoor condensing units for medium
temperature and low temperature applications.
Emerson Climate Technologies has developed this series of
condensing units especially for outdoor use. The latest Scroll
technology is combined with high quality components and
covered by an absolutely weather resistant synthetic resin
housing in a unique design.
The EazyCool line-up offers state-of-the-art technology and
models featuring stepless capacity control, vapor injection
and fan speed control. This makes it the first choice for target
applications in food retail and food service:
- Proxim ity and convenience stores
- Mini markets and supermarkets
- Bars, restaurants and kitchens
- Beer cellars and beverage coolers
EazyCool OLQ/OMQ Line-up
Medium Temperature
•
• M
Low Temperature
•
• M
• •
•
• •
• •
•
•
•
•
•
•
•
•I
•
C ap acity (k W )
5
0
10
15
25
20
Conditions EN13215 R404A: Evaporating Temperature MT -10°C/ LT - 35°C, Ambient Temperature 32°C, Suction Gas Return 20°C
EazyCool Digital Line-up
Medium Temperature
•
Low Temperature
•
• •
•
•
•
•
C ap acity (k W )
0
5
10
15
20
Conditions EN13215 R404A: Evaporating Temperature MT -10°C/ LT - 35°C, Ambient Temperature 32°C, Suction Gas Return 20°C
Features and Benefits
Maximum Allowable Pressure (PS)
•
•
•
•
•
•
•
Standard equipment: Scroll compressor(s), crankcase
heater(s), condenser with therm ally protected fan(s), fan
speed control, HP and LP switch, liquid receiver, filter drier &
sight glass, weather resistant housing
Suitable for multiple refrigerants: R134a, R407A, R407C and
R22
Wide range of quality accessories
Excellent efficiency
Filter drier, liquid sight glass and solenoid valve in liquid line
80
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—
Low Side PS 22.5 bar (g)
High Side PS 28 bar (g)
25
30
Technical Overview
Receiver
Capacity (l)
Number of
fans
3.4
7.5
1
145
7/8"
1 /2 "
1050/630/720
74
PFJ
TFD
4.6
7.5
1
145
7/8"
1 /2 "
1050/630/720
84
PFJ
TFD
16
7
82
40
35
5.4
7.5
1
145
7/8"
1 /2 "
1050/630/720
85
PFJ
TFD
18
9
97
46
35
6.0
7.5
1
145
7/8"
1 /2 "
1050/630/720
98
-
TFD
-
10
-
49
36
OMQ-38
8.2
7.5
1
145
7/8"
1 /2 "
1250/642/720
99
-
TFD
-
13
-
66
37
OMQ-45
9.2
7.5
1
145
7/8"
1 /2 "
1250/642/720
118
-
TFD
-
13
-
74
39
OMQ-56
11.5
17.7
2
290
1 3/8"
5/8"
2100/670/950
224
-
TWD
-
15
-
99
44
OMQ-75
15.3
17.7
2
290
1 3/8"
5/8"
2100/670/950
224
-
TWD
-
22
-
127
44
OMQ-92
20.5
17.7
2
550
1 3/8"
3/4"
2100/670/950
246
-
TWD
-
25
-
167
46
OMQ-110
23.7
17.7
2
550
1 5/8"
3/4"
2100/670/950
255
-
TWD
-
29
-
198
47
OMTQ-60
13.0
17.7
2
290
1 3/8"
5/8"
2100/670/950
209
-
TFD
-
2 x 10
-
2x49
42
OMTQ-76
15.1
17.7
2
290
1 3/8"
5/8"
2100/670/950
211
-
TFD
-
2x13
-
2 x66
43
OMTQ-90
19.9
17.7
2
550
1 3/8"
3/4"
2100/670/950
225
-
TFD
2x13
-
2x74
45
98
-
TFD
8
-
52
36
R404A
Suction
Line
Diameter
(inch)
Liquid
Line
Diameter
(inch)
Width/Depth/
Height
(mm)
Net Weight
(kg)
Capacity (kW)
Maximum
Operating
Current, A
Total Fan
Motor
Power (W)
Motor Version/
Code
Locked Rotor
Current, A
Sound
Pressure
1 Ph*
3 Ph**
1 Ph*
3 Ph**
1 Ph*
3 Ph**
@ 10 m d(BA)***
13
5
58
26
34
Medium Temperature Models
OMQ-15
OMQ-21
OMQ-26
OMQ-30
Digital Medium Temperature Models
OMQ-30D
6 .2
7.5
1
145
7/8"
1 /2 "
1050/630/720
-
OMQ-45D
9.6
7.5
1
145
7/8"
1 /2 "
1250/642/720
118
-
TFD
-
12
-
74
39
OMTQ-60D
13.1
17.7
2
290
1 3/8"
5/8"
2100/670/950
209
-
TFD
-
8 + 10
-
52+49
42
OMTQ-90D
19.9
17.7
2
550
1 3/8"
3/4"
2100/670/950
225
-
TFD
-
11+13
-
2x74
45
OLQ-09
1.9
7.5
1
145
7/8"
1 /2 "
1050/630/720
83
-
TFD
-
6
-
40
34
OLQ-11
2.4
7.5
1
145
7/8"
1 /2 "
1050/630/720
86
-
TFD
-
7
-
46
35
OLQ-13
2.7
7.5
1
145
7/8"
1 /2 "
1050/630/720
96
-
TFD
-
8
-
52
36
OLQ-15
3.4
7.5
1
145
7/8"
1 /2 "
1250/642/720
10 0
-
TFD
-
10
-
64
37
OLQ-18
5.9
7.5
1
145
7/8"
1 /2 "
1250/642/720
119
-
TFD
-
13
-
74
39
OLQ-24V
7.2
17.7
2
290
1 3/8"
5/8"
2100/670/950
228
-
TWD
-
16
-
99
44
OLQ-33V
9.9
17.7
2
550
1 3/8"
5/8"
2100/670/950
228
-
TWD
-
21
-
127
44
OLQ-40V
11.9
17.7
2
550
1 3/8"
3/4"
2100/670/950
238
-
TWD
-
27
-
167
46
OLQ-48V
14.7
17.7
2
550
1 5/8"
3/4"
2100/670/950
259
-
TWD
-
31
-
198
47
OLTQ-26V
8.0
17.7
2
551
1 3/8"
5/8"
2100/670/950
221
-
TFD
-
2x9
-
2x51
42
OLTQ-36V
11.9
17.7
2
552
1 3/8"
3/4"
2100/670/950
235
-
TFD
-
2x14
-
2x74
45
Low Temperature Models
Digital Low Temperature Models
OLQ-18DV
5.9
7.5
2
145
7/8"
1 /2 "
2100/670/950
189
-
TFD
-
14
-
74
39
OLTQ-36DV
11.9
17.7
2
550
1 3/8"
3/4"
2100/670/950
235
-
TFD
-
2x14
-
2x74
45
Conditions EN13215: R404A, Evaporating Temperature MT -10°C/ LT - 35°C, Ambient Temperature 32°C, Suction Gas Return 20°C
* 1 Ph: 230V/ 50Hz
** 3 Ph: 380-420V/ 50Hz
*** @ 1 0 m: sound pressure level at 1 0 m distance from the compressor, free field condition
81
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Capacity Data
Cooling Capacity (kW)
Power Input (kW)
Ambient Temperature: 32°C
R404A
-45
-35
-30
-2 0
-1 0
-5
5
1.4
2.3
3.4
OMQ-21
2 .0 *
3.3
OMQ-26
2.3*
3.9
2 .6 *
4.3
0MQ-30
2 .0 *
Evaporating Temperature (°C)
-45
Medium Temperature Models
OMQ-15
Ambient Temperature: 32°C
R404A
Evaporating Temperature (°C)
-35
-30
-2 0
-1 0
-5
5
2.0
2 .1
3.4
Medium Temperature Models
3.9
5.2
OMQ-15
1.8
4.6
5.3
6.7
OMQ-21
2.5
2.8
3.0
3.1
5.4
6.2
8.1
OMQ-26
2.9
3.2
3.4
3.5
3.8
6.0
6.9
8.9
OMQ-30
3.4
3.8
4.1
4.3
4.7
3.3
1.9
2.0
OMQ-38
2.7*
3.5
5.8
8.2
9.5
12.4
OMQ-38
3.8
3.9
4.3
4.6
4.8
5.2
OMQ-45
3.1*
3.9*
6.6
9.2
10 .6
13.7
OMQ-45
4.5
4.6
5.1
5.5
5.7
6.2
5.6*
8.3
11.5
13.4
17.4
OMQ-56
5.7
6 .2
6.7
6.9
7.5
8 .2
9.3
9.8
10.9
9.1
1 0 .2
1 1 .2
1 1 .8
13.1
12.7
14.1
14.8
16.4
8.4
OMQ-56
OMQ-75
OMQ-92
10 .2
OMQ-110
11.3
15.3
17.4
2 2 .1
OMQ-75
14.9
20.5
23.7
30.7
OMQ-92
17.3
23.7
27.3
35.1
OMQ-110
19.6
OMTQ-60
4.3*
5.5
9.4
13.1
15.1
OMTQ-76
5.1*
6.5
1 1 .1
15.1
17.3
OMTQ-60
6.2
6.4
7.0
7.5
7.8
OMTQ-76
8.1
8.4
9.3
1 0 .1
10 .6
OMTQ-90
6.5*
9.5
14.2
19.9
23.1
30.2
OMTQ-90
8.7
9.1
9.7
10.3
10.7
11.5
4.5
5.2
6.6
OLQ-09
2.0
2.0
2.6
2.7
3.2
Low Temperature Models
2.3
3.3
Low Temperature Models
OLQ-09
1.9
2.3
OLQ-11
2.4
2.8
3.9
5.2
5.9
7.5
OLQ-11
2.4
2.5
2.8
3.2
3.5
4.1
OLQ-13
2.7
3.3
4.7
6.3
7.1
9.0
OLQ-13
2.6
2.7
3.1
3.6
3.9
4.5
OLQ-15
3.4
4.2
6.1
8.3
9.5
1 2 .2
OLQ-15
3.0
3.2
3.6
4.2
4.5
5.3
OLQ-18
4.1
5.0
7.1
9.6
10.9
13.8
OLQ-18
3.7
3.9
4.4
5.0
5.3
6.1
OLQ-24V
7.2
8.8
12.3
16.4
18.6
23.3
OLQ-24V
5.6
6.0
6.9
7.9
8.6
1 0 .1
OLQ-33V
9.9
12 .0
16.9
2 2 .8
26.2
33.7
OLQ-33V
7.5
7.9
8.9
10 .0
10.7
12.3
OLQ-40V
11.9
15.0
21.5
28.5
32.1
39.3
17.5
OLQ-48V
14.7
17.7
24.1
30.9
34.4
OLTQ-26V
8.0
9.7
13.9
19.3
22.5
OLQ-40V
8.7
9.9
1 2 .0
14.1
15.1
OLQ-48V
1 1 .2
1 2 .2
14.8
18.2
20.3
30.1
OLTQ-26V
6.3
6.6
7.3
8.1
8.5
9.4
Digital Medium Temperature Models
Digital Medium Temperature Models
OMQ-30D
2 .8 *
4.6
6.2
7.0
8.8
OMQ-30D
2.5
OMQ-45D
3.6*
6.6
9.6
11.4
15.5
OMQ-45D
4.2
3.2
3.7
3.9
4.5
4.8
5.5
5.9
6.9
OMTQ-60D
5.7*
9.5
13.1
15.2
19.7
OMTQ-60D
5.6
6.5
7.2
7.5
8.3
OMTQ-90D
7.9*
13.9
20.0
23.5
31.5
OMTQ-90D
8.7
9.6
10.4
10.9
1 2 .1
Digital Low Temperature Models
Digital Low Temperature Models
OLQ-18DV
5.9
6.9
9.5
1 2 .8
14.7
OLQ-18DV
4.5
4.9
5.8
7.0
7.7
OLTQ-36DV
11.9
14.1
19.5
26.4
30.6
OLTQ-36DV
8.8
9.4
10.9
1 2 .6
13.6
Conditions: EN13215: Suction Gas Return 20°C, Subcooling 0K
* Conditions: EN13215: Suction Superheat 10K
82
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—
Capacity Data
Cooling Capacity (kW)
Power Input (kW)
Ambient Temperature: 32°C
R407C
-45
-35
-30
-2 0
-5
-1 0
Ambient Temperature: 32°C
R407C
Evaporating Temperature (°C)
5
Evaporating Temperature (°C)
-45
Medium Temperature Models
OMQ-15-TFD
1.9*
OMQ-21-PFJ
2.4*
3.8*
OMQ-21-TFD
2.7*
4.1*
4.3*
OMQ-26-PFJ
-35
-30
-1 0
-5
5
1.4
1.5
1 .6
1.7
-2 0
Medium Temperature Models
2.9
3.5
4.9
OMQ-15-TFD
4.7
6.5
OMQ-21-PFJ
2 .2
2.4
2.6
2.9
4.9
6.9
OMQ-21-TFD
2.3
2.5
2.7
3.0
5.1*
7.2
OMQ-26-PFJ
3.0
3.2
3.7
OMQ-26-TFD
2 .8 *
4.4*
5.5
7.8
OMQ-26-TFD
2.4
2.6
2.8
3.1
OMQ-30-TFD
3.4*
5.3*
6.4
8.9
OMQ-30-TFD
2.9
3.3
3.6
4.1
OMQ-38-TFD
4.1*
6 .8 *
8.5
1 2 .2
OMQ-38-TFD
3.2
3.6
3.8
4.4
OMQ-45-TFD
5.9*
8 .0 *
10 .0
13.8
OMQ-45-TFD
3.9
4.4
4.7
5.4
OMQ-56-TWD
6.9*
10.4*
12.7
17.4
OMQ-56-TWD
5.3
5.8
6.1
6.6
OMQ-75-TWD
9.3*
13.7*
16.2*
2 2 .2
OMQ-75-TWD
6.7
7.7
8.2
9.4
OMQ-92-TWD
1 2 .0 *
17.8*
21.7
29.6
OMQ-92-TWD
8.4
9.4
10 .0
1 1 .1
OMQ-110-TWD
14.2*
2 1 .1 *
25.6
34.7
OMQ-110-TWD
10 .6
1 2 .0
1 2 .8
14.4
OMTQ-60-TFD
7.2*
11.3*
13.9
19.3
OMTQ-60-TFD
5.6
6 .2
6.6
7.4
OMTQ-76-TFD
8. 1 *
12.9*
15.7*
22.3
OMTQ-76-TFD
6.8
7.8
8.4
9.8
OMTQ-90-TFD
1 0 .6 *
17.0*
2 1 .0
29.3
OMTQ-90-TFD
7.8
8.6
9.1
1 0 .1
-5
5
Conditions: EN13215: Suction Gas Return 20°C, Subcooling 0K
* Conditions: EN13215: Suction Superheat 10K
R134a
Cooling Capacity (kW)
Power Input (kW)
Ambient Temperature: 32°C
Ambient Temperature: 32°C
R134a
Evaporating Temperature (°C)
-45
-35
-30
-2 0
-1 0
-5
5
Evaporating Temperature (°C)
-45
Medium Temperature Models
-35
-30
-2 0
-1 0
Medium Temperature Models
OMQ-15-TFD
1.4
2.2
2.7
3.9
OMQ-15-TFD
1 .0
1 .1
1 .1
1 .2
OMQ-21-PFJ
1.8
3.0
3.6
5.1
OMQ-21-PFJ
1.4
1.5
1 .6
1.7
OMQ-21-TFD
2.0
3.1
3.8
5.4
OMQ-21-TFD
1.4
1.5
1.6
1.8
OMQ-26-PFJ
2 .0 *
3.3
4.0
5.7
OMQ-26-PFJ
1.8
1.9
2.0
2.1
OMQ-26-TFD
2.3
3.6
4.4
6.3
OMQ-26-TFD
1.6
1.7
1.8
2.0
OMQ-30-TFD
2.5*
4.2
5.1
7.2
OMQ-30-TFD
1.9
2.0
2.1
2.4
OMQ-38-TFD
3.1*
5.3
6.5
9.4
OMQ-38-TFD
2.1
2.3
2.4
2.6
OMQ-45-TFD
3.9*
6.3
7.7
1 1 .0
OMQ-45-TFD
2.5
2.7
2.9
3.2
OMQ-56-TWD
4.6*
7.3*
9.1
13.0
OMQ-56-TWD
3.3
3.6
3.7
4.0
OMQ-75-TWD
6.4*
9.8*
12.3
17.2
OMQ-75-TWD
4.0
4.6
4.9
5.6
OMQ-92-TWD
8. 1 *
1 2 .6 *
15.7
2 2 .2
OMQ-92-TWD
5.4
5.9
6 .2
6.8
OMQ-110-TWD
9.9*
15.2*
19.0
26.6
OMQ-110-TWD
6.6
7.3
7.8
8.6
Conditions: EN13215: Suction Gas Return 20°C, Subcooling 0K
* Conditions: EN13215: Suction Superheat 10K
83
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Capacity Data
Cooling Capacity (kW)
R407A
Power Input (kW)
R407A
Ambient Temperature: 32°C
Ambient Temperature: 32°C
Evaporating Temperature (°C)
Model
-45
-35
-30
-2 0
Evaporating Temperature (°C)
-1 0
-5
5
Model
-45
-35
-30
-2 0
-1 0
-5
5
OMQ-15-TFD
2.1
3.3
3.9
5.4
OMQ-15-TFD
1.7
1.8
1.9
2.1
OMQ-21-TFD
2.9
4.4
5.2
7.0
OMQ-21-TFD
2.5
2.8
3.0
3.2
OMQ-26-TFD
3.3
5.2
6.1
8.4
OMQ-26-TFD
2.7
3.0
3.2
3.6
OMQ-30-TFD
3.9
6.1
7.2
9.5
OMQ-30-TFD
3.3
3.7
4.0
4.6
OMQ-38-TFD
5.2
8.1
9.7
13.2
OMQ-38-TFD
3.6
4.0
4.2
4.8
OMQ-45-TFD
5.9
9.0
10 .6
14.2
OMQ-45-TFD
4.4
5.0
5.3
5.9
OMTQ-60-TFD
6.3*
1 1 .1 *
14.0
20.4
OMTQ-60-TFD
5.7*
6 .2 *
6.5
7.3
OMTQ-76-TFD
9.4*
14.3*
17.3*
24.0
OMTQ-76-TFD
6.9*
7.8*
8.3*
9.6
OMTQ-90-TFD
12.9*
19.3*
23.1
31.5
OMTQ-90-TFD
8 .6 *
9.2*
9.5
10.4
Conditions: EN13215: Suction Gas Return 20°C, Subcooling 0K
* Suction Superheat 10K
84
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Copeland EazyCool™ Outdoor Condensing Units for Refrigeration Networks
Copeland™ outdoor condensing unit networks for medium
temperature and low temperature applications.
Emerson Climate Technologies has developed this version of
outdoor scroll condensing units with interconnectivity in order
to create medium and large size refrigeration network systems.
The EazyCool condensing unit networks perfectly fit in
applications where larger cooling capacities and capacity
modulation are required.
Typical applications are:
- Cold and freeze stores
- Discount and convenience stores
- Supermarkets and mini-markets
- Petrol station forecourts
Copeland EazyCool Outdoor Condensing Units
for Refrigeration Networks
Copeland EazyCool Network Line-up
Medium Temperature
Low Temperature
• • •
•
•
•
• • M
M
N
M
t a N
•
M
H
M t
* * *
•
• •
•
« M
•
M
•
•
•
•
•
•
•
•
• •
C ap acity (k W )
10
20
30
40
50
60
70
80
Conditions EN13215 R404A: Evaporating Temperature MT -10°C/LT -35°C, Ambient Temperature 32°C, Suction Gas Return 20°C
Features and Benefits
Standard equipment: Copeland Scroll™ compressor(s),
crankcase heater(s), condenser with therm ally protected
low speed fan(s), fan speed controller, oil separator, suction
and liquid equalization lines, HP and LP switch, oil reservoir,
EC2 Electronic controller, weather resistant housing
Oil control system with oil separator, TRAX OIL on each
compressor, oil distribution lines and additional liquid
receiver unit for large networks
LON Master/Slave communication
Capacity modulation with up to 8 compressors or stepless
with Digital Scroll™
Perfect capacity adjustment by a wide range of combination
opportunities
86
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Maximum Allowable Pressures (PS)
Low Side PS 22.5 bar(g)
High Side PS 28 bar(g)
90
100
Capacity Data - OMQ
R404A
Medium Temperature (-10/+32°C)
Cooling
Capacitiy
(kW)
Motor
Capacity
(kW )
28.0
14.8
OMQ75 NLO
+
OMQ56 NL
32.2
17.1
OMQ75 NLO
+
OMQ75 NL
OMQ75 NL
OMQ92 NL
Model Configuration
2 Condensing Units Network
36.0
19.7
OMQ92 NLO
+
39.8
2 2 .2
OMQ92 NLO
+
OMQ 92 NL
0MQ110 NL
42.8
25.1
0MQ110 NLO
+
45.8
28.0
0MQ110 NLO
+
0MQ56 N
+
0MQ56 N
3 Condensing Units Network
39.8
2 1 .0
OMQ75 NO
+
44.0
23.3
OMQ75 NO
+
0MQ75 N
+
0MQ56 N
48.3
25.7
OMQ75 NO
+
0MQ75 N
+
0MQ75 N
0MQ75 N
52.1
28.2
OMQ92 NO
+
0MQ75 N
+
55.9
30.8
OMQ92 NO
+
0MQ92 N
+
0MQ75 N
59.7
33.3
OMQ92 NO
+
0MQ92 N
+
0MQ92 N
0MQ92 N
62.7
36.2
OMQ110 NO
+
0MQ92 N
+
65.7
39.1
OMQ110 NO
+
0MQ110 N
+
0MQ92 N
68.7
42.0
OMQ110 NO
+
0MQ110 N
+
0MQ110 N
51.6
27.2
OMQ75 NO
+
0MQ56 N
+
0MQ56 N
+
0MQ56 N
55.9
29.5
OMQ75 NO
+
0MQ75 N
+
0MQ56 N
+
0MQ56 N
0MQ75 N
+
0MQ75 N
+
0MQ56 N
0MQ75 N
+
0MQ75 N
+
0MQ75 N
0MQ75 N
4 Condensing Units Network
60.1
31.9
OMQ75 NO
+
64.4
34.2
OMQ75 NO
+
68 .2
36.8
OMQ92 NO
+
0MQ75 N
+
0MQ75 N
+
72.0
39.3
OMQ92 NO
+
0MQ92 N
+
0MQ75 N
+
0MQ75 N
75.8
41.9
OMQ92 NO
+
0MQ92 N
+
0MQ92 N
+
0MQ75 N
0MQ92 N
79.6
44.4
OMQ92 NO
+
0MQ92 N
+
0MQ92 N
+
82.6
47.3
OMQ110 NO
+
0MQ92 N
+
0MQ92 N
+
0MQ92 N
85.6
50.2
OMQ110 NO
+
0MQ110 N
+
0MQ92 N
+
0MQ92 N
0MQ110 N
+
0MQ110 N
+
0MQ92 N
0MQ110 N
+
0MQ110 N
+
0MQ110 N
88.6
53.1
OMQ110 NO
+
91.6
56.0
OMQ110 no
+
Conditions: EN13215: Suction Gas Return 20°C, Suction Superheat 10K
87
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Capacity Data - OLQ
R404A
Low Temperature (-35/+32°C)
Cooling
Capacitiy
(kW)
Motor Capacity
(kW )
16.4
13.9
Model Configuration
2 Condensing Units Network
OLQ33V NLO
+
OLQ24V NL
OLQ33V NL
18.7
16.4
OLQ33V NLO
+
20.9
17.0
0LQ40V NLO
+
OLQ33V NL
23.0
17.6
0LQ40V NLO
+
OLQ40V NL
OLQ40V NL
25.4
20 .6
OLQ48V NLO
+
27.8
23.6
OLQ48V NLO
+
OLQ48V NL
3 Condensing Units Network
23.4
19.6
OLQ33V NO
+
OLQ24V N
+
OLQ24V N
25.7
2 2 .1
OLQ33V NO
+
OLQ33V N
+
OLQ24V N
28.1
24.6
OLQ33V NO
+
OLQ33V N
+
OLQ33V N
30.2
25.2
OLQ40V NO
+
OLQ33V N
+
OLQ33V N
32.4
25.8
OLQ40V NO
+
OLQ40V N
+
OLQ33V N
OLQ40V N
34.5
26.4
OLQ40V NO
+
OLQ40V N
+
36.9
29.4
OLQ48V NO
+
OLQ40V N
+
OLQ40V N
39.3
32.4
OLQ48V NO
+
OLQ48V N
+
OLQ40V N
OLQ48V NO
+
OLQ48V N
+
OLQ48V N
41.7
35.4
4 Condensing Units Network
30.4
25.3
OLQ33V NO
+
OLQ24V N
+
OLQ24V N
+
OLQ24V N
OLQ24V N
32.7
27.8
OLQ33V NO
+
OLQ33V N
+
OLQ24V N
+
35.1
30.3
OLQ33V NO
+
OLQ33V N
+
OLQ33V N
+
OLQ24V N
37.4
32.8
OLQ33V NO
+
OLQ33V N
+
OLQ33V N
+
OLQ33V N
OLQ33V N
39.6
33.4
OLQ40V NO
+
OLQ33V N
+
OLQ33V N
+
41.7
34.0
OLQ40V NO
+
OLQ40V N
+
OLQ33V N
+
OLQ33V N
43.9
34.6
OLQ40V NO
+
OLQ40V N
+
OLQ40V N
+
OLQ33V N
46.0
35.2
OLQ40V NO
+
OLQ40V N
+
OLQ40V N
+
OLQ40V N
48.4
38.2
OLQ48V NO
+
OLQ40V N
+
OLQ40V N
+
OLQ40V N
50.8
41.2
OLQ48V NO
+
OLQ48V N
+
OLQ40V N
+
OLQ40V N
53.2
44.2
OLQ48V NO
+
OLQ48V N
+
OLQ48V N
+
OLQ40V N
55.6
47.2
OLQ48V NO
+
OLQ48V N
+
OLQ48V N
+
OLQ48V N
Conditions: EN13215: Suction Gas Return 20°C, Suction Superheat 10K
88
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Copeland EazyCool™ ZX Outdoor Condi
sing Units with Scroll Compressors
Copeland™ compact outdoor condensing units are for medium
temperature and low temperature applications.
With this new range of outdoor condensing units, Emerson
Climate Technologies offers a solution for refrigeration
applications with space and noise constraints which responds to
the increasing demand for energy-efficient condensing units.
Copeland EazyCool ZX outdoor condensing units feature the
most complete and unique equipment. Their diagnostics module
detects and displays the system status and it can communicate
and transm it an alarm signal to a remote receiver. Vapor injection
and liquid injection technology significantly increase system
efficiency and operation map. Electronic protection functions, oil
separator and suction accumulator guarantee optimum system
safety.
Lowest life cycle costs and comprehensive safety features make
Copeland EazyCool ZX a cost efficient and reliable choice for:
- Convenience stores
- Cold rooms
- Fast food stores, bars and restaurants
- Beverage coolers
Copeland EazyCool Z X Outdoor Condensing Units
with Scroll Compressors
Copeland EazyCool ZX Line-up
Medium Temperature
•
•
Low Temperature
•
C ap acity (k W )
0
•
1
2
•
•
•
•
•
•
•
4
1
8
6
10
12
Conditions EN13215 R404A: Evaporating Temperature MT -10°C/LT -35°C, Ambient Temperature 32°C, Suction Gas Return 20°C
Copeland EazyCool ZX Digital Line-up
Medium Temperature
C ap acity (k W )
6
8
10
Conditions EN13215 R404A: Evaporating Temperature MT -10°C/LT -35°C, Ambient Temperature 32°C, Suction Gas Return 20°C
Features and Benefits
Maximum Allowable Pressures (PS)
•
•
•
•
•
•
•
•
•
•
•
Standard equipment: Copeland Scroll™ compressor,
crankcase heater, diagnostics module, fan(s) with speed
control, liquid receiver, adjustable LP switch, safety switches,
filter drier and sight glass, oil separator and suction
accumulator (LT models only)
Copeland EazyCool ZX Digital models allow for 10% to 100%
continuous capacity modulation
Diagnostic capabilities protect the unit from over-current,
phase loss and phase imbalance
LED display shows real time system status
Energy and operation cost saving due to excellent energy
efficiency
Noise attenuation due to low speed fan motors with sickle
blades, fan speed control and sound jacket
Vapor injection technology for LT models
Space saving due to compact dimensions
Easy and quick installation
90
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Low Side PS 22.5 bar (g)
High Side PS 28.8 bar (g)
12
Total Fan
Motor Power (W)
Suction Line
Diameter (inch)
Liquid Line
Diameter (inch)
ZXME020E
3.6
4.4
1
116
3/4”
1 /2 ”
1029/424/840
76
PFJ
ZXME025E
4.3
4.4
1
116
3/4”
1 /2 ”
1029/424/840
79
PFJ
ZXME030E
5.3
4.4
1
116
3/4”
1 /2 ”
1029/424/840
79
PFJ
TFD
16
ZXME040E
7.0
4.4
1
116
7/8”
1 /2 ”
1029/424/840
91
PFJ
TFD
24
ZXME050E
9.1
6.3
2
246
7/8”
1 /2 ”
1029/424/1242
108
TFD
13
ZXME060E
10.4
6.3
2
246
7/8”
1 /2 ”
1029/424/1242
112
TFD
ZXME075E
11.9
6.3
2
246
7/8”
1 /2 ”
1029/424/1242
118
TFD
Receiver
Capacity
(l)
Width/Depth/
Heigth
(mm)
R404A
Capacity
(kW)
Number of fans
Technical Overview
■M
h
i
g
£ ^
t (
e
z
Locked Rotor
Current, A
Sound Pressure
@ 10 m d(BA)***
Motor Version/
Code
Maximum Oper­
ating Current, A
1 Ph*
3 Ph**
1 Ph*
3 Ph**
1 Ph*
3 Ph**
Night
mode
Day
mode
TFD
13
5
58
26
36
39
Medium Temperature Models
37
40
6
61
82
40
37
40
9
114
49
37
40
66
38
41
12
74
38
41
15
10 1
39
42
12
Medium Temperature Digital Models
ZXDE040E
7.0
6.3
2
246
7/8”
1 /2 ”
1029/424/1242
104
TFD
11
64
37
40
ZXDE050E
9.1
6.3
2
246
7/8”
1 /2 ”
1029/424/1242
108
TFD
12
66
38
41
ZXDE060E
10.4
6.3
2
246
7/8”
1 /2 ”
1029/424/1242
112
TFD
11
74
38
41
ZXDE075E
11.9
6.3
2
246
7/8”
1 /2 ”
1029/424/1242
118
TFD
10
46
39
42
ZXLE020E
1.9
4.4
1
116
3/4”
1 /2 ”
1029/424/840
79
TFD
6
36
36
39
ZXLE030E
2.6
4.4
1
116
3/4”
1 /2 ”
1029/424/840
81
TFD
7
39
37
40
ZXLE040E
4.0
4.4
1
116
7/8”
1 /2 ”
1029/424/840
93
TFD
9
52
37
40
ZXLE050E
4.7
6.3
2
246
7/8”
1 /2 ”
1029/424/1242
106
TFD
12
52
38
41
ZXLE060E
5.7
6.3
2
246
7/8”
1 /2 ”
1029/424/1242
116
TFD
14
74
38
41
Low Temperature Models
Conditions EN13215: R404A, Evaporating Temperature MT -10°C/ LT - 35°C, Ambient Temperature 32°C, Suction Gas Return 20°C
* 1 Ph: 230V/ 50Hz
** 3 Ph: 380-420V/ 50Hz
*** @ 1 0 m: sound pressure level at 1 0 m distance from the compressor, free field condition
Capacity Data
Cooling Capacity (kW)
Power Input (kW)
Ambient Temperature: 32°C
R404A
-45
-35
-30
-2 0
Ambient Temperature: 32°C
R404A
Evaporating Temperature (°C)
-1 0
-5
5
Evaporating Temperature (°C)
-45
Medium Temperature Models
-35
-30
-2 0
-1 0
-5
5
Medium Temperature Models
ZXME020E-TFD
2.4
3.6
4.2
5.7
ZXME020E-TFD
1.8
1.8
1.8
1.8
ZXME020E-PFJ
2.5
3.6
4.3
5.7
ZXME020E-PFJ
1.5
1.6
1.7
1.7
ZXME025E-PFJ
3.0
4.3
5.1
6.9
ZXME025E-PFJ
1.9
2.0
2.0
2.1
ZXME030E-TFD
3.7
5.3
6.2
8.2
ZXME030E-TFD
2.4
2.5
2.6
2.7
ZXME030E-PFJ
3.8
5.3
6.2
8.3
ZXME030E-PFJ
2.5
2.6
2.7
2.8
ZXME040E-TFD
5.0
7.0
8.2
10 .8
ZXME040E-TFD
3.2
3.4
3.5
3.8
ZXME040E-PFJ
4.7
6.8
8.0
10 .6
ZXME040E-PFJ
3.2
3.4
3.5
3.8
ZXDE040E-TFD
5.0
7.0
8.1
10.7
ZXDE040E-TFD
2.8
3.2
3.3
3.7
ZXME050E-TFD
6.4
9.1
10.7
14.4
ZXME050E-TFD
4.0
4.1
4.3
4.5
ZXDE050E-TFD
6.4
9.0
10 .6
14.1
ZXDE050E-TFD
3.6
4.0
4.2
4.7
ZXME060E-TFD
7.3
10.4
1 2 .2
16.2
ZXME060E-TFD
4.6
4.8
5.0
5.3
ZXDE060E-TFD
7.4
10.4
1 2 .2
16.1
ZXDE060E-TFD
4.3
4.9
5.2
5.8
ZXME075E-TFD
8.4
11.9
13.9
18.5
ZXME075E-TFD
5.1
5.4
5.5
5.9
8.4
1 1 .8
13.8
18.2
ZXDE075E-TFD
4.7
5.3
5.6
6.3
2.1
2 .2
ZXDE075E-TFD
Low Temperature Models
ZXLE020E-TFD
1.9
2.4
3.5
Low Temperature Models
4.9
5.7
ZXLE020E-TFD
1.7
1 .8
1.9
ZXLE030E-TFD
2.6
3.1
4.6
6.4
7.4
ZXLE030E-TFD
2.0
2 .2
2.3
2.6
2.7
ZXLE040E-TFD
4.0
4.9
7.0
9.6
1 1 .0
ZXLE040E-TFD
3.0
3.2
3.7
4.2
4.4
ZXLE050E-TFD
4.7
5.6
7.9
10.7
1 2 .2
ZXLE050E-TFD
3.6
3.8
4.2
4.7
5.0
ZXLE060E-TFD
5.7
7.0
10 .0
13.4
15.2
ZXLE060E-TFD
4.4
4.7
5.4
6.3
6.7
Conditions: EN13215: Suction Gas Return 20°C, Subcooling 0K
91
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Capacity Data
C ooling C ap acity (k W )
R407A
P o w er In p u t (k W )
R407A
A m b ie n t T e m p e ra tu re: 32°C
A m b ie n t T e m p e ra tu re: 32°C
Evap o rating Te m p e rature (°C)
M odel
-45
-35
-30
-2 0
-1 0
-5
Evap o rating Te m p e ra tu re (°C)
5
M odel
-45
-35
-30
-2 0
-1 0
-5
5
ZXM E020E-TFD
2.4
3.5
4.1
5.6
ZXM E020E-TFD
1 .6
1.7
1.7
1.7
ZXM E030E-TFD
3.2
4.9
5.9
8.3
ZXM E030E-TFD
2 .1
2.3
2.3
2 .6
ZXM E040E-TFD
4.5
6.9
8.3
11.5
ZXM E040E-TFD
3.0
3.2
3.3
3.7
ZXM E050E-TFD
5.8
8.7
10.4
14.4
ZXM E050E-TFD
3.5
3.7
3.9
4.3
ZXM E060E-TFD
6.4
9.8
1 1 .8
16.4
ZXM E060E-TFD
4.0
4.3
4.5
5.0
ZXM E075E-TFD
7.4
11.3
13.6
18.9
ZXM E075E-TFD
4.5
4.9
5.1
6 .0
Conditions: EN13215: Suction Gas Return 20°C, Subcooling 0K
C ooling C ap acity (k W )
R407F
P o w er In p u t (k W )
R407F
A m b ie n t T e m p e ra tu re: 32°C
A m b ie n t T e m p e ra tu re: 32°C
Evap o rating Te m p e rature (°C)
M odel
-45
-35
-30
Evap o rating Te m p e ra tu re (°C)
-1 0
-5
5
ZXM E020E-TFD
3.2
3.9
5.6
ZXM E030E-TFD
4.8
5.8
8.1
ZXM E040E-TFD
6.7
8.2
11.4
ZXM E040E-TFD
3.3
3.5
3.8
ZXM E050E-TFD
8.7
10.5
14.9
ZXM E050E-TFD
4.1
4.2
4.5
-2 0
M odel
-45
-35
-30
-1 0
-5
ZXM E020E-TFD
1.7
1.7
1.8
ZXM E030E-TFD
2.4
2.5
2.7
-2 0
5
ZXM E060E-TFD
10 .0
1 2 .1
17.0
ZXM E060E-TFD
4.8
5.0
5.5
ZXM E075E-TFD
11.7
14.6
20.4
ZXM E075E-TFD
5.7
5.9
6.1
Conditions: EN13215: Suction Gas Return 20°C, Subcooling 0K
Preliminary data
92
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—
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Copeland Scroll™ Indoor Condensing Units for Refrigeration
Copeland™ air-cooled condensing units for medium temperature
and low temperature applications.
Copeland Scroll condensing units are equipped with the latest
refrigeration scroll compressors and build the widest range of
its kind. The modular line concept offers base units which can be
adapted to the target application by various options including
weather housings and fan speed controls.
Copeland Scroll condensing units are available with normal or
high capacity condensers to ensure optimum performance even
under extreme conditions. They are equipped with dedicated
medium or low temperature compressors which makes them
suitable for all general refrigeration applications, such as:
Mini markets and supermarkets
Bars, restaurants and kitchens
Beer cellars and beverage coolers
Cold rooms
Milk cooling tank
Copeland Scroll
Indoor Condensing Unit
Copeland Scroll Condensing Units Line-up
Medium Temperature
• •
Low Temperature
•
•
•
•
•
•
• • • • • • • • • • • •
•
•
•
•
•
•
• •
•
•
•
•
•
• • •
C ap acity (k W )
5
0
10
15
25
20
Conditions EN13215 R404A: Evaporating Temperature MT -10°C/LT -35°C, Ambient Temperature 32°C, Suction Gas Return 20°C
Copeland Scroll Digital Condensing Units Line-up
Medium Temperature
•
•
•
•1
C ap acity (k W )
5
7
9
11
13
15
17
Conditions EN13215 R404A: Evaporating Temperature -10°C, Ambient Temperature 32°C, Suction Gas Return 20°C
Features and Benefits
Maximum Allowable Pressures (PS)
•
•
•
•
•
•
Standard equipment: base plate, scroll compressor,
crank case heater, condenser with 1ph fan(s), HP and LP
switch, liquid receiver with rotalock-valve, suction- and
discharge shut-off valves
Suitable for multiple refrigerants: R404A, R407C, R143a,
R407A and R407F
Wide range of quality accessories
Excellent efficiency and reliability
94
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Low Side PS 22.5 bar (g)
High Side PS = 28 bar (g)
19
21
Technical Overview
735/680/533
57
PFJ
TFD
13
5
58
26
49
560/570/446
49
PFJ
TFD
13
7
61
32
46
1 /2 ”
735/680/533
61
PFJ
TFD
13
7
61
32
49
3/4”
1 /2 ”
950/640/454
67
PFJ
TFD
13
7
61
32
48
7/8”
1 /2 ”
560/570/446
50
PFJ
TFD
16
7
82
40
46
7/8”
1 /2 ”
735/680/533
61
PFJ
TFD
16
7
82
40
49
220
7/8”
1 /2 ”
950/640/454
68
PFJ
TFD
16
7
82
40
48
235
7/8”
1 /2 ”
735/680/533
62
PFJ
TFD
18
9
97
46
49
220
7/8”
1 /2 ”
950/640/454
68
PFJ
TFD
18
9
97
46
48
235
7/8”
1 /2 ”
735/680/533
74
PFJ
TFD
26
10
142
49
49
235
7/8”
1 /2 ”
735/730/708
87
PFJ
TFD
26
10
142
49
49
3.9
1
110
MC-H8-ZB15KE
3.6
7.9
1
235
MC-D8-ZB19KE
3.9
3.9
1
110
MC-H8-ZB19KE
4.3
7.9
1
235
3/4”
MC-K9-ZB19KE
4.3
7.9
220
MC-D8-ZB21KE
4.4
3.9
1
110
MC-H8-ZB21KE
5.1
7.9
1
235
MC-K9-ZB21KE
5.1
7.9
MC-H8-ZB26KE
5.6
7.9
MC-K9-ZB26KE
5.6
7.9
MC-H8-ZB30KE
6.4
7.9
1
MC-M8-ZB30KE
6.8
7.9
1
Net Weight (kg)
Liquid Line
Diameter (inch)
1 /2 ”
1 /2 ”
Total Fan
Motor Power (W)
3/4”
3/4”
Number of fans
560/570/446
Receiver
Capacity (l)
1 /2 ”
Capacity (kW)
Suction Line Diameter
(inch)
Maximum
Operating
Current, A
3/4”
3.3
R404A
Width/Depth/
Heigth
(mm)
Motor Version/
Code
Locked Rotor
Current, A
Sound
Pressure
3 Ph**
1 Ph*
3 Ph**
1 Ph*
3 Ph**
@ 10 m d(BA)***
PFJ
TFD
13
5
58
26
46
1 Ph*
Medium Temperature Models
MC-D8-ZB15KE
1
48
MC-P8-ZB30KE
7.1
7.9
220
7/8”
1 /2 ”
950/640/633
87
49
49
MC-H8-ZB38KE
7.3
7.9
1
235
7/8”
1 /2 ”
735/680/533
77
PFJ
TFD
32
13
142
66
49
MC-M8-ZB38KE
8.0
7.9
1
235
7/8”
1 /2 ”
735/730/708
89
PFJ
TFD
32
13
142
66
49
MC-P8-ZB38KE
8.4
7.9
220
7/8”
1 /2 ”
950/640/633
89
PFJ
TFD
32
13
142
66
MC-M8-ZB42KE
8.7
7.9
1
235
7/8”
1 /2 ”
735/730/708
91
PFJ
MC-M8-ZB45KE
8.9
7.9
1
235
7/8”
1 /2 ”
735/730/708
91
MC-M9-ZB45KE
9.6
7.9
1
400
7/8”
1 /2 ”
735/730/708
96
MC-R7-ZB42KE
9.8
7.9
2
470
7/8”
1 /2 ”
1130/680/633
10 1
MC-R7-ZB45KE
10 .1
7.9
2
470
7/8”
1 /2 ”
1130/680/633
10 1
MC-R7-ZB50KE
11.4
7.9
2
470
1 3/8”
1 /2 ”
1130/820/621
110
MC-S9-ZB50KE
12 .0
11.7
2
470
1 3/8”
5/8”
1130/820/707
113
MC-R7-ZB58KE
12.4
7.9
2
470
7/8”
1 /2 ”
1130/680/633
110
MC-S9-ZB58KE
13.1
11.7
2
470
7/8”
1 /2 ”
1130/820/703
MC-S9-ZB66KE
14.5
11.7
2
470
1 3/8”
5/8”
1130/820/707
MC-V9-ZB66KE
15.1
15.8
2
470
1 3/8”
3/4”
MC-V9-ZB76KE
17.2
15.8
2
470
1 3/8”
3/4”
MC-V6-ZB76KE
18.5
15.8
2
800
1 3/8”
3/4”
TFD
10
36
TFD
150
13
TFD
13
36
PFJ
TFD
49
49
74
49
74
49
150
53
13
74
50
TFD
15
10 0
49
TFD
15
10 0
49
TFD
15
95
49
113
TFD
15
95
50
116
TFD
18
111
50
1330/820/821
150
TFD
18
111
50
1330/820/835
151
TFD
20
118
50
1330/820/835
168
TFD
20
118
55
MC-V9-ZB95KE
19.3
15.8
2
470
1 3/8”
3/4”
1330/820/835
155
TFD
28
140
51
MC-V6-ZB95KE
21.5
15.8
2
800
1 3/8”
3/4”
1330/820/835
172
TFD
28
140
55
MC-V6-ZB114KE
24.3
15.8
2
800
1 3/8”
3/4”
1330/820/835
174
TFD
33
174
55
MC-W9-ZB114KE
24.6
15.8
2
800
1 3/8”
3/4”
1640/820/864
174
TFD
33
174
55
87
TFD
8
52
49
Digital Medium Temperature Models
MC-M8-ZBD30
6.9
11.7
1
235
7/8”
5/8”
735/730/708
MC-M9-ZBD45
9.9
11.7
1
400
7/8”
5/8”
735/730/708
96
TFD
12
74
49
MC-V6-ZBDT60
14.9
18.9
2
800
1 3/8”
3/4”
1330/820/835
207
TFD
8 + 10
52+49
55
MC-V6-ZBDT90
20.4
18.9
2
800
1 3/8”
3/4”
1330/820/835
218
TFD
11+13
2x74
55
Conditions EN13215: R404A, Evaporating Temperature MT -10°C/ LT - 35°C, Ambient Temperature 32°C, Suction Gas Return 20°C
* 1 Ph: 230V/ 50Hz
** 3 Ph: 380-420V/ 50Hz
*** @ 1 0 m: sound pressure level at 1 0 m distance from the compressor, free field condition
95
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Width/Depth/
Heigth
(mm)
Net Weight (kg)
Liquid Line
Diameter (inch)
Suction Line
Diameter (inch)
Total Fan
Motor Power (W)
Number of fans
Receiver
Capacity (l)
R404A
Capacity
(kW)
Technical Overview
Motor Version/
Code
1 Ph*
3 Ph**
Maximum
Operating
Current, A
1 Ph*
3 Ph**
Locked Rotor
Current, A
1 Ph*
Sound
Pressure
3 Ph**
@ 10 m d(BA)***
Low Temperature Models
MC-B8-ZF06KE
1.3
3.3
1
85
7/8”
1 /2 ”
560/570/396
64
TFD
5
26
47
MC-D8-ZF09KE
1.9
3.9
1
110
7/8”
1 /2 ”
560/570/446
64
TFD
6
40
47
MC-H8-ZF09KE
2.0
7.9
1
235
7/8”
1 /2 ”
735/680/533
66
TFD
6
40
49
49
MC-H8-ZF11KE
2.5
7.9
1
235
7/8”
1 /2 ”
735/680/533
67
TFD
7
46
MC-H8-ZF13KE
2.8
7.9
1
235
7/8”
1 /2 ”
735/680/533
77
TFD
8
52
50
MC-M8-ZF13KE
2.8
7.9
1
235
7/8”
1 /2 ”
735/730/708
85
TFD
8
52
49
MC-H8-ZF15KE
3.3
7.9
1
235
7/8”
1 /2 ”
735/680/533
83
TFD
10
64
50
MC-M8-ZF15KE
3.4
7.9
1
235
7/8”
1 /2 ”
735/730/708
86
TFD
10
64
50
MC-M8-ZF18KE
4.1
7.9
1
235
7/8”
1 /2 ”
735/730/708
88
TFD
13
74
50
MC-M9-ZF18KE
4.2
7.9
1
400
7/8”
1 /2 ”
735/730/708
96
TFD
13
74
50
MC-P8-ZF24KE
5.0
7.9
2
22 0
1 3/8”
1 /2 ”
950/640/633
146
TWD
16
99
52
MC-S9-ZF24KE
5.3
11.7
2
470
1 3/8”
1 /2 ”
1130/820/708
170
TWD
16
99
54
MC-R7-ZF33KE
6.8
11.7
2
470
1 3/8”
5/8”
1130/820/633
160
TWD
22
127
55
MC-V9-ZF33KE
7.1
11.7
2
470
1 3/8”
5/8”
1330/820/835
195
TWD
22
127
55
MC-S9-ZF40KE
8.4
11.7
2
470
1 3/8”
5/8”
1130/820/708
180
TWD
25
167
55
MC-V6-ZF40KE
8.9
11.7
2
800
1 3/8”
5/8”
1330/820/835
218
TWD
25
167
57
MC-S9-ZF48KE
9.6
11.7
2
470
1 3/8”
5/8”
1130/820/708
189
TWD
29
198
55
Conditions EN13215: R404A, Evaporating Temperature MT -10°C/ LT - 35°C, Ambient Temperature 32°C, Suction Gas Return 20°C
* 1 Ph: 230V/ 50Hz
** 3 Ph: 380-420V/ 50Hz
*** @ 1 0 m: sound pressure level at 1 0 m distance from the compressor, free field condition
96
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—
Capacity Data
R404A
Cooling Capacity (kW)
Power Input (kW)
Ambient Temperature: 32°C
Ambient Temperature: 32°C
R404A
Evaporating Temperature (°C)
-45
-35
-30
-2 0
-1 0
-5
5
Medium Temperature Models
MC-D8-ZB15KE
-35
-30
-2 0
-1 0
-5
2.0
5
Medium Temperature Models
1 .2 *
2.2
3.3
3.8
5.0
MC-D8-ZB15KE
MC-H8-ZB15KE**
1.5
2.5
3.6
4.3
5.8
MC-H8-ZB15KE**
MC-D8-ZB19KE
1.7*
2.8
3.9
4.5
5.8
MC-D8-ZB19KE
MC-H8-ZB19KE**
2.0
3.1
4.3
5.1
6.8
MC-K9-ZB19KE**
2.1
3.1
4.3
5.1
6.8
MC-D8-ZB21KE
1.9*
3.2
4.4
5.0
6.4
MC-H8-ZB21KE**
2.4
3.6
5.1
5.9
MC-K9-ZB21KE**
2.4
3.6
5.1
5.9
MC-H8-ZB26KE
2.4*
4.1
5.7
6.6
MC-K9-ZB26KE**
Evaporating Temperature (°C)
-45
1 .8 *
1.9
2.0
1.8
1.9
1.9
1.9
1.9
2 .1 *
2.3
2.4
2.5
2.7
MC-H8-ZB19KE**
2.1
2.1
2 .2
2.3
2.4
MC-K9-ZB19KE**
2.0
2 .1
2 .2
2.3
2.4
MC-D8-ZB21KE
2.5*
2.8
3.1
3.2
3.5
7.8
MC-H8-ZB21KE**
2.5
2.6
2.7
2.8
3.0
7.8
MC-K9-ZB21KE**
2.4
2.6
2.7
2.8
3.0
8.6
MC-H8-ZB26KE
2.9*
3.1
3.3
3.4
3.7
2.4*
4.1
5.7
6.6
8.7
MC-K9-ZB26KE**
2.9*
3.1
3.3
3.4
3.6
MC-H8-ZB30KE
2 .1 *
2.7
4.6
6.4
7.4
9.6
MC-H8-ZB30KE
3.3*
3.4
3.7
3.9
4.1
4.4
MC-M8-ZB30KE**
2 .2 *
3.2
4.8
6.8
7.9
10.5
MC-M8-ZB30KE**
3.1*
3.3
3.4
3.6
3.7
4.0
MC-P8-ZB30KE**
2.3*
3.3
5.0
7.1
8.3
1 1 .1
MC-P8-ZB30KE**
3.1*
3.2
3.3
3.5
3.5
3.8
MC-H8-ZB38KE
2.5*
3.2
5.3
7.3
8.4
10.7
MC-H8-ZB38KE
4.2*
4.3
4.8
5.2
5.4
6.0
MC-M8-ZB38KE**
2.7*
3.4
5.7
8.0
9.2
12 .0
MC-M8-ZB38KE**
4.0*
4.1
4.4
4.8
5.0
5.4
MC-P8-ZB38KE**
2.7*
3.4
5.7
8.0
9.2
1 2 .0
MC-P8-ZB38KE**
4.0*
4.1
4.4
4.8
5.0
5.4
MC-M8-ZB45KE
3.0*
3.9
6.5
8.9
10.3
13.2
MC-M8-ZB45KE
4.6*
4.8
5.3
5.7
6.0
6.5
MC-M9-ZB45KE**
3.2*
4.1
6.9
9.6
1 1 .1
14.5
MC-M9-ZB45KE**
4.6*
4.8
5.1
5.5
5.7
6.1
MC-R7-ZB45KE**
3.3*
4.8
7.1
10 .1
1 1 .8
15.6
MC-R7-ZB45KE**
4.6*
4.7
5.0
5.3
5.4
5.8
3.1*
7.5
11.4
13.4
17.7
MC-R7-ZB50KE
5.5*
6.0
6.5
6.7
7.2
MC-S9-ZB50KE**
3.3*
7.9
12 .0
14.2
18.9
MC-S9-ZB50KE**
5.3*
5.8
6.1
6.3
6.7
MC-R7-ZB58KE
4.1*
8.5
12.4
14.5
18.8
MC-R7-ZB58KE
6 .1 *
6.7
7.3
7.6
8.3
MC-S9-ZB58KE**
4.4*
8.9
13.1
15.4
20.3
MC-S9-ZB58KE**
5.9*
6.4
6.9
7.1
7.7
8.9
MC-R7-ZB50KE
MC-S9-ZB66KE
6 .0 *
10.3
14.5
16.8
21.7
MC-S9-ZB66KE
6 .6 *
7.4
7.9
8.2
MC-V9-ZB66KE**
6 .2 *
10.7
15.1
17.6
23.0
MC-V9-ZB66KE**
6.5*
7.1
7.6
7.8
8.5
MC-V9-ZB76KE
6.9*
1 2 .2
17.2
19.9
25.8
MC-V9-ZB76KE
7.5*
8.3
9.0
9.4
10.3
MC-V6-ZB76KE**
7.4*
12.9
18.5
2 1 .6
28.7
MC-V6-ZB76KE**
7.4*
1 2 .2 *
19.3
22.3
28.7
MC-V9-ZB95KE
MC-V6-ZB95KE**
MC-V9-ZB95KE
8.0
8.6
8.9
9.6
1 1 .2 *
12.4
13.0
14.3
1 0 .2 *
10.7
11.4
11.9
13.0
MC-V6-ZB95KE**
7.8*
14.9
21.5
25.2
33.1
MC-V6-ZB114KE
8.4*
16.6
24.3
28.4
37.3
MC-V6-ZB114KE
12.5*
13.3
14.3
14.8
16.2
28.8
38.0
MC-W9ZB114KE**
12.4*
13.2
14.1
14.7
16.0
MC-W9ZB114KE**
8.5*
16.8
24.6
Digital Medium Temperature Models
Digital Medium Temperature Models
MC-M8-ZBD30KE
3.0*
5.0
6.9
8.0
10.5
MC-M8-ZBD30KE
2.5*
3.0
3.4
3.6
4.0
MC-M9-ZBD45KE
3.7*
6.7
9.9
1 1 .8
16.1
MC-M9-ZBD45KE
4.4*
4.9
5.5
5.8
6.7
MC-V6-ZBDT60KE
7.0
10.4
14.9
17.6
23.6
MC-V6-ZBDT60KE
5.8
6.3
6.7
7.0
7.5
MC-V6-ZBDT90KE
8 .0 *
14.1
20.4
24.1
32.5
MC-V6-ZBDT90KE
8.8 *
9.6
10.4
10 .8
11.9
Conditions: EN13215: Suction Gas Return 20°C, Subcooling 0K
* Conditions: EN13215: Suction Superheat 10K
** Models for high ambient temperatures
97
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Capacity Data
Cooling Capacity (kW)
R407C
Power Input (kW)
R407C
Ambient Temperature: 32°C
Ambient Temperature: 32°C
Evaporating Temperature (°C)
Model
-45
-35
-30
-2 0
Evaporating Temperature (°C)
-1 0
-5
5
Model
-45
-35
-30
-2 0
-1 0
-5
5
MC-D8-ZB15KE
1.8
2.8
3.4
4.9
MC-D8-ZB15KE
1.4
1.5
1.6
1.7
MC-H8-ZB15KE**
1.9
3.0
3.6
5.2
MC-H8-ZB15KE**
1.4
1.5
1.5
1 .6
MC-D8-ZB19KE
1.6
2.6
3.3
4.7
MC-D8-ZB19KE
1.3
1.4
1.5
1 .6
MC-H8-ZB19KE**
1.7
2.8
3.4
5.0
MC-H8-ZB19KE**
1.4
1.4
1.4
1.5
MC-K9-ZB19KE**
2.0
3.2
4.0
5.7
MC-K9-ZB19KE**
1.7
1.8
1.9
2.0
MC-D8-ZB21KE
2 .2
3.5
4.3
6.3
MC-D8-ZB21KE
1.7
1.8
1.9
2.0
MC-H8-ZB21KE**
2 .2
3.5
4.3
6.3
MC-H8-ZB21KE**
1.7
1.9
2.0
2 .2
MC-K9-ZB21KE
2.6
4.1
4.9
6.7
MC-K9-ZB21KE
2 .2
2.4
2.4
2.6
MC-H8-ZB26KE**
2.9
4.7
5.7
8.2
MC-H8-ZB26KE**
2.4
2.6
2.7
3.0
MC-K9-ZB26KE
2.9
4.7
5.8
8.2
MC-K9-ZB26KE
2.4
2.6
2.7
3.0
MC-H8-ZB30KE
3.5
5.5
6.8
9.5
MC-H8-ZB30KE
2.7
3.0
3.1
3.5
MC-M8-ZB30KE**
3.6
5.9
7.2
10 .1
MC-M8-ZB30KE**
2.8
3.0
3.2
3.5
MC-P8-ZB30KE**
3.7
6.0
7.2
1 0 .2
MC-P8-ZB30KE**
2.9
3.2
3.4
3.9
MC-H8-ZB38KE
3.9
6.3
7.7
1 1 .0
MC-H8-ZB38KE
3.3
3.7
4.0
4.5
MC-M8-ZB38KE**
4.1
6.7
8.4
11.9
MC-M8-ZB38KE**
3.4
3.8
4.1
4.6
MC-P8-ZB38KE**
4.1
6.7
8.4
12 .0
MC-P8-ZB38KE**
3.5
4.0
4.4
5.1
MC-M8-ZB45KE
4.8
7.8
9.5
13.4
MC-M8-ZB45KE
4.0
4.4
4.6
5.1
MC-M9-ZB45KE**
5.1
8.3
10.3
14.4
MC-M9-ZB45KE**
4.1
4.5
4.8
5.3
MC-R7-ZB45KE**
5.3
8.8
10.7
15.0
MC-R7-ZB45KE**
4.1
4.7
5.0
5.7
MC-R7-ZB50KE
5.7
9.4*
11 .8
16.5
MC-R7-ZB50KE
4.4
4.8
5.0
5.5
MC-S9-ZB50KE**
5.9
9.7*
1 2 .2
17.3
MC-S9-ZB50KE**
4.5
5.0
5.3
5.9
MC-R7-ZB56KE
5.9
10 .0
12.3
17.1
MC-R7-ZB56KE
4.9
5.2
5.4
6.0
MC-S9-ZB56KE**
6.8
10 .2
12.4
17.0
MC-S9-ZB56KE**
5.1
5.5
5.7
6.3
MC-S9-ZB66KE
6.3
10.5
12 .8
17.7
MC-S9-ZB66KE
5.4
5.8
6.1
6.6
MC-V9-ZB66KE**
7.0
10 .8
12.9
17.8
MC-V9-ZB66KE**
5.6
6.1
6.4
7.0
MC-W9-ZB114KE
10 .1
15.4
18.5
25.7
MC-W9-ZB114KE
6.5
7.3
7.8
8.7
Conditions: EN13215: Suction Gas Return 20°C, Subcooling 0K
* Conditions: EN13215: Suction Superheat 10K
** Models for high ambient temperatures
98
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Capacity Data
Cooling Capacity (kW)
R134a
Power Input (kW)
R134a
Ambient Temperature: 32°C
Ambient Temperature: 32°C
Evaporating Temperature (°C)
Model
-45
-35
-30
Evaporating Temperature (°C)
-2 0
-1 0
-5
5
MC-D8-ZB15KE
1.4
2.2
2.7
3.9
MC-D8-ZB15KE
1.4
2.2
2.7
3.9
MC-H8-ZB15KE
1.4
2.3
2.8
MC-D8-ZB19KE
1 .6
2.5
MC-D8-ZB19KE
1.6
2.5
MC-H8-ZB19KE
1.6
Model
-45
-35
-30
-2 0
-1 0
-5
5
MC-D8-ZB15KE
1.0
1.0
1 .1
1 .2
MC-D8-ZB15KE
1.0
1.0
1 .1
1 .2
4.1
MC-H8-ZB15KE
1 .1
1 .1
1 .1
1 .2
3.1
4.4
MC-D8-ZB19KE
1 .1
1 .2
1.3
1.4
3.1
4.4
MC-D8-ZB19KE
1 .1
1 .2
1.3
1.4
2.6
3.2
4.7
MC-H8-ZB19KE
1 .2
1 .2
1.3
1.3
MC-K9-ZB19KE
1.6
2.6
3.2
4.7
MC-K9-ZB19KE
1 .2
1.3
1.3
1.4
MC-D8-ZB21KE
1.9
3.1
3.7
5.3
MC-D8-ZB21KE
1.4
1.5
1.6
1.7
MC-H8-ZB21KE
2.1
3.2
4.0
5.7
MC-H8-ZB21KE
1.4
1.5
1.6
1.8
MC-K9-ZB21KE
2.1
3.2
4.0
5.8
MC-K9-ZB21KE
1.5
1.5
1.6
1.7
1.7
1.8
1.9
MC-H8-ZB26KE
2.3
3.7
4.5
6.5
MC-H8-ZB26KE
1 .6
MC-K9-ZB26KE
2.4
3.7
4.5
6.5
MC-K9-ZB26KE
1.7
1.8
1 .8
2.0
MC-H8-ZB30KE
2.6
4.2
5.2
7.4
MC-H8-ZB30KE
1 .8
1.9
2.0
2.1
MC-M8-ZB30KE
2.8
4.4
5.3
7.7
MC-M8-ZB30KE
1.9
2.0
2.0
2 .2
MC-P8-ZB30KE
2.8
4.4
5.4
7.8
MC-P8-ZB30KE
1.9
2.0
2 .1
2.3
MC-H8-ZB38KE
3.0
5.1
6.3
8.9
MC-H8-ZB38KE
2 .2
2.4
2.5
2.7
MC-M8-ZB38KE
3.1
5.3
6.5
9.3
MC-M8-ZB38KE
2 .2
2.4
2.5
2.8
MC-P8-ZB38KE
3.3
5.4
6.6
9.5
MC-P8-ZB38KE
2.3
2.6
2.7
3.0
MC-M8-ZB45KE
3.8
6 .2
7.6
10.9
MC-M8-ZB45KE
2.6
2.9
3.0
3.3
MC-M9-ZB45KE
3.9
6.4
7.8
11.3
MC-M9-ZB45KE
2.7
2.9
3.0
3.3
MC-R7-ZB45KE
4.2
6.5
8.0
1 1 .6
MC-R7-ZB45KE
2.8
2.9
3.0
3.2
MC-S9-ZB50KE
4.8
7.5
9.1
13.1
MC-S9-ZB50KE
3.5
3.8
4.0
4.2
MC-R7-ZB58KE
5.2
8.1
9.9
14.1
MC-R7-ZB58KE
3.7
3.8
4.0
4.3
4.5
MC-S9-ZB58KE
5.3
8.3
10 .2
14.6
MC-S9-ZB58KE
3.8
4.0
4.1
MC-S9-ZB66KE
6.1
9.4
11.4
16.4
MC-S9-ZB66KE
4.0
4.2
4.4
4.7
MC-V9-ZB66KE
6.2
9.5
1 1 .6
16.7
MC-V9-ZB66KE
4.1
4.3
4.5
4.9
MC-V9-ZB76KE
7.0
10 .8
13.1
18.8
MC-V9-ZB76KE
4.2
4.6
4.8
5.3
MC-V6-ZB76KE
7.1
1 1 .1
13.6
19.6
MC-V6-ZB76KE
4.9
5.0
5.2
5.6
MC-V9-ZB95KE
8.3
13.3
16.2
22.9
MC-V9-ZB95KE
5.9
6.3
6.5
7.1
MC-V6-ZB95KE
8.6
13.8
16.9
24.2
MC-V6-ZB95KE
5.9
6.4
6.7
7.4
MC-V6-ZB114KE
9.9
16.1
19.8
28.4
MC-V6-ZB114KE
7.1
7.6
7.9
8.6
16.7
19.9
28.7
MC-W9-ZB114KE
7.2
7.6
8.0
8.7
MC-W9-ZB114KE
Conditions: EN13215: Suction Gas Return 20°C, Subcooling 0K
99
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Capacity Data
Cooling Capacity (kW)
R407A
Power Input (kW)
R407A
Ambient Temperature: 32°C
Ambient Temperature: 32°C
Evaporating Temperature (°C)
Model
-45
-35
-30
-2 0
-1 0
Evaporating Temperature (°C)
-5
5
Model
Low Temperature Models
-45
-35
-30
-2 0
-1 0
-5
5
Low Temperature Models
MC-D8-ZF09KE
1.9
2.3
3.4
4.7
5.3
MC-D8-ZF09KE
1.9
2.1
2.9
4.1
5.0
MC-H8-ZF09KE
1.9
2.3
3.5
4.9
5.8
7.7
MC-H8-ZF09KE
1.8
2.1
2.7
3.6
4.2
5.8
MC-H8-ZF11KE
2.1
2.7
4.0
5.7
6.7
9.0
MC-H8-ZF11KE
2.0
2.1
2.4
2.8
3.0
3.5
MC-H8-ZF13KE
2 .2
2.8
4.3
6.1
7.1
8.9
MC-H8-ZF13KE
2.3
2.4
2.8
3.1
3.3
3.6
MC-M8-ZF13KE
2 .2
2.8
4.4
6.3
7.3
9.2
MC-M8-ZF13KE
2 .2
2.3
2.6
2.9
3.1
3.3
4.3
MC-H8-ZF15KE
2.7
3.3
5.1
7.3
8.5
1 1 .0
MC-H8-ZF15KE
2.8
3.0
3.6
4.1
4.3
MC-M8-ZF15KE
2.8
3.4
5.3
7.6
8.9
11.5
MC-M8-ZF15KE
2.7
2.9
3.4
3.8
3.9
3.8
MC-M8-ZF18KE
3.3
4.1
6 .2
8.8
10 .2
13.0
MC-M8-ZF18KE
3.2
3.5
4.2
4.7
4.9
4.5
3.3
4.1
6.4
9.1
10 .6
13.7
MC-M9-ZF18KE
4.5
4.9
5.2
5.8
1.8
1.9
2.1
MC-M9-ZF18KE
Medium Temperature Models
MC-D8-ZB15KE
Medium Temperature Models
2.1
3.2
3.8
5.3
MC-D8-ZB15KE
1.7
MC-H8-ZB15KE
2.2
3.5
4.2
5.9
MC-H8-ZB15KE
1.7
1.7
1 .8
1.9
MC-D8-ZB19KE
2.5
3.8
4.5
6.1
MC-D8-ZB19KE
2.0
2 .2
2.3
2.5
MC-H8-ZB19KE
2.7
4.1
4.9
6.9
MC-H8-ZB19KE
1.9
2.1
2 .2
2.3
MC-K9-ZB19KE
2.7
4.1
4.9
6.8
MC-K9-ZB19KE
1.9
2.1
2 .1
2.3
MC-D8-ZB21KE
2.9
4.4
5.1
6.8
MC-D8-ZB21KE
2.5
2.8
3.0
3.3
MC-H8-ZB21KE
3.1
4.9
5.8
8.0
MC-H8-ZB21KE
2.3
2.6
2.7
2.8
MC-K9-ZB21KE
3.1
4.8
5.8
7.9
MC-K9-ZB21KE
2.3
2.6
2.7
2.8
MC-H8-ZB26KE
3.5
5.4
6.4
8.9
MC-H8-ZB26KE
2.6
2.9
3.0
3.4
MC-K9-ZB26KE
3.4
5.4
6.4
8.8
MC-K9-ZB26KE
2.6
2.9
3.0
3.4
MC-H8-ZB30KE
4.1
6.4
7.7
10.4
MC-H8-ZB30KE
3.2
3.5
3.8
4.3
MC-M8-ZB30KE
4.3
6.8
8.1
1 1 .1
MC-M8-ZB30KE
3.0
3.3
3.5
3.9
MC-P8-ZB30KE
4.3
6.8
8.2
11.3
3.8
MC-H8-ZB38KE
4.8
7.5
8.8
MC-M8-ZB38KE
5.1
8.0
9.5
MC-P8-ZB38KE
5.1
8.0
MC-M8-ZB45KE
5.8
8.8
MC-M9-ZB45KE
6.0
9.3
6.2
9.6
MC-R7-ZB45KE
MC-P8-ZB30KE
3.0
3.3
3.4
MC-H8-ZB38KE
4.0
4.6
4.9
12 .8
MC-M8-ZB38KE
3.8
4.2
4.5
9.6
13.0
MC-P8-ZB38KE
3.7
4.1
4.4
5.0
10.3
13.7
MC-M8-ZB45KE
4.6
5.3
5.6
6.2
1 1 .0
14.9
MC-M9-ZB45KE
4.5
5.1
5.3
5.8
11.5
15.7
MC-R7-ZB45KE
4.5
4.9
5.1
5.5
Digital Medium Temperature Models
5.1
Digital Medium Temperature Models
MC-M8-ZBD30
4.5
6.8
8.1
1 1 .1
MC-M8-ZBD30
3.1
3.4
3.6
4.0
MC-M9-ZBD45
6.1
9.2
1 1 .0
14.9
MC-M9-ZBD45
3.1
3.4
3.6
4.0
MC-V6-ZBDT60
9.4
14.4
17.4
24.3
MC-V6-ZBDT60
6.0
6.4
6.7
7.3
MC-V6-ZBDT90
12.7
19.1
22 .8
31.4
MC-V6-ZBDT90
8.8
9.5
9.9
10.9
Conditions: EN13215: Suction Gas Return 20°C, Subcooling 0K
100
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Capacity Data
Cooling Capacity (kW)
R407F
Power Input (kW)
R407F
Ambient Temperature: 32°C
Ambient Temperature: 32°C
Evaporating Temperature (°C)
Model
MC-H8-ZF13KE-TFD
-45
-35
-30
-2 0
-1 0
-5
2.5
3.1
4.7
6.7
7.8
8.2
MC-M8-ZF13KE-TFD
2.6
3.2
4.9
7.0
MC-H8-ZF15KE-TFD
3.0
3.7
5.4
7.6
MC-M8-ZF15KE-TFD
3.1
3.9
5.7
8.1
MC-M8-ZF18KE-TFD
3.5
4.5
6.7
MC-M9-ZF18KE-TFD
3.6
4.6
6.9
Evaporating Temperature (°C)
5
Model
MC-H8-ZF13KE-TFD
10.9
-45
-35
-30
-2 0
-1 0
-5
2.9
3.1
3.5
4.0
4.3
4.0
MC-M8-ZF13KE-TFD
2.8
3.0
3.3
3.7
MC-H8-ZF15KE-TFD
3.7
4.0
4.6
5.4
9.5
MC-M8-ZF15KE-TFD
3.5
3.8
4.3
4.9
5.4
9.4
10.9
MC-M8-ZF18KE-TFD
4.2
4.4
5.0
5.7
6.2
4.2
4.3
4.8
5
4.6
9.9
11.7
15.6
MC-M9-ZF18KE-TFD*
5.4
5.9
6.9
MC-D8-ZB15KE-TFD
3.0
3.6
5.1
MC-D8-ZB15KE-TFD
1.9
1.9
2.1
MC-H8-ZB15KE-TFD
3.3
4.0
5.7
MC-H8-ZB15KE-TFD
1.8
4.3
6.0
MC-D8-ZB19KE-TFD
MC-D8-ZB19KE-TFD
1.8
1.9
2.4
2.7
2.4
MC-H8-ZB19KE-TFD
4.0
4.8
6.8
MC-H8-ZB19KE-TFD
2 .2
2 .2
MC-K9-ZB19KE-TFD
4.0
4.8
6.8
MC-K9-ZB19KE-TFD
2 .2
2 .2
2.4
MC-K9-ZB21KE-TFD
4.6
5.6
7.8
MC-K9-ZB21KE-TFD
2.6
2.7
3.0
MC-H8-ZB26KE-TFD
5.1*
6.3
8.8
MC-H8-ZB26KE-TFD
3.2*
6.3
8.8
MC-K9-ZB26KE-TFD
MC-K9-ZB26KE-TFD
MC-H8-ZB30KE-TFD
6 .1 *
7.5
MC-H8-ZB30KE-TFD
3.3
3.7
3.3
3.7
3.8*
4.0
MC-M8-ZB30KE-TFD
4.0*
6.6
8.0
1 1 .1
MC-M8-ZB30KE-TFD
3.3*
3.5
3.7
4.1
MC-P8-ZB30KE-TFD
4.1*
6.7
8.0
11.3
MC-P8-ZB30KE-TFD
3.2*
3.5
3.6
4.0
MC-H8-ZB38KE-TFD
7.0*
8.4*
MC-H8-ZB38KE-TFD
5.0*
5.3*
MC-M8-ZB38KE-TFD
7.6*
9.3
MC-M8-ZB38KE-TFD
4.7*
4.9
MC-P8-ZB38KE-TFD
7.7*
9.4
MC-P8-ZB38KE-TFD
4.6*
4.9
MC-M8-ZB45KE-TFD
8.4*
1 0 .2 *
MC-M8-ZB45KE-TFD
5.6*
6 .0 *
MC-M9-ZB45KE-TFD
MC-R7-ZB45KE-TFD
5.9*
9.1*
1 1 .2
15.5
MC-M9-ZB45KE-TFD
9.7
11 .8
16.4
MC-R7-ZB45KE-TFD
4.7*
5.4*
5.7
6.4
5.2
5.5
6.0
Conditions: EN13215: Suction Gas Return 20°C, Subcooling 0K
* Conditions: EN13215: Suction Superheat 10K
Preliminary data
101
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Copeland Scroll™ Digital Receiver Unit HLR
Copeland Scroll Digital Receiver Units are the perfect choice for
remote condenser systems.
These Scroll Digital Receiver Units are an innovative offering
by Emerson Climate Technologies for food service and retail
businesses. Their compact design and the power of Digital
Scroll™ continuous capacity modulation allow for optimized
environmental integration at highest system efficiency.
Eight models with single or tandem compressors cover the
need of medium temperature refrigeration capacities in various
applications. The continuous capacity modulation always
provides the right performance, especially for systems with
multiple evaporators and variable loads. The remote condenser
concept allows for optimal building integration.
Digital Receiver Unit HLR
Digital Receiver Unit HLR Line-up
Tandem
Single
•
•
•
•
•
•
•
•
M ax. C ap acity (k W )
0
5
10
15
20
25
Conditions EN12900 R404A: Evaporating Temperature -10°C, Condensing Temperature 45°C, Suction Gas Return 20°C
Features and Benefits
Standard equipment: Digital Scroll™ compressor, liquid
receiver, liquid line with filter drier and sight glass, HP/LP
switch, complete electrical box including controller with
overload protection and communication interface
Continuous capacity modulation 10-100 % (Single)
or 5-100 % (Tandem)
Precise suction pressure control
Maximum system flexibility by free choice of third party
condensers
Excellent energy efficiency
High reliability
Easy and quick installation
102
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—
Maximum Allowable Pressures (PS)
Low Side PS 22.5 bar (g)
High Side PS = 28/32 bar (g)
30
35
Width/Depth/
Heigth
(mm)
Net Weight (kg)
Liquid Line
Diameter (inch)
Suction Line Diameter
(inch)
Receiver
Capacity (l)
R404A
Capacity (kW)
Technical Overview
Motor Version/
Code
1 Ph*
3 Ph**
Maximum Operat­
ing Current (A)
1 Ph*
3 Ph**
Locked Rotor Cur­
rent (A)
1 Ph*
Sound Pressure
@1 m dB(A)***
with
sound
shell
3 Ph**
Single Compressor Unit Models
HLR13-ZBD30KE
7.0
13.0
7/8”
5/8”
690/400/710
72
TFD
8
52
59
49
HLR13-ZBD45KE
1 0 .2
13.0
7/8”
5/8”
690/400/710
75
TFD
12
74
61
51
HLR13-ZBD58KE
13.5
13.0
1 1 /8 ”
3/4”
725/400/710
84
TFD
15
95
65
55
HLR13-ZBD76KE
17.8
13.0
1 3/8”
3/4”
725/400/710
90
TFD
20
118
66
56
Tandem Compressor Unit Models
HLR31-ZBDT60KE
14.1
31.0
1 3/8”
7/8”
970/480/910
130
TFD
8 +8
52 + 52
62
-
HLR31-ZBDT90KE
20.3
31.0
1 3/8”
7/8”
970/480/910
138
TFD
12 +12
74 + 74
64
-
HLR31-ZBDT116KE
26.8
31.0
1 5/8”
1 1 /8 ”
970/480/870
165
TFD
15 + 15
95 + 95
68
-
HLR31-ZBDT152KE
35.7
31.0
1 5/8”
1 3/8”
970/480/870
175
TFD
20 + 20
118 + 118
69
-
Conditions EN12900: R404A, Evaporating Temperature -10°C, Condensing Temperature 45°C, Suction Gas Return 20°C
* 1 Ph: 230V/ 50Hz
** 3 Ph: 380-420V/ 50Hz
*** @ 1 m: sound pressure level at 1 m distance from the compressor, free field condition
Capacity Data
Cooling Capacity (kW)
Power Input (kW)
Condensing Temperature: 45°C
R404A
-45
-35
-30
-2 0
-1 0
-5
5
7.0
8.4
1 1 .8
HLR13-ZBD30KCE
HLR13-ZBD45KCE
3.4*
-30
-1 0
-5
5
2.9
3.1
3.2
3.5
-2 0
Single Compressor Units
10 .2
12.5
18.0
HLR13-ZBD45KCE
4.6
4.8
4.9
5.2
8.6
13.5
16.3
22.9
HLR13-ZBD58KCE
6.4
6.4
6.4
6.4
HLR13-ZBD76KCE
1 1 .8
17.9
21.4
30.2
HLR13-ZBD76KCE
8.1
8.3
8.3
8.4
9.6
14.1
16.9
23.6
HLR31-ZBDT60KCE
13.4
20.3
24.5
35.0
HLR31-ZBDT90KCE
13.1*
Tandem Compressor Units
6
.
HLR31-ZBDT116KE
HLR31-ZBDT152KE
o7
.
HLR31-ZBDT90KCE
.5
HLR31-ZBDT60KCE
4.
6.6
HLR13-ZBD58KCE
cn4. CN9
.
4.8
-35
2.
2.7*
Evaporating Temperature (°C)
-45
Single Compressor Units
HLR13-ZBD30KCE
Condensing Temperature: 45°C
R404A
Evaporating Temperature (°C)
Tandem Compressor Units
17.0
26.7
32.4
45.8
HLR31-ZBDT116KE
23.7
35.7
42.9
60.3
HLR31-ZBDT152KE
5.8
6.3
6.5
6.9
9.4
9.6
9.7
9.9
12.7
12.7
12.7
12 .8
16.2
16.4
16.5
16.8
Conditions: EN12900: Condensing Temperature 45°C, Suction Gas Return 20°C, Subcooling 0K
* Conditions:EN12900: Condensing Temperature 45°C, Suction Superheat 10K
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Capacity Data
Cooling Capacity (kW)
R407A
Power Input (kW)
R407A
Condensing Temperature: 40°C
Condensing Temperature: 40°C
Evaporating Temperature (°C)
Model
-45
-35
-30
Evaporating Temperature (°C)
-2 0
-1 0
-5
5
-2 0
-1 0
-5
5
HLR13-ZBD30KCE
4.6
7.3
9.0
13.1
Model
HLR13-ZBD30KCE
-45
-35
-30
2.8
2.8
2.8
2.8
HLR13-ZBD45KCE
6.4
10 .1
12.5
18.3
HLR13-ZBD45KCE
3.8
3.8
3.9
3.9
HLR31-ZBDT60KCE
9.2
14.6
18.0
26.1
HLR31-ZBDT60KCE
5.4
5.5
5.6
5.6
HLR31-ZBDT90KCE
13.0
20.3
24.9
36.3
HLR31-ZBDT90KCE
7.8
7.8
7.8
7.8
Conditions: EN12900: Condensing Temperature 45°C
Suction Gas Return 20°C, Subcooling 0K
Preliminary data
Cooling Capacity (kW)
R407F
Power Input (kW)
R407F
Condensing Temperature: 40°C
Condensing Temperature: 40°C
Evaporating Temperature (°C)
Model
HLR13-ZBD30KCE
-45
-35
-30
-2 0
-1 0
-5
Evaporating Temperature (°C)
5
Model
-45
-35
-30
-1 0
-5
5
4.8
7.3
8.8
12 .8
HLR13-ZBD30KCE
2.5
2.8
2.9
3.1
HLR13-ZBD45KCE
6.4*
10 .8
13.2
18.9
HLR13-ZBD45KCE
3.7*
4.1
4.3
4.6
HLR31-ZBDT60KCE
8.9*
14.5
17.7
25.7
HLR31-ZBDT60KCE
5.4*
5.7
5.8
6.0
HLR31-ZBDT90KCE
12.4*
2 1 .2
26.1
37.9
HLR31-ZBDT90KCE
7.8*
8.4
8.5
8.8
2 .8 *
Conditions: EN12900: Condensing Temperature 45°C, Suction Gas Return 20°C, Subcooling 0K
*Conditions: EN12900: Condensing Temperature 45°C, Suction Superheat 10K
104
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2 .0 *
-2 0
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Semi-Hermetic Condensing Units DK/DL
Copeland™ air-cooled indoor condensing units for medium
temperature and low temperature applications.
Long-term engineering and manufacturing experience has led to
these condensing units with reed valve technology compressors.
Their excellent quality and reliability is traditionally well known in
the refrigeration industry.
This series of condensing units is equipped with single fan or twin
fans which allows for very compact dimensions. The wide range of
models offers solutions for most applications including operation
in extreme conditions like high evaporation temperatures and
high ambient temperatures.
Semi-Hermetic Condensing Unit DK/DL
Semi-Hermetic DK/DL Condensing Units Medium Temperature Line-up
DL-Series
•
DK-Series
•
C ap acity (k W )
1
0
•
1
1
2
•
•
•
•
•
•
•
•
•
1
3
4
5
6
7
8
9
10
Conditions EN13215 R404A: Evaporating Temperature -10°C, Suction Gas Return 20°C, Subcooling 0K
Semi-Hermetic DK/DL Condensing Units Low Temperature Line-up
DL-Series
•
• •
DK-Series
•
•
• • •
•
•
•
• • •
•
•
C ap acity (k W )
0
1
3
2
Conditions EN13215 R404A: Evaporating Temperature -45°C, Suction Gas Return 20°C, Subcooling 0K
Features and Benefits
Standard equipment: compressor, condenser with therm ally
protected fan(s), discharge line with flexible pipe loop or
vibration absorber, liquid receiver with shut-off-valve, HP/LP
switch with automatic reset
Suitable for a broad range of refrigerants: R404A, R507,
R134a, R407A/C, R22
Wide range of quality accessories
Proven reliability
106
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—
Maximum Allowable Pressures (PS)
Low Side PS 22.5 bar (g)
High Side PS = 28 bar (g)
1
1
4
5
Total Fan
Motor Power (W)
Suction Line Diam­
eter (inch)
Net Weight
(kg)
1 Ph*
B8-KM-5X
3.1
1
85
5/8
1 /2
560/570/396
56
CAG
B8-KM-7X
3.1
1
85
1 /2
1 /2
560/570/396
58
B8-KJ-10X
3.1
1
85
5/8
1 /2
560/570/396
58
CAG
EWL
7
B8-KJ-7X
3.1
1
85
5/8
1 /2
560/570/396
58
CAG
EWL
6
B8-KSJ-10X
3.1
1
85
5/8
1 /2
560/570/396
58
CAG
EWL
7
D8-KSJ-15X
3.7
1
110
7/8
1 /2
560/570/446
62
CAG
EWL
9
B8-KL-15X
3.1
1
85
5/8
1 /2
560/570/396
58
CAG
EWL
8
D8-KSL-20X
3.7
1
110
5/8
1 /2
560/570/396
60
EWL
H8-KSL-20X
7.5
1
235
5/8
1 /2
735/680/533
60
EWL
D8-LE-20X
3.7
1
110
7/8
1 /2
560/715/446
97
EWL
H8-LE-20X
7.5
1
235
7/8
1 /2
735/680/533
108
EWL
D8-LF-20X
3.7
1
110
7/8
1 /2
560/715/446
98
H8-LF-30X
7.5
1
235
7/8
1 /2
735/680/533
108
H8-LJ-20X
7.5
1
235
7/8
1 /2
735/680/533
P8-LF-30X
7.5
220
1 1/8
1 /2
H8-LJ-30X
7.5
235
7/8
1 /2
P8-LJ-30X
7.5
220
7/8
H8-LL-30X
7.5
235
K9-LL-30X
7.5
220
H8-LL-40X
7.5
P8-LL-40X
7.5
H8-LSG-40X
7.5
K9-LSG-40X
7.5
Motor Version/Code
Width/Depth/
Height
(mm)
3 Ph**
1 Ph*
3 Ph**
5
1 Ph*
3 Ph**
24
39
12
39
32
16
39
2
35
12 ,0
39
3
32
16
46
3
43
20
46
3
43
20
40
20
46
5
20
49
6
38
46
6
38
49
EWL
5
38
46
EWL
7
53
49
103
EWL
6
38
49
950/640/633
127
EWL
7
53
48
735/680/533
108
EWL
8
53
49
1 /2
950/640/633
127
EWL
8
53
48
1 1/8
1 /2
735/680/533
110
EWL
7
53
49
1 1 /8
1 /2
950/640/454
134
EWL
7
53
47
235
1 1 /8
1 /2
735/680/533
112
EWL
10
69
49
220
1 1 /8
1 /2
950/640/633
128
EWL
10
69
48
1
235
1 1 /8
1 /2
735/680/533
116
EWL
9
69
49
2
220
1 1 /8
1 /2
950/640/454
131
EWL
9
69
51
1
1
1
EWL
Locked Rotor Cur­
rent, A
Sound Pressure
@ 10 m - d(BA)***
R404A
Models
Number of fans
Maximum Operating
Current, A
Receiver Capacity
(l)
Liquid Line Diameter
(inch)
Technical Overview
2
3
5
* 1 Ph: 230V/ 50Hz
** 3 Ph: 380-420V/ 50Hz
*** @ 10 m: sound pressure level at 1 0 m distance from the compressor, free field condition
107
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Capacity Data
Ambient Temperature +32°C
R404A
Cooling Capacity (kW)
Model
-45
-35
-30
-2 0
B8-KM-5X
0.3
0.6
0.8
1.3
B8-KM-7X
0.3
0.6
0.8
1.3
1.9
2 .2
B8-KJ-10X
0.4
0.8
1.1
1.7
2.4
2.8
B8-KJ-7X
0.4
0.8
1.1
1.7
B8-KSJ-10X
0.6
1 .1
1.3
1.8
D8-KSJ-15X
0.6
1 .1
1.4
2.2
B8-KL-15X
0.7
1 .2
1.5
2.3
D8-KSL-20X
0.9
1.6
2.0
3.1
4.3
H8-KSL-20X
0.9
1.7
2.2
3.3
4.8
5.7
1 .2
1.7
2.9
4.3
5.0
D8-LE-20X
4.8
5.8
D8-LE-20X
H8-LE-20X
-1 0
3.2
Power Input (kW)
R404A
Evaporation Temperature (°C)
-5
5
Model
-45
-35
-30
-2 0
B8-KM-5X
0.5
0.6
0.6
0.8
3.0
B8-KM-7X
0.4
0.6
0.7
0.8
3.6
B8-KJ-10X
0.5
0.8
0.9
1 .1
B8-KJ-7X
0.6
0.8
0.9
1 .1
B8-KSJ-10X
0.8
1.0
1 .2
1.5
D8-KSJ-15X
0.7
1.0
1 .1
1.4
B8-KL-15X
0.9
1 .1
1.3
1.6
D8-KSL-20X
1.0
1.3
1.5
2.0
2.6
H8-KSL-20X
1 .1
1.5
1.7
2.1
2.6
2.8
1 .1
1.3
1.7
2 .2
2.5
2.3
2.5
3.8
1.3
1.9
3.2
D8-LF-20X
0.7
1.7
2.2
3.5
H8-LF-30X
0.9
2 .1
2.7
4.4
6.3
7.4
4.7
6.9
8.2
Evaporation Temperature (°C)
7.8
H8-LE-20X
1.8
1.9
1.9
1 .8
2.4
H8-LF-30X
1.3
1.9
2.1
2.7
3.3
3.6
P8-LF-30X
1.3
1.9
2.1
2.6
3.2
3.4
H8-LJ-20X
1 .2
1.8
2 .2
H8-LJ-30X
1.4
2.0
2.4
3.0
3.8
4.2
P8-LJ-30X
1.4
2.0
2.3
3.0
3.6
4.0
H8-LL-30X
1.5
2.2
2.7
3.6
H8-LL-40X
1.7
2.4
2.8
3.7
4.7
5.3
K9-LL-30X
1.5
2.2
2.6
3.6
P8-LL-40X
1.7
2.4
2.8
3.6
4.5
5.0
2 .1
2.9
2.9
H8-LJ-30X
1.1
2.3
3.0
4.7
6.8
7.9
P8-LJ-30X
1.1
2.4
3.2
5.1
7.5
8.9
H8-LL-30X
1.2
2.7
3.6
5.7
H8-LL-40X
1.4
2.8
3.6
5.6
K9-LL-30X
1.2
2.7
3.6
5.7
P8-LL-40X
1.4
2.9
3.9
6.2
H8-LSG-40X
1.7
3.4
4.4
6.7
H8-LSG-40X
1.9
2.8
3.3
4.5
K9-LSG-40X
1.7
3.4
4.4
6.7
K9-LSG-40X
1.9
2.8
3.3
4.5
10 .8
1.8
1.4
2 .1
9.1
1.3
1.5
1.5
1.0
9.4
1 .1
1.4
1 .2
0.8
8.1
1.0
1.0
P8-LF-30X
11.9
5
D8-LF-20X
H8-LJ-20X
1 1 .1
-5
-1 0
3.0
4.0
4.6
Conditions: EN13215: Suction Gas Return 20°C, Subcooling 0K
Cooling Capacity (kW)
R134a
Power Input (kW)
R134a
Ambient Temperature: 32°C
Ambient Temperature: 32°C
Evaporating Temperature (°C)
Model
-45
-35
-30
-2 0
-1 0
Evaporating Temperature (°C)
-5
5
Model
-45
-35
-30
-2 0
-1 0
-5
5
B8-KM-5X
0.8
1 .2
1.5
2 .2
B8-KM-5X
0.5
0.6
0.7
0.8
B8-KJ-7X
1.0
1.6
1.9
2.8
B8-KJ-7X
0.7
0.8
0.9
1 .0
B8-KSJ-10X
1.2
1.9
2.4
3.4
B8-KSJ-10X
0.8
0.9
1.0
1 .2
B8-KL-15X
1.4
2.2
2.6
3.7
B8-KL-15X
0.9
1 .2
1.3
1 .6
D8-KSL-15X
1.8
2.8
3.4
4.9
D8-KSL-15X
1 .1
1.4
1.6
1.9
D8-KSL-20X
1.8
2.9
3.5
5.0
D8-KSL-20X
1 .1
1.4
1.5
1.8
H8-KSL-20X
1.9
3.0
3.7
5.4
H8-KSL-20X
1 .2
1.5
1.6
1.8
D8-LE-20X
1.6
2.7
3.4
4.9
D8-LE-20X
1 .1
1.4
1.5
1.8
H8-LE-20X
1.7
2.9
3.6
5.4
H8-LE-20X
1 .2
1.5
1.6
1.8
D8-LF-20X
2 .2
3.6
4.4
6 .2
D8-LF-20X
1.4
1.7
1.9
2.3
H8-LJ-20X
2.7
4.3
5.2
7.5
H8-LJ-20X
1.8
2.2
2.4
2.8
H8-LL-30X
3.2
5.3
6.5
9.2
H8-LL-30X
2 .1
2.6
3.0
3.7
K9-LL-30X
3.2
5.3
6.5
9.3
K9-LL-30X
2 .1
2.6
2.9
3.7
H8-LSG-40X
4.2
6.6
7.9
1 1 .0
H8-LSG-40X
2.5
3.2
3.7
4.6
K9-LSG-40X
4.2
6.6
8.0
1 1 .1
K9-LSG-40X
2.5
3.2
3.6
4.5
Conditions: EN13215: Suction Gas Return 20°C, Subcooling 0K
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Capacity Data
Cooling Capacity (kW)
R407A
Power Input (kW)
R407A
Ambient Temperature: 32°C
Ambient Temperature: 32°C
Evaporating Temperature (°C)
Evaporating Temperature (°C)
Model
-45
-35
-30
-2 0
B8-KM-5X
0 .1
0.5
0.7
1 .2
B8-KM-7X
0 .1
0.5
0.7
1 .2
1.8
2.2
B8-KJ-10X
0 .2
0.7
0.9
1.5
2.3
2.7
B8-KJ-7X
0 .2
0.7
0.9
1.5
-1 0
-5
5
3.0
Model
-45
-35
-30
-2 0
B8-KM-5X
0.4
0.5
0.6
0.7
-1 0
-5
B8-KM-7X
0.5
0.6
0.6
0.8
0.9
1.0
1 .2
B8-KJ-10X
32.0
0.5
0.6
0.7
0.9
1 .2
1.4
B8-KJ-7X
32.0
0.6
0.7
0.8
1.0
B8-KSJ-10X
0.7
0.9
1.0
1.3
D8-KSJ-15X
0.8
0.9
1.0
1.3
1.5
32.0
0.8
1.0
1 .1
1.4
B8-KSJ-10X
0.3
0.9
1 .2
1.9
D8-KSJ-15X
0.3
0.9
1 .2
2.0
B8-KL-15X
0.3
1.0
1.3
2.1
D8-LE-20X
0.9
1.4
2.6
4.1
5.0
D8-LE-20X
1 .1
1 .2
1.6
2.1
2.3
H8-LE-20X
0.9
1.5
2.8
4.6
5.6
7.9
H8-LE-20X
0.9
1 .1
1.5
2.0
2 .2
1 .2
1.5
2.0
6 .2
7.5
10 .6
P8-LF-30X
1.3
1.6
2.2
2.7
3.0
1.5
1.8
2.5
D8-LF-20X
0 .1
P8-LF-30X
1.3
1.8
3.2
1.4
2.1
3.9
3.0
3.6
5
B8-KL-15X
D8-LF-20X
H8-LJ-20X
0.7
1.7
H8-LJ-20X
0 .1
1.6
2.3
4.2
H8-LJ-30X
0.4
1.9
2.6
4.3
6.6
7.9
H8-LJ-30X
1 .2
1.7
2.0
2.6
3.3
3.7
P8-LJ-30X
0.4
1.9
2.6
4.5
6.9
8.3
P8-LJ-30X
1 .1
1.7
1.9
2.6
3.2
3.6
H8-LL-30X
0.3
2.1
3.0
5.2
H8-LL-30X
1 .2
1.8
2 .2
3.1
1.0
H8-LL-40X
0.3
2.1
3.1
5.3
8.0
9.5
H8-LL-40X
1 .2
1.9
2 .2
3.1
4.1
4.6
P8-LL-40X
0.3
2.2
3.2
5.6
8.6
10.3
P8-LL-40X
1 .2
1.9
2 .2
3.1
4.0
4.5
K9-LSG-40X
0.6
2.7
3.8
6.3
K9-LSG-40X
1.5
2.3
2.7
3.8
2.7
3.6
Conditions: EN13215: Suction Gas Return 20°C, Subcooling 0K
Suction Superheat 10K
Ambient Temperature +32°C
R22
Cooling Capacity (kW)
Model
-45
-35
-30
-2 0
-1 0
-5
B8-KM-5X
0 .2
0.5
0.7
1 .2
1.8
2 .2
B8-KM-7X
0 .2
0.5
0.7
1 .2
1.8
2 .2
3.0
0.7
0.9
1 .6
2.3
2.8
3.8
B8-KJ-10X
B8-KJ-10X
Power Input (kW)
R22
Evaporation Temperature (°C)
5
Model
Evaporation Temperature (°C)
-45
-35
-30
-2 0
-1 0
-5
5
B8-KM-5X
0.4
0.5
0.6
0.7
0.9
1.0
B8-KM-7X
0.4
0.5
0.6
0.7
0.9
1.0
1 .1
0.7
0.8
1.0
1 .2
1.3
1.5
1 .1
B8-KJ-7X
0.3
0.7
0.9
1.5
2.3
2.8
B8-KJ-7X
0.4
0.5
0.6
0.7
0.9
1.0
B8-KSJ-10X
0.5
0.9
1 .2
1.9
2.8
3.3
B8-KSJ-10X
0.6
0.9
1.0
1 .2
1 .6
1.8
1.0
1.3
2.1
3.2
3.8
0.9
1.0
1 .2
1.5
1.6
1 .1
1.4
2 .2
1.0
1 .1
1.4
D8-KSL-20X
1.4
1.8
2.9
4.3
D8-KSL-20X
1 .2
1.4
1.8
2 .2
H8-KSL-20X
1.5
1.9
3.1
4.6
H8-KSL-20X
1.3
1.5
1.9
2 .2
2.4
D8-LE-20X
1 .2
1.6
2.8
4.4
5.2
7.3
D8-LE-20X
1 .2
1.4
1 .8
2 .2
2.4
2.9
H8-LE-20X
1 .2
1.7
3.0
4.7
5.7
8.1
H8-LE-20X
1.3
1.5
1.9
2.3
2.4
2.8
2.4
D8-KSJ-15X
B8-KL-15X
D8-LF-20X
0.6
5.1
D8-KSJ-15X
B8-KL-15X
5.5
1.8
1.7
2.3
3.8
1.6
1.8
H8-LF-30X
1.7
2.4
4.1
6.3
7.5
10.3
H8-LF-30X
1.7
1.9
2.4
3.0
3.3
3.8
P8-LF-30X
1.8
2.5
4.3
6.7
8.0
1 1 .2
P8-LF-30X
1.7
1.9
2.4
2.9
3.1
3.5
1.8
2.1
2.8
1.8
2.1
2.8
3.4
3.8
4.4
1.8
2.1
2.7
3.3
3.6
4.1
2 .2
2.6
3.4
2.3
2.6
3.4
4.2
4.7
3.4
4.0
4.5
H8-LJ-20X
0.8
2.0
2.8
4.7
H8-LJ-30X
2.0
2.7
4.6
7.0
8.3
1 1 .2
H8-LJ-30X
P8-LJ-30X
2 .1
2.9
4.9
7.5
9.0
12.3
P8-LJ-30X
2.6
3.5
5.7
2.6
3.5
5.7
H8-LL-30X
0.9
D8-LF-20X
0.7
1.3
H8-LL-40X
K9-LL-30X
1.3
P8-LL-40X
2.7
3.5
5.8
2.7
3.7
6.1
H8-LJ-20X
H8-LL-30X
8.5
10 .0
9.2
10.9
1 .1
1.3
1.6
H8-LL-40X
K9-LL-30X
14.7
1.6
P8-LL-40X
2 .2
2.6
2 .2
2.6
3.3
H8-LSG-40X
1.8
3.5
4.6
7.1
H8-LSG-40X
2.1
3.0
3.5
4.5
K9-LSG-40X
1.8
3.5
4.6
7.1
K9-LSG-40X
2.1
3.0
3.4
4.4
5.3
Conditions: EN13215: Suction Gas Return 20°C, Subcooling 0K
109
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Standard Semi-Hermetic Condensing Units
Copeland™ air-cooled indoor condensing units for medium
temperature and low temperature applications.
Long-term engineering and manufacturing experience has led to
this complete range of condensing units featuring semi-hermetic
reciprocating compressor technology for use in high, medium
and low temperature applications. Their excellent quality and
reliability is traditionally well known in the refrigeration industry.
This series is equipped with compressors using reed valve
technology which provide 0.5 to 40 hp motor power. The
wide range of models offers solutions for most applications
including operation in extreme conditions like high evaporation
temperatures and high ambient temperatures.
Standard Semi-Hermetic Condensing Units
Standard Units Line-up
Medium Temperature
• • *M
Low Temperature
• • • •
•
•
• •
M •
M
25
30
•
C ap acity (k W )
0
5
10
15
20
35
40
45
Conditions EN13215 R404A: Evaporating Temperature LT -45°C/MT -10°C, Suction Gas Return 20°C, Subcooling 0K
Features and Benefits
Maximum Allowable Pressures (PS)
•
•
•
•
•
•
•
Standard equipment: compressor, condenser with therm ally
protected fan(s), discharge line with flexible pipe loop or
vibration absorber, liquid receiver with shut-off-valve, HP/LP
switch with automatic reset, oil pressure safety control OPS2
Multiple choice of refrigerants incl. R404A, R134a and R22
Robust design with good component accessibility
Wide range of quality accessories
Proven reliability
110
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Low Side PS 22.5 bar (g)
High Side PS = 28 bar (g)
50
55
60
Width/Depth/
Height
(mm)
Net Weight
(kg)
Liquid Line
Diameter (inch)
Suction Line
Diameter (inch)
Total Fan
Motor Power (W)
Number of fans
R404A
Receiver Capacity
(l)
Technical Overview
re
u
r )**
Irt <C
<S “
Motor Version/
Code
Maximum
Operating Current,
A
Locked Rotor
Current, A
3 Ph**
3 Ph**
3 Ph**
^@
£^
^ E
o 10
n
u
M8 - 2SA - 45X
7.9
1
235
1 1 /8
1 /2
735/730/708
150
EWL
11
69
49
R7 - 2SA - 45X
15.8
2
470
1 1 /8
3/4
1130/820/633
150
EWL
11
69
53
M9 - 2SA - 55X
7.9
1
400
1 1 /8
1 /2
735/730/708
149
EWL
13
67
50
50
M9 - 2SC - 55X
7.9
1
400
1 1 /8
1 /2
735/730/708
150
EWL
13
74
S9 - 2SC - 55X
15.8
2
470
1 1 /8
3/4
1130/820/708
150
EWL
13
74
53
S9 - 2SC - 65X
15.8
2
470
1 1 /8
3/4
1130/820/708
161
EWL
16
85
53
52
M9 - 2SK - 65X
7.9
1
400
1 1 /8
1 /2
735/730/708
150
EWL
16
85
V9 - 2SK - 65X
18.9
2
470
1 1 /8
7/8
1330/820/835
150
EWL
16
85
54
V9 - 3SA - 75X
18.9
2
470
1 3/8
7/8
1330/820/835
215
AWM
18
82
55
S9 - 3SC - 75X
15.8
2
470
1 3/8
3/4
1130/820/708
243
AWM
19
82
52
V 6 - 3SC - 75X
18.9
2
800
1 3/8
7/8
1330/820/835
280
AWM
19
82
56
V 6 - 3SC- 100X
18.9
2
800
1 3/8
7/8
1330/820/835
280
AWM
22
106
56
V 6 - 3SS- 100X
18.9
2
800
1 3/8
7/8
1330/820/835
280
AWM
26
109
56
W9 - 3SS - 100X
18.9
2
800
1 3/8
7/8
1640/820/869
303
AWM
26
109
56
W9 - 3SS - 150X
18.9
2
800
7/8
1640/820/869
303
AWM
30
125
57
1 5/8
V 6 - 4SL- 150X
18.9
2
800
1 5/8
7/8
1289/955/835
280
AWM
36
156
56
W9 - 4SA - 200X
18.9
2
800
1 5/8
7/8
1600/1108/875
303
AWM
32
175
57
Z9 - 4SA - 200X
18.9
4
1600
1 5/8
7/8
1600/1108/1252
280
AWM
32
175
52
W9 - 4ST - 200X
18.9
2
800
2 1/8
7/8
1600/1108/875
303
AWM
42
175
56
Z9 - 4SH - 250X
18.9
4
1600
2 1/8
7/8
1600/1108/1252
215
AWM
42
199
55
Z9 - 4SJ - 300X
18.9
4
1600
2 1/8
7/8
1600/1108/1252
215
AWM
48
221
55
Z 9 - 6SL- 250X
18.9
4
1600
2 1 /8
7/8
1600/1128/1252
215
AWM
57
199
55
Z9 - 6 ST - 320X
18.9
4
1600
2 1 /8
7/8
1600/1128/1252
215
AWM
63
255
55
W99- 6 SJ - 400X
44.0
4
1600
2 1 /8
7/8
1600/1200/1810
303
AWM
75
304
57
** 3 Ph: 380-420V/ 50Hz
*** @ 10 m: sound pressure level at 1 0 m distance from the compressor, free field condition
111
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Capacity Data
Cooling Capacity (kW)
R404A
Power Input (kW)
R404A
Ambient Temperature: 32°C
Ambient Temperature: 32°C
Evaporating Temperature (°C)
Evaporating Temperature (°C)
Model
-45
-35
-30
-2 0
-1 0
M8-2SA-45X
1.3*
2.9*
4.5
6.8
9.4
4.7
7.3
10.3
1 1 .8
M9-2SA-55X
R7-2SA-45X
1.4*
3.7
4.9
7.5
10 .8
1 2 .6
M9-2SC-55X
1.4*
4.1
5.3
8.3
1 1 .6
13.5
S9-2SC-55X
1.5*
4.3
M9-2SA-55X
S9-2SC-65X
-5
5.7
9.1
13.2
15.5
5.7
9.1
13.1
15.3
13.0
M9-2SK-65X
1.5*
4.7
6 .2
9.4
V9-2SK-65X
1.7*
5.2
6.9
10 .8
15.6
18.3
6.5
10.5
15.4
18.1
7.4
11.5
16.3
19.0
8.4
13.4
19.4
22 .8
12 .8
18.9
22.3
V9-3SA-75X
S9-3SC-75X
2 .0 *
5.7
V6-3SC-100X
V6-3SC-75X
2 .2 *
6.0
8.0
V6-3SS-100X
3.3*
8.5
10.9
16.7
23.5
W9-3SS-100X
3.4*
8.5
1 1 .0
16.8
23.8
11.4
17.6
24.9
28.9
W9-3SS-150X
W9-4SA-200X
5
20 .1
24.0
Model
-45
-35
-30
-2 0
-1 0
M8-2SA-45X
2 .2 *
3.1*
3.7
4.9
6 .2
3.7
4.9
6.0
6.7
R7-2SA-45X
2.4*
3.4
3.9
5.0
6 .2
6.8
M9-2SC-55X
2.4*
3.6
4.2
5.7
7.3
8.2
S9-2SC-55X
2.5*
3.7
4.3
5.7
7.1
7.9
4.6
5.8
7.1
7.8
5.1
6.8
8.8
S9-2SC-65X
M9-2SK-65X
3.0*
4.4
V9-2SK-65X
3.1*
4.5
30.3
5.2
6.7
8.4
9.4
4.7
6.1
7.7
8.5
5.7
7.6
9.7
10 .8
6.1
7.7
9.5
10.4
5.1
6.0
7.7
9.6
10 .6
14.9
V9-3SA-75X
S9-3SC-75X
3.3*
-5
4.8
V6-3SC-100X
5
9.2
10 .1
1 2 .2
V6-3SC-75X
3.6*
27.4
V6-3SS-100X
5.2*
6.9
8.0
10.5
13.3
27.7
W9-3SS-100X
5.2*
6.9
8.0
10.5
13.3
14.8
8.4
10 .8
13.4
14.7
17.6
37.7
W9-3SS-150X
11.4
18.0
26.0
30.4
39.7
W9-4SA-200X
7.6*
12.3
20 .1
30.0
35.8
49.0
Z9-4SA-200X
1 1 .8
15.1
22 .6
30.9
Z9-4SH-250X
15.4
24.9
36.7
43.4
58.4
Z9-4SH-250X
11.4
14.5
17.7
19.4
22.7
Z9-4SJ-300X
18.5
29.7
43.0
50.3
65.9
Z9-4SJ-300X
1 2 .8
16.8
20.9
22.9
26.9
25.9
17.4
Z9-4SA-200X
V6-4SL-150X
4.5*
W9-4ST-200X
5.8*
14.0
17.6
Z9-6SL-250X
7.4*
18.3
23.5
35.6
49.5
26.1
40.7
56.9
27.7
41.9
58.1
W99-6SJ-400X
Z9-6ST-320X
7.8*
21.5
Conditions: EN13215: Suction Gas Return 20°C, Subcooling 0K
* Conditions: EN13215: Suction Superheat 10K
112
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V6-4SL-150X
6.5*
8.3
10.9
13.7
15.2
18.3
7.9*
9.1
11.5
13.8
15.0
17.2
9.4
1 1 .1
14.8
19.0
W9-4ST-200X
7.6*
1 1 .0
13.0
57.0
Z9-6SL-250X
9.9*
14.3
16.8
2 2 .1
27.9
30.9
65.4
W99-6SJ-400X
18.2
24.4
31.3
35.0
20.0
26.4
33.6
Z9-6ST-320X
1 1 .8 *
17.1
Capacity Data
Cooling Capacity (kW)
R134a
Power Input (kW)
R134a
Ambient Temperature: 32°C
Ambient Temperature: 32°C
Evaporating Temperature (°C)
Model
-45
-35
-30
Evaporating Temperature (°C)
-1 0
-5
5
M8-2SA-45X
6.6
8.1
1 1 .6
M8-2SA-45X
R7-2SA-45X
7.0
8.6
12.7
R7-2SA-45X
M9-2SC-55X
8.1
9.8
13.9
M9-2SC-55X
S9-2SC-55X
8.5
10.4
15.0
S9-2SC-55X
-2 0
Model
-45
-35
-30
-2 0
-1 0
-5
5
3.4
3.7
4.4
3.5
3.8
4.4
4.1
4.6
5.5
4.1
4.5
5.3
6.4
M9-2SK-65X
8.9
10 .8
15.2
M9-2SK-65X
4.7
5.2
V9-2SK-65X
9.5
1 1 .8
17.1
V9-2SK-65X
4.6
5.0
5.9
S9-3SC-75X
10.9
13.3
19.1
S9-3SC-75X
5.4
6.0
7.4
V6-3SC-75X
1 1 .6
14.3
2 1 .1
V6-3SC-75X
5.6
6.1
7.4
V6-3SS-100X
14.8
18.2
26.3
V6-3SS-100X
7.2
8.0
9.7
W9-3SS-100X
14.9
18.3
26.6
W9-3SS-100X
7.2
7.9
9.6
13.9
V6-4SL-150X
13.6
21.5
26.3
37.2
V6-4SL-150X
7.6
9.8
1 1 .1
W9-4ST-200X
16.2
25.4
30.9
43.2
W9-4ST-200X
9.0
11.7
13.3
16.9
Z9-6SL-250X
21.3
33.8
41.2
58.5
Z9-6SL-250X
11.7
15.05
16.9
20.9
Z9-6ST-320X
24.4
39.3
48.1
68.4
Z9-6ST-320X
13.9*
17.95
20 .2
25.2
Conditions: EN13215: Suction Gas Return 20°C, Subcooling 0K
Preliminary data
Cooling Capacity (kW)
R22
Power Input (kW)
R22
Ambient Temperature: 32°C
Ambient Temperature: 32°C
Evaporating Temperature (°C)
Model
M8-2SA-45X
-45
-35
-30
2.5
3.6
M9-2SA-55X
-2 0
Evaporating Temperature (°C)
-1 0
-5
6.4
9.4
1 1 .2
6.0
10 .0
12 .0
5
Model
M8-2SA-45X
16.6
-45
-35
-30
2.7
3.1
M9-2SA-55X
-5
-2 0
-1 0
4.1
5.3
5.9
4.2
5.2
5.7
5
6.8
R7-2SA-45X
2.6
3.7
6.8
10.3
12.3
R7-2SA-45X
2.9
3.3
4.3
5.2
5.8
M9-2SC-55X
2.7
4.1
7.9
1 2 .0
14.3
M9-2SC-55X
3.3
3.9
5.1
6.5
7.4
S9-2SC-55X
2.9
4.4
8.4
12.9
15.6
S9-2SC-55X
3.4
3.9
5.1
6.3
6.9
9.2
13.3
15.5
5.8
7.1
7.7
M9-2SK-65X
3.7
5.3
8.8
13.5
15.9
M9-2SK-65X
4.1
4.7
6.1
7.9
9.0
V9-2SK-65X
4.1
5.7
10 .2
15.2
18.1
V9-2SK-65X
4.1
4.7
6.0
7.4
8.2
V9-3SA-75X
9.5
14.6
17.7
25.0
V9-3SA-75X
5.6
6.8
7.5
9.0
V6-3SC-100X
11.9
18.1
2 1 .8
30.9
V6-3SC-100X
7.0
8.4
9.1
10 .6
W9-3SS-150X
16.2
24.0
28.6
39.2
W9-3SS-150X
9.5
1 1 .6
12 .8
15.4
S9-2SC-65X
20.5
S9-2SC-65X
9.1
W9-4SA-200X
17.4
26.8
31.9
43.4
W9-4SA-2000
9.9
1 2 .2
13.5
16.2
Z9-4SA-200X
19.2
29.2
35.2
49.4
Z9-4SA-200X
10.4
12.3
13.3
15.1
Z9-4SH-250X
23.0
36.2
43.6
60.8
Z9-4SH-250X
1 2 .8
15.5
16.9
19.9
Z9-4SJ-300X
14.7
41.2
49.7
69.2
Z9-4SJ-300X
14.7
18.4
20.3
24.3
W99-6SJ-400X
35.4
56.6
67.7
92.6
W99-6SJ-400X
2 2 .1
28.0
31.3
38.4
Conditions: EN13215: Suction Gas Return 20°C, Subcooling 0K
* Conditions: EN13215: Suction Superheat 10K
113
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Condensing Units with Semi-Hermetic Discus™ Compressors
Copeland™ air-cooled indoor condensing units for medium
temperature and low temperature applications.
In a further approach to improve compressor performance and
reduce compression losses, Emerson Climate Technologies
engineers developed the Discus valve technology.
This series of condensing units is equipped with 2, 3, 4 or 6 cylinder
semi-hermetic compressors with Discus valve technology. The
models are specifically suitable for those applications where high
efficiency and low energy consumption is required.
The wide range of compressor models combined with 2 or 4 fan
high capacity condensers covers most application needs of low
temperature and medium temperature applications.
Condensing Units with Semi-Hermetic Discus Compressors
Discus Condensing Units Line-up
Medium Temperature
•
•
• •
•
•
•
•
•
•
•
•
•
•
•
1
I
t
Low Temperature
•
•
•
C ap acity (k W )
0
5
10
15
20
25
30
35
40
45
50
Conditions EN13215 R404A: Evaporating Temperature LT -45°C/MT -10°C, Suction Gas Return 20°C, Subcooling 0K
Features and Benefits
Maximum Allowable Pressures (PS)
•
•
•
•
•
•
•
Standard equipment: Discus compressor, condenser with
therm ally protected fan(s), discharge line with flexible pipe
loop or vibration absorber, liquid receiver with shut-offvalve, HP/LP switch with automatic reset, oil pressure safety
control OPS2
Suitable for multiple refrigerants: R404A, R407A, R407F,
R507, R134a and R22
Wide range of quality accessories
Excellent efficiency
Proven reliability
114
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Low Side PS 22.5 bar (g)
High Side PS = 28 bar (g)
55
60
65
2
1 3/8
5/8
950/740/633
186
AWM
13
55
50
Motor Version/
Code
Maximum Operat­
ing Current, A
Locked Rotor Cur­
rent, A
3 Ph**
3 Ph**
3 Ph**
Sound Pressure
@10 m - d(BA)***
Width/Depth/
Height
(mm)
Net Weight
(kg)
Total Fan
Motor Power (W)
220
Liquid Line Diameter
(inch)
11.7
Suction Line Diameter
(inch)
P8-2DB-50X
Number of fans
R404A
Receiver Capacity
(i)
Technical Overview
P8-2DB-75X
11.7
2
220
1 3/8
5/8
950/740/633
191
AWM
16
70
52
P8-2DC-50X
11.7
2
220
1 3/8
5/8
950/740/633
186
AWM
9
55
50
P8-2DL-75X
11.7
2
220
1 3/8
5/8
950/740/633
191
AWM
14
70
50
P8-3DA-50X
11.7
2
220
1 3/8
5/8
950/740/633
205
AWM
16
55
52
P8-3DA-75X
11.7
2
220
1 3/8
5/8
950/740/633
2 11
AWM
18
106
52
R7-2DD-50X
15.8
2
470
1 3/8
3/4
1130/820/633
196
AWM
10
55
55
R7-2DL-75X
15.8
2
470
1 3/8
3/4
1130/820/708
205
AWM
14
70
55
R7-3DC-100X
15.8
2
470
1 3/8
3/4
1129/820/633
234
AWM
21
121
56
R7-3DC-75X
15.8
2
470
1 3/8
3/4
1130/820/633
278
AWM
18
70
55
S9-2DB-75X
15.8
2
470
1 3/8
3/4
1130/820/708
212
AWM
16
70
54
S9-3DA-75X
18.9
2
470
1 3/8
7/8
1130/820/835
259
AWM
18
106
54
S9-3DS-100X
15.8
2
470
1 3/8
3/4
1130/820/708
239
AWM
24
12 1
54
S9-3DS-150X
15.8
2
470
1 5/8
3/4
1129/820/708
243
AWM
29
129
57
V5-4DA-200X
18.9
2
470
1 5/8
7/8
1283/950/835
298
AWM
33
175
54
V6-3DC-100X
18.9
2
800
1 3/8
7/8
1330/820/835
278
AWM
21
121
57
V6-3DS-150X
18.9
2
800
1 5/8
7/8
1330/820/835
280
AWM
29
129
57
V6-4DF-100X
18.9
2
800
1 5/8
7/8
1283/950/835
295
AWM
27
105
57
V6-4DH-250X
18.9
2
800
2 1 /8
7/8
1283/950/835
307
AWM
42
199
57
V6-4DL-150X
18.9
2
800
2 1 /8
7/8
1289/955/835
303
AWM
35
156
59
W9-3DS-150X
18.9
2
800
1 5/8
7/8
1640/820/869
303
AWM
29
129
59
W9-4DJ-300X
18.9
2
800
2 1 /8
7/8
1596/1102/875
358
AWM
53
221
59
W9-4DT-220X
18.9
2
800
2 1 /8
7/8
1600/1108/875
358
AWM
43
175
60
W99-6DH-350X
44.0
4
1600
2 1 /8
7/8
1600/1200/1810
548
AWM
64
304
60
W99-6DJ-400X
44.0
4
1600
2 1 /8
7/8
1600/1200/1810
563
AWM
83
304
60
Z9-4DA-200X
18.9
4
1600
1 5/8
7/8
1600/1108/1252
402
AWM
33
175
60
Z9-4DH-250X
18.9
4
1600
2 1 /8
7/8
1600/1108/1252
411
AWM
42
199
60
Z9-4DJ-300X
18.9
4
1600
2 1 /8
7/8
1600/1108/1252
416
AWM
53
221
60
Z9-6DH-350X
18.9
4
1600
2 1 /8
7/8
1596/1125/1252
441
AWM
64
304
60
Z9-6DJ-400X
18.9
4
1600
7/8
1596/1125/1252
457
AWM
83
304
60
2 1 /8
Z9-6DL-270X
18.9
4
1600
2 1 /8
7/8
1600/1128/1257
437
AWM
54
199
60
Z9-6DT-320X
18.9
4
1600
2 1/8
7/8
11600/1128/1252
457
AWM
62
255
60
** 3 Ph: 380-420V/ 50Hz
*** @ 1 0 m: sound pressure level at 1 0 m distance from the compressor, free field condition
115
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Capacity Data
Cooling Capacity (kW)
R404A
Power Input (kW)
R404A
Ambient Temperature: 32°C
Ambient Temperature: 32°C
Evaporating Temperature (°C)
Model
-45
Evaporating Temperature (°C)
-35
-30
-2 0
-1 0
-5
5
Model
P8-2DC-50X
2.4
3.2
5.2
7.9
9.5
13
R7-2DD-50X
2.5
3.6
6.1
9.3
1 1 .2
15.6
5.0
6.5
9.8
3.8
5.0
8.0
1 1 .8
P8-3DA-75X
R7-2DL-75X
-45
-35
-30
-2 0
-1 0
-5
5
P8-2DC-50X
2.0
2.3
3.0
3.7
4.0
4.7
R7-2DD-50X
2.6
4.9
5.6
6.1
7.3
P8-3DA-75X
13.9
18.6
R7-2DL-75X
3.2
3.0
3.7
4.5
4.1
4.8
6.4
3.6
4.5
5.6
P8-3DA-50X
2.3
5.4
6.7
9.6
11.9
P8-3DA-50X
2.9
4.2
5.0
6.5
8.2
P8-2DB-50X
2.0
4.6
5.9
8.9
12.3
P8-2DB-50X
2.5
3.4
4.0
5.4
7.0
4.9
6.14
9.2
12.3
P8-2DB-75X
4.4
5.6
6.4
P8-2DB-75X
S9-2DB-75X
5.0
6.6
10.3
14.9
17.6
S9-3DA-75X
5.4
7.1
1 1 .2
16.0
18.7
23.7
S9-2DB-75X
3.8
4.3
5.5
6.7
7.4
S9-3DA-75X
4.4
5.1
6.5
8.0
8.7
R7-3DC-100X
3.1
6.7
8.4
12 .1
16.2
R7-3DC-100X
3.9
5.4
6.2
7.9
9.9
R7-3DC-75X
3.1
6.7
8.4
1 2 .1
16.2
R7-3DC-75X
3.9
5.4
6 .2
7.9
9.8
6.1
8.2
13.3
19.7
5.3
6.1
7.6
9.1
13.4
V6-3DC-100X
S9-3DS-100X
4.2
23.5
32.5
V6-3DC-100X
9.0
11.3
16.2
19.9
7.1
8.2
10.7
9.4
1 2 .2
18.5
25.9
30.1
39.1
V6-3DS-150X
7.1
8.2
10 .6
12.9
14.1
16.3
W9-3DS-150X
9.4
1 2 .2
18.7
26.2
30.5
39.7
W9-3DS-150X
7.1
8.2
10.5
12.9
14.0
16.2
V6-4DF-100X
9.9
31.1
15.6
12.7
19.2
26.9
15.5
23.5
32.4
Z9-4DA-200X
10.4
13.9
2 2 .2
32.5
38.6
52.3
5.1
1 1 .2
V6-3DS-150X
V6-4DH-250X
S9-3DS-100X
9.8
8.8
V6-4DF-100X
7.6
8.8
11.4
14.1
V6-4DH-250X
9.6
1 1 .2
14.6
18.2
Z9-4DA-200X
8.1
9.3
1 1 .6
13.6
14.6
16.3
V6-4DL-150X
5.7
1 2 .8
16.1
23.8
32.7
V6-4DL-150X
7.1
9.9
11.5
15.0
18.9
W9-4DT-220X
7.1
15.4
19.2
27.6
34.3
W9-4DT-220X
8.6
1 2 .1
14.1
18.4
23.0
Z9-4DH-250X
13.3
17.5
27.5
39.8
46.8
62.5
Z9-4DH-250X
10.4
1 1 .8
14.8
17.6
19.1
2 1 .8
Z9-4DJ-300X
16.3
2 1 .2
32.6
46.1
53.7
70.2
Z9-4DJ-300X
1 2 .2
14.0
17.8
2 1 .6
23.5
27.3
8.8
19.5
24.7
36.9
51.4
59.4
15.1
17.3
2 2 .1
27.2
30.0
19.4
25.2
38.3
53.6
62.2
14.6
16.9
2 1 .6
26.4
28.9
10.4
23.5
29.7
43.7
59.4
67.6
Z9-6DT-320X
18.0
20.7
26.6
33.0
36.4
22.5
29.1
43.8
60.7
69.9
W99-6DJ-400X
17.4
20.3
26.3
32.7
36.1
Z9-6DL-270X
W99-6DH-350X
Z9-6DT-320X
W99-6DJ-400X
Z9-6DL-270X
80.7
10.9
W99-6DH-350X
12.9
33.9
Conditions: EN13215: Suction Gas Return 20°C, Subcooling 0K
Ambient Temperature +32°C
R407C
Cooling Capacity (kW)
Power Input (kW)
R407C
Evaporating Temperature (°C)
Model
-2 0
-15
-1 0
-5
0
5
10
P8-2DC-50X
4.1
5.3
6.8
8.4
10 .2
1 2 .1
14.2
Evaporating Temperature (°C)
Model
-2 0
-15
-1 0
-5
0
5
10
P8-2DC-50X
2.3
2.6
3.0
3.3
3.7
4.2
4.6
R7-2DD-50X
5.1
6.6
8.4
10.4
1 2 .6
15.0
17.6
R7-2DD-50X
2.9
3.3
3.6
4.0
4.4
4.9
5.3
R7-2DL-75X
6.3
8.0
10 .1
12.4
14.9
17.7
20.6
R7-2DL-75X
3.5
4.0
4.5
5.1
5.6
6.2
6.9
S9-2DB-75X
8.2
2 0 .2
12.5
15.1
18.0
2 1 .0
24.3
S9-2DB-75X
4.4
4.9
5.5
6.1
6.7
7.4
8.1
S9-3DA-75X
9.0
1 1 .2
13.9
16.8
20 .0
23.3
26.9
S9-3DA-75X
5.1
5.6
6.3
7.0
7.8
8.6
9.5
V6-3DC-100X
11.4
14.3
17.6
21.4
25.6
30.2
35.1
V6-3DC-100X
6.1
6.7
7.4
8.2
8.9
9.7
10 .6
V6-3DS-150X
15.3
18.7
2 2 .6
26.9
31.7
36.8
42.2
V6-3DS-150X
8.4
9.3
10.3
11.3
12.5
13.8
15.2
14.9
W9-3DS-150X
15.4
18.9
22.9
27.4
32.3
37.7
43.3
W9-3DS-150X
8.3
9.2
1 0 .2
1 1 .2
12.3
13.6
Z9-4DA-200X
18.1
22 .8
28.1
34.3
41.2
48.9
57.3
Z9-4DA-200X
9.0
10 .0
1 1 .0
1 2 .0
13.0
14.0
14.9
Z9-4DH-250X
23.1
28.4
34.8
42.2
50.5
59.4
68.8
Z9-4DH-250X
12.4
13.4
14.6
15.9
17.3
18.8
2 0 .2
Z9-4DJ-300X
26.5
32.4
39.1
46.8
55.2
64.3
74.1
Z9-4DJ-300X
14.5
16.2
18.1
20 .0
22 .0
24.1
26.3
W99-6DH-350X
32.6
39.8
48.2
57.6
67.9
78.9
90.4
W99-6DH-350X
17.6
19.7
2 2 .0
24.5
27.0
29.6
32.2
W99-6DJ-400X
34.5
44.4
53.5
63.6
74.5
85.8
97.4
W99-6DJ-400X
20.7
23.5
26.5
29.7
33.0
36.5
39.9
Conditions: EN13215: Suction Gas Return 20°C, Subcooling 0K
116
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Capacity Data
Cooling Capacity (kW)
R134a
Power Input (kW)
R134a
Ambient Temperature: 32°C
Ambient Temperature: 32°C
Evaporating Temperature (°C)
Model
-45
-35
-30
Evaporating Temperature (°C)
-2 0
-1 0
-5
5
P8-2DB-50X
5.1
8.4
10.3
14.5
P8-2DB-75X
4.5*
7.6*
9.5*
P8-2DL-75X
3.7*
6.5*
8 .2 *
P8-3DA-50X
5.8
9.2
P8-3DA-75X
5.0*
8 .6 *
-2 0
-1 0
-5,0
5,0
P8-2DB-50X
2.8
3.7
4.1
5.1
14.1*
P8-2DB-75X
2 .8 *
3.6*
4.0*
12.4*
P8-2DL-75X
1 1 .2
15.7
P8-3DA-50X
3.2
4.2
4.7
5.8
10.7*
15.8*
P8-3DA-75X
3.3*
4.1*
4.6*
5.7*
R7-3DC-75X
7.3
11.5
14.0
19.6
R7-3DC-100X
6.7*
1 1 .0 *
13.7*
2 0 .0 *
S7-2DL-75X
3.9*
6 .8 *
8 .6 *
13.2*
S9-2DB-75X
4.8*
8.3*
10.4*
15.7*
Model
-45
-35
-30
4.9*
4.0*
R7-3DC-75X
4.1
5.2
5.8
7.0
R7-3DC-100X
4.1*
5.2*
5.7*
6.9*
S7-2DL-75X
2 .6 *
3.2*
3.5*
4.1*
S9-2DB-75X
3.1*
3.7*
4.1*
4.7*
S9-3DS-100X
9.5
14.9
18.1
25.3
S9-3DS-100X
5.2
6.7
7.6
9.4
S9-3DS-150X
9.4*
14.8*
18.1*
25.8*
S9-3DS-150X
5.5*
6.9*
7.7*
9.4*
V6-3DC-100X
7.3*
1 2 .2 *
15.3*
23.1*
V6-3DC-100X
4.4*
5.2*
5.6*
6.3*
V6-3DS-100X
10 .0
16.1
19.7
28.4
V6-3DS-100X
5.4
6.8
7.4
8.8
V6-3DS-150X
1 0 .1 *
16.1*
19.8*
29.1*
V6-3DS-150X
5.8*
7.0*
7.6*
8.9*
V6-4DA-100X
12 .0
18.5
22.4
31.5
V6-4DA-100X
6.0
7.5
8.2
9.9
V6-4DH-150X
13.2
2 1 .2
25.8
36.5
V6-4DH-150X
7.4
9.4
10.4
12.7
V6-4DH-250X
13.5*
21.4*
26.2*
37.9*
V6-4DH-250X
7.8*
9.8*
10.9*
13.3*
W9-3DS-150X
1 0 .2 *
16.2*
2 0 .0 *
29.5*
W9-3DS-150X
5.8*
7.0*
7.6*
8 .8 *
W9-4DJ-200X
17.2
26.1
31.2
42.6
W9-4DJ-200X
9.1
1 1 .8
13.3
16.8
W9-4DJ-300X
16.2*
25.4*
31.0*
44.2*
W9-4DJ-300X
9.1*
11.7*
13.1*
16.5*
W99-6DH-350X
2 0 .6 *
33.1*
41.0*
60.6*
W99-6DH-350X
1 2 .0 *
14.8*
16.2*
19.0*
W99-6DJ-400X
25.0*
39.2*
47.9*
69.4*
W99-6DJ-400X
13.7*
17.2*
19.2*
23.6*
Z9-4DA-200X
11.9*
19.4*
24.1*
36.1*
Z9-4DA-200X
6 .6 *
7.8*
8.5*
9.7*
Z9-4DH-250X
14.5*
23.4*
29.0*
43.1*
Z9-4DH-250X
8.5*
1 0 .2 *
1 1 .0 *
12.5*
Z9-4DJ-300X
17.4*
27.8*
34.4*
50.6*
Z9-4DJ-300X
9.7*
1 2 .0 *
13.2*
15.8*
Z9-6DH-200X
2 2 .6
35.0
42.4
59.9
Z9-6DH-200X
11.9
14.7
16.3
19.7
Z9-6DH-350X
20.4*
32.8*
40.4*
59.5*
Z9-6DH-350X
1 2 .0 *
14.8*
16.3*
19.2*
Z9-6DJ-300X
26.6
40.4
48.5
67.2
Z9-6DJ-300X
14.3
18.0
2 0 .2
24.9
Z9-6DJ-400X
24.8*
38.7*
47.2*
6 8 .0 *
Z9-6DJ-400X
13.7*
17.3*
19.4*
24.0*
Conditions: EN13215: Suction Gas Return 20°C, Subcooling 0K
* Conditions: EN13215: Suction Superheat 10K
117
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Capacity Data
Cooling Capacity (kW)
R407A
Power Input (kW)
R407A
Ambient Temperature: 32°C
Ambient Temperature: 32°C
Evaporating Temperature (°C)
Model
-45
Evaporating Temperature (°C)
-35
-30
-2 0
-1 0
-5
-35
-30
-2 0
-1 0
-5
P8-2DC-50X
1.1
2.0
4.2
6.9
8.4
5
P8-2DC-50X
Model
-45
1.5
1.8
2.6
3.4
3.8
R7-2DD-50X
1.6
2.7
5.3
8.6
10.5
R7-2DD-50X
2.0
2.4
3.2
4.1
4.6
P8-2DL-75X
2.5
3.7
6.5
9.8
1 1 .6
P8-2DL-75X
2 .2
2.7
3.8
5.1
5.8
S7-2DL-75X
2.7
3.9
7.0
10.9
13.1
S7-2DL-75X
2.4
2.9
4.0
5.2
5.8
P8-2DB-50X
3.6
4.8
7.7
1 1 .1
P8-2DB-50X
3.0
3.6
4.9
6.3
P8-2DB-75X
3.4
4.6
7.6
1 1 .0
S9-2DB-75X
3.7
5.1
8.8
13.3
P8-3DA-50X
3.9
5.2
8.1
P8-3DA-75X
3.8
5.3
8.7
R7-3DC-100X
4.9
6.6
10.7
R7-3DC-75X
5.0
6.7
10 .6
V6-3DC-100X
5.4
7.3
12.4
S9-3DS-100X
7.1
9.1
13.9
15.8
15.5
18.8
S9-3DS-150X
7.2
9.1
14.2
19.8
V6-3DS-150X
7.7
10 .0
16.1
23.5
V6-4DF-100X
8.1
10.9
17.7
Z9-4DA-200X
9.2
12 .2
20 .2
30.9
V6-4DH-250X
1 1 .1
14.3
2 2 .2
31.7
V6-4DL-150X
10.9
14.1
21.9
Z9-4DH-250X
1 2 .1
15.8
25.3
W9-4DT-220X
12 .8
16.4
24.8
W9-4DJ-300X
13.3
16.7
25.3
35.4
37.8
22.3
27.3
37.2
45.1
29.6
35.0
51.8
61.7
P8-2DB-75X
2.9
3.4
4.8
6.3
S9-2DB-75X
3.1
3.6
4.9
6.2
P8-3DA-50X
3.4
4.1
5.6
P8-3DA-75X
3.3
3.9
5.5
R7-3DC-100X
4.3
5.0
6.7
R7-3DC-75X
4.1
4.9
6.6
V6-3DC-100X
4.5
5.2
6.7
S9-3DS-100X
5.7
6.7
9.0
6.9
8.6
8.4
9.2
10 .6
S9-3DS-150X
6 .1
7.0
9.4
1 2 .1
V6-3DS-150X
6 .2
7.1
9.3
1 1 .8
13.0
15.2
V6-4DF-100X
6.0
7.1
9.8
13.4
15.7
17.3
20.7
26.5
Z9-4DA-200X
7.0
7.9
10 .0
12.3
V6-4DH-250X
8.1
9.3
12.4
16.3
V6-4DL-150X
8.0
9.4
12.7
Z9-4DH-250X
8.7
9.8
1 2 .6
W9-4DT-220X
9.4
1 1 .1
15.2
W9-4DJ-300X
9.9
11.5
15.4
15.6
20.3
Z9-4DJ-300X
14.5
18.5
29.2
42.9
50.8
Z9-4DJ-300X
10.4
11.9
15.4
19.5
2 1 .8
W99-6DH-350X
17.4
22.5
35.6
52.2
61.5
W99-6DH-350X
1 2 .6
14.5
18.8
24.0
26.9
Z9-6DH-350X
17.4
22.5
35.7
52.3
61.7
Z9-6DH-350X
1 2 .6
14.5
18.8
24.0
26.9
68.0
5
Z9-6DL-270X
17.6
2 2 .6
34.6
Z9-6DL-270X
13.5
15.6
19.9
W99-6DJ-400X
20.6
26.1
40.3
57.6
67.0
W99-6DJ-400X
17.0
19.7
26.0
33.3
37.3
Z9-6DJ-400X
20.6
26.1
40.4
57.8
67.2
Z9-6DJ-400X
17.0
19.7
26.0
33.3
37.2
Z9-6DT-320X
19.9
25.7
39.9
Z9-6DT-320X
14.7
17.1
22.7
Conditions: EN13215: Suction Gas Return 20°C, Subcooling 0K
Cooling Capacity (kW)
R22
Power Input (kW)
R22
Ambient Temperature +32°C
Ambient Temperature +32°C
Evaporating Temperature (°C)
Model
P8-2DC-50X
-45
-35
-30
Evaporating Temperature (°C)
-2 0
-1 0
-5
5
Model
-45
-35
-2 0
-1 0
-5
5
4.9
7.9
9.6
13.7
P8-2DC-50X
-30
2.6
3.2
3.6
4.3
R7-2DD-50X
5.9
9.4
11.5
16.4
R7-2DD-50X
3.3
3.9
4.3
5.0
R7-2DL-75X
7.3
11.4
13.9
19.5
R7-2DL-75X
3.9
4.9
5.4
6.5
S9-2DB-75X
9.3
14.1
16.8
23.1
S9-2DB-75X
4.8
5.9
6.4
7.6
S9-3DA-750
10.3
15.8
18.9
26.0
S9-3DA-750
5.5
6.8
7.5
8.9
S9-3DA-75X
10.3
15.8
18.9
26.0
S9-3DA-75X
5.5
6.8
7.5
8.9
V6-3DC-100X
13.0
19.9
23.9
33.2
V6-3DC-100X
6.7
8.0
8.7
10 .0
V6-3DS-150X
17.3
25.4
30.1
40.9
V6-3DS-150X
9.1
1 1 .0
1 2 .0
14.1
W9-3DS-150X
17.4
25.6
30.4
41.4
W9-3DS-150X
9.0
10.9
11.9
13.9
Z9-4DA-200X
20.7
31.1
37.3
52
Z9-4DA-200X
10 .2
1 2 .1
13.0
14.8
Z9-4DH-250X
25.9
38.2
45.5
62.6
Z9-4DH-250X
13.1
15.7
17.0
19.7
Z9-4DJ-300X
30.3
43.8
51.7
69.8
Z9-4DJ-300X
15.7
19.1
20 .8
24.6
W99-6DH-350X
37.2
54.4
64.4
87.1
W99-6DH-350X
19.5
23.8
26.1
30.9
W99-6DJ-400X
42
61.1
72
96.2
W99-6DJ-400X
23.2
29
32.1
38.8
Conditions: EN13215: Suction Gas Return 20°C, Subcooling 0K
118
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—
Compressors Motor Codes Table
Semi-Hermetic
Motor Codes
Voltage
Connection
Motor Codes
Voltage
Connection
A
Standard Motor Version
CAG
220-230/1/50
-
EWL (DK, DL, D2S)
220-240/3/50
A
EWN (DK, DL, D2S)
250-280/3/60
EWL (DK, DL, D2S)
380-420/3/50
Y
EWN (DK, DL, D2S)
440-480/3/60
Y
AWM
380-420/3/50
YY/Y
AWD
440-480/3/60
YY/Y
Special Motor Version
EWM
380-420/3/50
A/Y-Start
EWD
440-480/3/60
A/Y-Start
AWR
220-240/3/50
YY/Y
EWK (not D8 )
220-240/3/60
A
AWY
500-550/3/50
YY/Y
EWK (not D8 )
380-420/3/60
Y
AWC
208-230/3/60
YY/Y
AWX
380/3/60
YY/Y
Motor Codes
Voltage
Connection
PFJ
265/1/60
-
TFD
460/3/60
Y
TWD
460/3/60
Y
Y
Hermetic & Scroll
Motor Codes
Voltage
Connection
PFJ
220-240/1/50
-
PFT
220-240/1/50
-
Standard Motor version
PFZ
220-240/1/50
-
TFD
380-420/3/50
Y
TFM
380-420/3/50
Y
TWD
380-420/3/50
Y
FWD
380-420/3/50
A/A
FWM
380-420/3/50
A/A
TWM
380-420/3/50
Y
Special Motor version
TF5
200-220/3/50
Y
TF5
200-230/3/60
TWR
220-240/3/50
Y
TW7
380/3/60
Y
TWC
200/3/50
Y
TWC
208-230/3/60
Y
TFE
500/3/50
Y
TFE
575/3/60
Y
TWE
500/3/50
Y
TWE
575/3/60
Y
TF7
380/3/60
Y
TW5
200-220/3/50
Y
TW5
220-230/3/60
Y
1E9
BPM Motor
-
Variable Speed Motor version
YY/Y = part-winding-start
A/A = part-winding-start
119
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Notes
120
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—
Notes
121
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Alco Controls
Alco Controls is the leading provider of precision electronic
Other controllers offer control functions on the “ hot side” of the
and electromechanical controls for the refrigeration and air
refrigeration circuit: condenser and condensing unit controllers,
conditioning markets. We continue to pioneer the control
rack controllers for up to 8 single stage compressors or for m ulti­
of refrigerant flow with innovative designs, keeping system
stage compressors and dual circuit controllers.
performance optimization central to our product development.
The compressor soft starter allows keeping the starting current
The wide
range of Emerson controllers covers all major
below the limit imposed in residential heat pump applications.
applications in commercial air conditioning and refrigeration, as
well as heat pump systems. There are stand alone controllers and
Electronic fan speed controllers help to maintain a minimum
controllers with a communication interface, which can be used in
condensing pressure by reducing fan speed at low ambient
LON networked systems too.
temperature.
The controllers with TCP/IP Ethernet communication feature a
Sensors and accessories are needed in conjunction with the
full web server function and provide full data exchange with any
above mentioned controllers.
user in the World Wide Web. This allows quick and inexpensive
monitoring from any PC with a standard web browser.
Oil management systems are used to maintain the oil level in the
compressor's crank case.
Emerson offers drivers and superheat controllers designed
for the EX4 to EX8 range of electrically driven control valves.
Em erson's controls portfolio is completed by offering a variety of
The superheat controllers allow stable superheat control with
mechanical controls such as:
the EX valves, while the digital superheat controllers can be
- pressostats & therm ostats,
synchronized with the PWM capacity control valve incorporated
- system protectors,
in the Digital Scroll™ compressor technology.
- valves,
- thermo™-Expansion Valves,
Display case and cold room controllers provide all functions
- oil separators,
needed to run commercial refrigeration, like superheat control
- and Suction Accumulators.
with electrical control valve, therm ostat, fan and defrost control,
integrated tim er and alarm functions.
Whatever control you choose, you can always expect high
reliability and best performance.
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Alco Keyword Register
Description
110 RB
2-Way Solenoid Valve
222
200 RB
2-Way Solenoid Valve
222
240 RA
2-Way Solenoid Valve
222
540 RA
2-Way Solenoid Valve
223
935
Liquid Injection Valve
213
A
Suction Accumulator
282
ACP
Hot Gas Bypass Regulator
231
ADK
Filter Drier
256
ADKS-Plus
Filter Drier Shell
260
AMI
Moisture Liquid Indicator
271
AOK
Acid Alert Kit
284
ASF
Suction Line Filter
266
ASD
Suction Line Filter Drier
266
BFK
Bi-Flow Filter Drier
255
BTAS
Suction Line Filter Drier Shell
267
BVE / BVS
Ball Valves
283
CPHE
Hot Gas Bypass Regulator
232
CSS
Compressor Soft Starter
181
CX4 .. CX7
High Pressure Expansion Valves
153
EC2-1, -2, -3
Display Case Controller
1 65
EC2-5, -7
Condenser- , CU-Controller
1 65
EC3-3
Coldroom Controller
1 68
EC3-6 ... -9
Rack and Condenser Controller
168
EC3-D12/D23
Driver for Digital Copeland™ compressors
179
EC3-D72/D73
Digital Superheat Controllers
1 60
EC3-X32/X33
Superheat Controllers
1 60
EX2
Pulse Modulated Expansion Valve
130
EX4 .. EX8
Electrical Control Valves
133
EXD-HP1/2
Superheat Economizer Controller
158
EXD-U
Stand-alone Univ. Driver Module
1 64
EXM/EXL
Electrical Control Valves
129
g
a
P
Series
B
C
E
124
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—
Alco Keyword Register
Series
Description
Page
FD 113
Differential Pressure Switch
247
FDB
Filter Drier
258
FDH
Filter Drier Shell
261
FDS-24
Filter Drier Shell
262
FSE
Fan Speed Control Module
186
FSY
Electronic Fan Speed Controller
184
L
Liquid Injection Valve
186
M36
3-Way Solenoid Valve
227
MIA
Moisture Liquid Indicator
270
OM3 / OM4
Oil Level Management System
275
OW4
Electronic Oil Level Monitoring
278
OS
Oil Separator
279
PRC
Crankcase Pressure Regulator
235
PRE
Evaporator Pressure Regulator
234
PS1
Pressure Controls
240
PS2
Dual Pressure Controls
242
PS3
Pressure Controls
244
PT5
Pressure Transmitter
182
T
Thermo™-Expansion Valve
202
TI
Thermo™ Expansion Valve
190
TS1
Thermostat
250
TX3
Thermo™ ExpansionValve
198
TX6
Thermo™ Expansion Valve
200
Thermo™ -Expansion Valve
208
F
M
O
P
Z
ZZ
125
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126
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__—
Electrical Control Valves
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Electrical Control Valves
Electrical Control Valve Technology
T h e rm o sta tic expansio n v a lve s and m ech an ical reg u lato r
valves have been used in the refrigeration and air conditioning
industry to control superheat and refrigerant mass flow since
its very beginning. As today's systems require improved energy
efficiency, tighter temperature control, wider range of operating
conditions and incorporate new features like remote monitoring
and diagnostics, the application of electronically operated valves
becomes mandatory. Only they offer the controls performance
necessary to m eet these needs. Electrical control valves are
actuators only. For operation in a system they need sensors, valve
drivers and controllers, see next chapter.
EXM/EXL biflow valves for OEM use are equipped with an unipolar
stepper motor drive. They are mainly used for heat pumps, air
conditioning and close control.
EX2 is designed for pulse width modulation. It is applicable to
all common HCFC and HFC refrigerants and for subcritical CO2
applications and is used m ainly for refrigeration applications
such as display cases. The EX2 valve is a slide type solenoid valve
w ith an orifice for expansion. It is either com pletely open or
completely closed. One common valve body can be combined with
6 interchangeable orifices to cover 7 capacity ranges.
EX4/EX5/EX6/EX7/EX8 consist of two main internal assemblies,
the valve and the stepper motor. The stepper motor is located
next to the electrical plug and connected directly to the slide
and cage assembly of the valve. Similar to the technology used
in compressors, the motor is exposed to refrigerant and lubricant
and the materials used are identical to the ones in compressor
motors. The housing of the motor and valve assembly is made from
stainless steel and fully hermetic, utilising exclusively brazing and
welding technologies and eliminating all gaskets. This design offers
several technical advantages such as proportional linear mass flow
and a wide capacity range. A common feature of all EX2, EX4-8
electrical control valves is the positive shut-off function, which
eliminates the need for additional solenoid valves.
CX4/CX5/CX6/CX7 High Pressure Expansion Valves are stepper
motor driven valves for precise control of R744 (CO2) refrigerant
mass flo w in air co nditio nin g, refrigeration and heat pump
applications. The Control Valves also can be used for liquid injection
duty and hot gas bypass.
Valve Selection
For EX2, the published table quotes capacities at 100% duty
cycle. i.e., valve open continuously. However, it is recommended
to operate the valve at partial load (50-80%) to allow for system
load fluctuations. For EX4/EX5/EX6/EX7/EX8 and EXM /EXL,
all published capacities are maximum and there are no reserve
capacities. Each valve should be selected for the highest possible
capacity of the system. A wide range regulation (10 ... 100%) with
one slide orifice for each valve is achievable. To facilitate valve
dimensioning for other than the standard conditions, Emerson
Climate offers an Excel based Alco selection tool. This can be
downloaded from www.em ersonclim ate.eu.
Selection Table for Electrical Control Valves and Applicable Controllers
Valve
type
Function
Capacity kW
R407C
Feature
Min. Evapo­
rating Temp.
°C
Main Application
Page
Applicable Controller
Page
EXM
EXL
Expansion
Valve
5 .. 20.7
Uni polar stepper
m otor driven
-30
Heat pumps,
Air Conditioning,
Close Control
129
EXD-HP1/2
s. data
sheet
EX2
Exp. Valve
1.0 .. 18.7
PWM
-40
Refrigeration
130
EC2
165
EX4
EX5
EX 6
EX7
EX 8
Expansion
Valve
2 .. 1 7 .4
5 .. 53
15 .. 126
35 .. 347
100 .. 925
Bi polar stepper
m otor driven
-50
Heat pumps,
Refrigeration, A/C,
W ater Chillers
EC3-X .. Superheat Contr.
EC3-3 .. Coldroom Contr.
160
168
EXD-U
164
EX4
EX5
EX 6
EX7
EX 8
Capacity
Control
4.9
16
37
131
399
Bi polar stepper
m otor driven
-100
Hot gas bypass
regulator
143
EXD-U .. Universal
Controls
164
EX 6
EX7
EX 8
Liquid
Mass Flow
Control
3.9
14
42
Bi polar stepper
m otor driven
-50
Suction pressure /
Crankcase pressure
regulator
144
EXD-U .. Universal
Controls
164
EX5
EX 6
EX7
EX 8
Heat
Reclaim
18
43
153
463
Bi polar stepper
m otor driven
-
Condensing pressure
and liquid regulator
145
EXD-U .. Universal
Controls
164
EX 6
EX7
EX 8
Heat
Reclaim
Bi polar stepper
m otor driven
-
Heat Reclaim
applications
148
EXD-U .. Universal
Controls
164
CX4
CX5
CX6
CX7
Expansion
Valve
Bi polar stepper
m otor driven
-
153
EXD-U .. Universal
Controls
164
128
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11
39
119
133
-100
Refrigeration
CO 2 transcritical
Electrical Control Valves Series EXM/EXL
for OEM use, stepper motor driven
Features
U nip o lar ste p p e r m o to r
Bi-flow (sa m e p e rfo rm a n ce in both flo w d ire ctio n s in
te rm o f ca p a city )
High M O PD : 4 0 bar in n orm al flo w directio n
Rem o vab le coils in tw o ve rsio n s: 1 2 V D C /2 4 V D C
C o n tin u o u s m o d u latio n o f m ass flo w , no stress (liquid
h a m m e rin g ) in th e refrig e ra tio n c irc u it
Lin ear flo w
Reso lutio n : 5 0 0 pulses (h a lf ste p s) o r 2 5 0 full steps
H e rm e tic design
O n ly B ulk packing in boxes o f 10 id entical pieces
R eliab ility: 225 m illio ns pulses a t co n tin u o u s 4 0 bar d if­
feren tial pressure
T h e va lve is n o t released fo r refrig eratio n ap p licatio n s
such as cold roo m s and refrig e ratio n d isp lay cab in e ts.
EXM /EXL w ith Coil
Selection Chart
Type
Part No.
Nominal Capacity kW
Description
R410A
R407C
Connection
size/style
R134a
EXM-B0A
8 0 0 399M
Valve less coil
1.8
1.6
1.2
EXM-B0B
8 0 0 400M
Valve less coil
5.5
5.0
3.7
EXM-B0D
8 0 0 401M
Valve less coil
11.6
10.5
7.7
EXM-B0E
8 0 0 402M
Valve less coil
13.7
12.4
9.1
EXM-125
8 0 0 403M
Coil 12VDC, 5 wires
-
-
-
EXM-246
8 0 0 404M
Coil 24VDC, 6 wires
EXL-B1F
8 0 0 405M
Valve less coil
1/4“ ODM
-
-
-
17.0
15.4
11.3
1/4“ ODF
8 mm ODM
EXL-B1G
8 0 0 406M
Valve less coil
23.0
20.7
15.2
EXL-125
8 0 0 407M
Coil 12VDC, 5 wires
-
-
-
EXL-246
8 0 0 408M
Coil 24VDC, 6 wires
-
-
-
The nominal capacity is based on the following conditions:
Refrigerant
Evaporating temperature
Condensing temperature
Subcooling
+4°C (dew point)
+38°C bubble point /
+43°C dew point
1K
+4°C
+38°C
1K
R407C
R134a, R410a
Technical Data
Max. allowable pressure
PS
45 bar
MOPD
40 bar in normal flow direction
Temperature range TS
TS: -30 to +70°C (liquid refrigerant)
-30 to +60°C (ambient)
CE marking
Not required
Weight
Valve EXM: 65 g, EXL: 76 g
Coil EXM: 124 g, EXL: 156 g
Package and delivery
Bulk pack with 10 pieces
Stepper motor type
Uni-polar, constant voltage
Full travel time
16.6 seconds at 30 pulse/sec.
5.5 seconds at 90 pulse/sec
Reference position
Mechanical stop at fully close position
Total number of pulses
500 half step (250 full step)
Insulation class
EXM:
EXL:
Cable length
1m
A
E
129
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Electrical Control Valves Series EX2
Pulse width modulated with exchangeable orifices
Can be used with EC2 display case controllers (see page 167)
Features
•
•
Pulse width modulated
Shut off function eliminates the necessity of a separate sole­
noid valve
•
Dampened plunger reduces noise effects of water hammer
•
One valve body can be combined with 6 orifices to make
7 capacity ranges up to 18.7 kW (R407C)
•
Applicable to all common refrigerants (HCFC, HFC) and for
subcritical CO2 applications
•
Long lifetime, high reliability
•
PS: 40bar, TS: -40 to +65°C
EX2 with Orifice
Selection Chart
Type
Part No.
Capacity Qnat 100% open Valve (kW) *
Function
R134a
R 22
R404A
R507
R407C
R744
R407F
13.3
17.2
12.1
12.1
18.7
35.0
19.2
12.2
EX2-M00
801 091
10 mm inlet / 12 mm outlet ODF
EX2-I00
801 090
3/8” inlet / 1/2” outlet ODF
EXO-004
801 089
Orifice 4
8.5
10.9
7.7
7.7
11.8
22.2
5.6
7.2
5.1
5.1
7.8
14.6
8.0
EXO-003
801 088
Orifice 3
EXO-002
801 087
Orifice 2
3.3
4.3
3.0
3.0
4.7
8.7
4.8
EXO-001
801 086
Orifice 1
2.5
3.2
2.3
2.3
3.5
6.5
3.6
EXO-000
801 085
Orifice 0
1.2
1.6
1.1
1.1
1.7
3.3
1.8
EXO-00X
801 084
Orifice X
0.7
0.9
0.6
0.6
1.0
1.8
1.0
ASC 24V
801 062
Coil 24 VAC 50-60Hz (8W)
* Orifice should be selected at max. 80% of Qnto allow covering the load fluctuation
The nominal capacity (Qn) is based on the following conditions:
Refrigerant
Evaporating temperature
Condensing temperature
Subcooling
+4°C (dew point)
+38°C bubble point /
+43°C dew point
1K
R22, R134a, R404A, R507
+4°C
+38°C
1K
R744
-40°C
-10°C
1K
R407C, R407F
For other operating conditions an Excel based selection tool
can be dow nloaded from w w w .e m e rso n c lim a te .e u , or use
correction facto rs w ith follow ing fo rm u la:
Qn = Qo x Kt x KAp
Q n:
Q o:
Kt:
KAp:
N om inal v a lve c a p a c ity
Required cooling c a p a c ity
C o rre ctio n fa c to r fo r e vap o ratin g and liquid
te m p e ra tu re
C o rre ctio n fa c to r fo r p ressu re drop a t valve
130
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—
Liquid
Tem perature
entering
Valve °C
Co rrection Factor Kt
R134a
Evaporating Tem perature °C
15
10
5
0
-5
-1 0
-15
-2 0
-2 5
-30
-40
55
1.21
1.23
1.26
1.29
1.33
1.33
1.39
1.43
1 .47
1.52
1.62
1.48
50
1.13
1.15
1.17
1.20
1.23
1.26
1.28
1.32
1.36
1.39
45
1.06
1.08
1.10
1.12
1.15
1.17
1.19
1.22
1.26
1.29
1 .37
40
0 .9 9
1.01
1.03
1.05
1.08
1.10
1.12
1.14
1.17
1.20
1 .27
35
0 .9 4
0 .9 6
0 .9 7
0.99
1.01
1.03
1.05
1.07
1.10
1.12
1.18
30
0 .8 9
0.91
0 .9 2
0 .9 4
0 .9 6
0 .9 8
0 .9 9
1.01
1.03
1.06
1.11
25
0 .8 5
0 .8 6
0 .8 7
0.89
0.91
0 .9 2
0 .9 4
0 .9 5
0 .97
1.00
1.04
20
0.81
0 .8 2
0 .8 3
0.85
0 .8 9
0 .8 8
0 .8 9
0.91
0.92
0 .9 4
0 .9 8
15
0 .7 7
0 .7 8
0 .7 9
0.81
0 .8 2
0 .8 4
0 .8 4
0 .8 6
0.88
0 .8 9
0 .9 3
0 .7 5
0 .7 6
0.77
0 .7 8
0 .8 0
0.81
0 .8 2
0 .8 4
0 .8 5
0 .8 9
0.73
0 .7 4
0 .7 5
0 .7 6
0 .7 7
0.78
0.80
0.81
0 .8 4
0.71
0 .7 2
0 .7 3
0 .7 4
0.75
0 .7 6
0 .7 8
0.81
0.71
0.72
0.73
0 .7 4
0 .7 7
0.71
0 .7 4
10
5
0
-5
0 .6 9
-10
0 .7 0
0 .6 8
0 .6 8
0.69
0.70
Co rrectio n Factor KAp
Ap
3.5
4 .0
4 .5
5.0
5.5
6.0
6.5
7.0
7 .5
8.0
8.5
9.0
10.0
11.0
12.0
13.0
14.0
15.0
16.0
17.0
18.0
19.0
20 .0
21 .0
KAp
1.34
1.25
1.18
1.12
1.07
1.02
0.98
0.95
0.91
0 .8 8
0 .8 6
0 .8 3
0 .7 9
0 .7 5
0 .7 2
0.69
0.67
0.65
0 .6 3
0.61
0 .5 9
0 .5 7
0 .5 6
0 .5 5
Liquid
Tem p erature
entering
Valve °C
Co rrection Factor Kt
R404A
Evaporating Tem perature °C
15
10
5
0
-5
-1 0
-15
-2 0
-2 5
-30
-3 5
-40
55
1.42
1.46
1.50
1.55
1.61
1.68
1.75
1.83
1.92
2.01
2.13
2.25
1.84
50
1.23
1.26
1.30
1.34
1.38
1.43
1.48
1.54
1.61
1.68
1.75
45
1.10
1.12
1.15
1.18
1.22
1.26
1.30
1.34
1.39
1.45
1.51
1.57
40
0 .9 9
1.02
1.04
1.07
1.09
1.13
1.16
1.20
1.24
1.28
1.33
1.38
35
0.91
0 .9 3
0 .9 5
0.97
1.00
1.02
1.05
1.08
1.11
1.15
1.19
1.23
30
0 .8 4
0 .8 6
0 .8 8
0.90
0.92
0 .9 4
0 .9 6
0 .9 9
1.02
1.05
1.08
1.11
25
0 .7 9
0 .8 0
0 .8 2
0.83
0 .8 5
0 .8 7
0 .8 9
0 .9 2
0 .9 4
0 .9 7
0 .9 9
1.02
20
0 .7 4
0 .7 5
0 .7 7
0.78
0 .8 0
0.81
0 .8 3
0 .8 5
0.87
0 .9 0
0 .9 2
0 .9 5
15
0 .7 0
0.71
0 .7 2
0.73
0 .7 5
0 .7 6
0 .7 8
0 .8 0
0.82
0 .8 4
0 .8 6
0 .8 8
0 .6 7
0 .6 8
0.69
0.71
0 .7 2
0 .7 4
0 .7 5
0.77
0 .7 9
0.81
0 .8 3
0.65
0 .6 6
0 .6 7
0 .6 8
0 .7 0
0.71
0.73
0 .7 4
0 .7 6
0 .7 8
0.71
0 .7 2
0 .7 4
0 .6 7
0 .6 9
0 .7 0
10
5
0
0.63
-5
0 .6 4
0.61
-10
0 .6 5
0 .6 2
0 .6 0
0 .6 6
0 .6 3
0.61
0.68
0.65
0 .6 2
0.69
0 .6 6
0 .6 3
0 .6 4
0 .6 5
0 .6 7
Co rrectio n Factor KAp
Ap
3.5
4 .0
4 .5
5.0
5.5
6.0
6 .5
7 .0
7.5
8.0
8.5
9.0
10.0
11.0
12.0
13.0
14.0
15.0
16.0
17.0
18.0
19.0
20 .0
21 .0
KAp
1.74
1.63
1.54
1.46
1.39
1.33
1.28
1.23
1.19
1.15
1.12
1.09
1.03
0 .9 8
0 .9 4
0.9
0 .8 7
0 .8 4
0.81
0.79
0.77
0 .7 5
0 .7 3
0.71
Liquid
Tem perature
entering
Valve °C
Co rrection Factor Kt
R744
5
Evaporating Tem perature °C
5
0
-5
-10
-15
-2 0
-2 5
-30
-35
-40
1.12
1.10
1.09
1.08
1.08
1.08
1.07
1.07
1 .08
1.08
1.02
1.01
1.01
1.00
1.00
1.00
1.00
1.00
1.01
0
-5
0 .9 5
0 .9 4
0 .9 4
0 .9 4
0 .9 4
0 .9 4
0 .9 4
-10
0.89
0.89
0 .8 8
0 .8 8
0 .8 8
0.89
-15
0 .8 4
0 .8 4
0 .8 4
0 .8 4
0 .8 4
0 .8 4
-20
0 .8 0
0 .8 0
0 .8 0
0.80
0 .8 0
-25
0 .7 6
0 .7 6
0 .7 6
0 .7 6
-30
0 .7 3
0.73
0 .7 3
-35
0.70
0 .7 0
0 .9 4
0.89
-40
0 .6 7
Co rrectio n Factor KAp
Ap
5.0
6 .0
7 .0
8.0
9.0
10.0
11.0
12.0
13.0
14.0
15.0
16.0
17.0
18.0
19.0
20 .0
21.0
22.0
23.0
24 .0
25 .0
26 .0
27 .0
28 .0
KAp
1.81
1.65
1.53
1.43
1.35
1.28
1.22
1.17
1.12
1.08
1.05
1.01
0 .9 8
0 .9 5
0 .9 3
0.91
0.88
0 .8 6
0 .8 4
0 .8 3
0.81
0 .7 9
0 .7 8
0 .7 7
131
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Liquid
Temperature
entering
Valve °C
Correction Factor Kt
R22
Evaporating Temperature °C
15
10
5
0
-5
-10
-15
-20
-25
-30
-35
-40
55
1.17
1.19
1.20
1.22
1.24
1.25
1.27
1..29
1.32
1.34
1.37
1.39
50
1.11
1.11
1.13
1.15
1.16
1.18
1.20
1.22
1.24
1.26
1.28
1.30
45
1.05
1.05
1.07
1.08
1.10
1.12
1.13
1.15
1.17
1.18
1.20
1.23
40
1.00
1.01
1.02
1.03
1.04
1.06
1.07
1.09
1.10
1.12
1.14
1.16
35
0.95
0.96
0.97
0.98
0.99
1.01
1.02
1.03
1.05
1.06
1.08
1.10
30
0.91
0.92
0.93
0.94
0.95
0.96
0.97
0.98
1.00
1.01
1.03
1.04
25
0.87
0.88
0.89
0.89
0.91
0.92
0.93
0.94
0.95
0.96
0.98
0.99
20
0.83
0.84
0.85
0.86
0..87
0.88
0.89
0.90
0.91
0.92
0.93
0.95
15
0.80
0.81
0.81
0.82
0.83
0.84
0.85
0.86
0.87
0.88
0.89
0.91
0.78
0.78
0.79
0.80
0.81
0.82
0.83
0.84
0.85
0.86
0.87
0.75
0.76
0.77
0.78
0.79
0.79
0.80
0.81
0.82
10
5
0
0.73
-5
0.74
0.72
-10
0.75
0.72
0.70
0.76
0.73
0.71
0.77
0.74
0.71
0.77
0.75
0.72
0.78
0.75
0.73
0.76
0.74
0.83
0.79
0.80
0.77
0.74
Correction Factor KAp
Ap
3.5
4.0
4.5
5.0
5.5
6.0
6.5
7.0
7.5
8.0
8.5
9.0
10.0
11.0
12.0
13.0
14.0
15.0
16.0
17.0
18.0
19.0
20.0
21.0
KAp
1.59
1.49
1.40
1.33
1.27
1.22
1.17
1.13
1.09
1.05
1.02
0.99
0.94
0.90
0.86
0.83
0.80
0.77
0.75
0.72
0.70
0.68
0.67
0.65
Liquid
Temperature
entering
Valve °C
Correction Factor Kt
R507
Evaporating Temperature °C
15
10
5
0
-5
-10
-15
-20
-25
-30
-35
-40
55
1.39
1.43
1.47
1.52
1.57
1.62
1.69
1.76
1.83
1.92
2.02
2.12
50
1.22
1.24
1.28
1.31
1.35
1.40
1.44
1.49
1.55
1.61
1.68
1.76
45
1.09
1.11
1.14
1.17
1.20
1.23
1.27
1.31
1.36
1.40
1.46
1.52
40
0.99
1.01
1.03
1.06
1.08
1.11
1.14
1.17
1.21
1.25
1.29
1.34
35
0.91
0.93
0.95
0.97
0.99
1.01
1.04
1.07
1.10
1.13
1.16
1.20
30
0.85
0.86
0.88
0.89
0.91
0.93
0.96
0.98
1.01
1.03
1.06
1.09
25
0.79
0.80
0.82
0.83
0.85
0.87
0.89
0.91
0.93
0.95
0.98
1.01
20
0.74
0.75
0.77
0.78
0.79
0.81
0.83
0.85
0.87
0.89
0.91
0.93
15
0.71
0.71
0.72
0.73
0.75
0.76
0.78
0.79
0.81
0.83
0.85
0.87
0.67
0.68
0.69
0.70
0.72
0.73
0.74
0.76
0.78
0.79
0.81
0.69
0.70
0.72
0.73
0.75
0.76
0 .65
0.66
0.68
0.69
0.70
0.72
10
5
0.64
0.65
0
0.67
0.62
-5
0.60
-10
0.58
0.68
0.63
0.64
0.61
0.62
0.59
0.63
0.60
0.64
0.61
0.65
0.62
0.66
0.63
0.68
0.64
Correction Factor KAp
Ap
3.5
4.0
4.5
5.0
5.5
6.0
6.5
7.0
7.5
8.0
8.5
9.0
10.0
11.0
12.0
13.0
14.0
15.0
16.0
17.0
18.0
19.0
20.0
21.0
KAp
1.75
1.64
1.54
1.46
1.4
1.34
1.28
1.24
1.19
1.16
1.12
1.09
1.03
0.99
0.94
0.91
0.87
0.84
0.82
0.79
0.77
0.75
0.73
0.71
Liquid
Temperature
entering
Valve °C
Correction Factor Kt
R407C
Evaporating Temperature °C
15
10
5
0
-5
-10
-15
-20
-25
55
1.26
1.28
1.31
1.34
1.37
1.40
1.44
1.48
1.52
50
1.15
1.17
1.19
1.22
1.24
1.27
1.30
1.33
1.37
45
1.06
1.08
1.10
1.12
1.14
1.17
1.19
1.22
1.25
40
0.99
1.01
1.02
1.04
1.06
1.08
1.11
1.13
1.16
35
0.93
0.94
0.96
0.98
0.99
1.01
1.03
1.05
1.07
30
0.88
0.89
0.90
0.92
0.93
0.95
0.97
0.99
1.01
25
0.83
0.84
0.85
0.87
0.88
0.90
0.91
0.93
0.95
20
0.79
0.80
0.81
0.82
0.84
0.85
0.86
0.88
0.90
15
0.75
0.76
0.77
0.78
0.80
0.81
0.82
0.84
0.85
0.73
0.74
0.75
0.76
0.77
0.78
0.80
0.81
10
5
0.71
0.72
0
0.73
0.69
-5
0.67
-10
0.74
0.70
0.68
0.65
0.75
0.71
0.69
0.66
0.76
0.72
0.70
0.67
0.77
0.73
0.74
0.71
0.68
Correction Factor KAp
Ap
3.5
4.0
4.5
5.0
5.5
6.0
6.5
7.0
7.5
8.0
8.5
9.0
10.0
11.0
12.0
13.0
14.0
15.0
16.0
17.0
18.0
19.0
20.0
21.0
KAp
1.81
1.69
1.59
1.51
1.44
1.38
1.33
1.28
1.23
1.19
1.16
1.13
1.07
1.02
0.98
0.94
0.9
0.87
0.84
0.82
0.8
0.78
0.76
0.74
132
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Electrical Control Valves Series EX4, EX5, EX6, EX7 & EX8
Features
•
M u ltifu n ctio n as e xp ansio n v a lve , h o t gas bypass,
su ctio n gas th ro ttlin g , head p ressu re, liquid level
ac tu a to r etc.
•
Fully h e rm e tic design (no th read jo in ts b e tw ee n valve
body and m o to r c o m p a rtm e n t)
•
A p p licab le to all co m m o n refrig e ra n ts (H C FC ,
H FC ) and fo r su b critical C O 2 ap p licatio n s
Step p er m o to r driven
•
•
S h o rt opening and closing tim e
•
V e ry fa st full stro ke tim e
•
High reso lutio n and e xce lle n t re p e a ta b ility
•
Positive shu t-o ff fu n c tio n to e lim in a te use o f
ad d ition al solenoid valve
•
•
Bi-flow versio n s fo r h ea t p u m p ap p licatio n s
High lin e ar flo w c a p a c ity
•
E x tre m e ly w id e c a p a c ity range (1 0 ... 100% )
•
C o n tin u o u s m o d u latio n o f m ass flo w , no stress
(liquid h a m m e rin g ) in th e refrig e ra tio n c irc u it
•
D ire c t co upling o f m o to r and valve fo r high
re lia b ility (no gear m e ch a n ism )
•
C e ra m ic slid e and p o rt fo r h ig h ly ac c u ra te flo w
and m inim al w e a r
•
Europe p aten t No. 0 7 4 3 4 7 6 , USA p aten t
•
No. 5 7 3 5 5 0 1 , Japan p aten t No. 2 8 2 2 5 7 8 9
B alanced fo rce design
•
C o rro sio n re sista n t sta in less steel bo d y and stain less
ste el co n n e ctio n s
•
PS: E X 4 -EX 7 60 bar, E X 8 4 5 bar
•
Liquid In le t T e m p e ra tu re TS:
U niflo w : -50 to + 100°C , B iflo w : -40 to +80°C
Selection Chart (Capacities see following pages)
Type
Part No.
Flow Pattern
Capacity Range
Inlet Connection
Outlet Connection
EX4-I21
800 615
3/8“ ODF
5/8“ ODF
EX4-M21
800 616
10mm ODF
16mm ODF
EX5-U21
800618
5/8“ (16m m ) ODF
7/8“ (22mm) ODF
EX6-I21
800 620
7/8“ ODF
1-1/8“ ODF
EX6-M21
800621
22mm ODF
28 mm ODF
EX7-I21
800 624
EX7-M21
800 625
EX8-M21
800 629
EX8-U21
800 630
EX8-I21
800 631
1-5/8” ODF
1-5/8” ODF
EX4-U31
800 617
5/8“ (16mm) ODF
5/8“ (16mm) ODF
EX5-U31
800 619
7/8“ (16mm) ODF
7/8“ (22m m) ODF
EX6-I31
800 622
1-1/8“ ODF
1-1/8“ ODF
EX6-M31
800 623
28mm ODF
28mm ODF
EX7-U31
80 0626
1-3/8“ (35m m) ODF
1-3/8“ (35m m ) ODF
Type
Part No.
EXV-M15
804 663
EXV-M30
804 664
EXV-M60
804 665
Uni-flow
10 ... 100%
Bi-flow
(Heat Pump)
Temperature Range
Length
1-1/8“ ODF
1-3/8“ ODF
28mm ODF
35mm ODF
42mm ODF
42mm ODF
1-3/8“ (35mm) ODF
1-3/8“ (35m m ) ODF
Connector type to valve
Connector type to driver
or controller
M12, 4 pins
Loose wires
Electrical Connection
M12 Plug
Illustration
1.5 m
-50 ... +80°C
3.0 m
6.0 m
"D
133
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Capacity Data
Application Expansion Valve and Liquid Injection Valve - Nominal Capacity kW
Valve Type
R407C
R 22
R134a
R404A
R410A
R23 *
R124 *
R744
EX4
2 .. 17.4
2 . 16.5
1 .. 12.8
1 .. 11.5
2 .. 19.3
2 .. 17.8
1 .. 9.2
3 . 33.5
18
EX5
5 . 53
5 .. 50
4 .. 39
4 .. 35
6 . 58
5 .. 54
3 .. 28
10 . 102
56
R407F
EX6
15 . 126
15 .. 120
10 .. 93
10 .. 84
15 . 140
13 .. 130
7 .. 67
24 . 244
134
EX7
35 . 347
35 .. 330
25 .. 255
25 .. 230
40 . 385
-
-
70 . 670
369
EX8
100 .. 925
90 .. 880
70 .. 680
60 .. 613
100 . 1027
-
-
180 . 1789
984
* Biflow versions are not released for R124 and R23
Capacity for biflow versions identical in both flow directions.
The nominal capacity (Qn) is based on the following conditions:
Refrigerant
R407C, R407F
Evaporating temperature
+4°C (dew point)
R22, R134a, R404A, R410A
R124
R23
R744
+4°C
+20°C
-60°C
-40°C
Condensing temperature
+38°C bubble point /
+43°C dew point
+38°C
+80°C
-25°C
-10°C
Subcooling
1K
1K
1K
1K
1K
Guideline for Selection of Electrical Control Valves as Expansion Valves
Alco Selection Tool
For easy and quick selection of Electrical Control Valves an Excel
based selection tool can be downloaded from the Internet at
w w w .em ersonclim ate.eu, or use the quick selection tables on
the following pages.
The following guideline should be taken into consideration in order
to obtain full advantages of the control valves:
-
Published capacities are m axim um and th ere are no
reserve capacities
Larger size of valve leads to shorter pull down period and
s h o rte r travel tim e i.e ., fa ste r response. For e xam p le ,
EX7 has maximum 3.2 seconds travel tim e. The valve has
app ro xim ately 1.6 seconds travel tim e at 50% cap acity
operation.
Example:
System with R407C having two different operating conditions:
A) 110 kW capacity at +4°C/+50°C with two stages
compressor at 50% / 100% capacity
B) 137 kW capacity at +4°C/+30°C with two stages
compressor at 50% / 100% capacity
EX6 with 126 kW covers condition A, however is not sufficient to
cover condition B. It is recommended to select larger valve i. e. EX7
with 337 kW at condition A and 293 kW at condition B.
Condition A:
Full load ratio
=
110 / 337 = 33%
Partial load ratio = (110/2) / 337 = 16%
Condition B:
Full load ratio
=
137 / 293 = 47%
Partial load ratio = (137/2) / 293 = 23%
The capacity ratios of system to valve are in all conditions higher
than 10%. It is recommended to use EX7 rather than EX6 .
For controllers, see page 152, 153 and 157.
134
http://holodko.ru/
—
Application Expansion Valve and Liquid Injection Valve
Condensing
Tem perature
°C
60
55
50
45
40
35
30
25
20
15
10
Extended ca p a city (kW )
Evaporating Tem perature (°C)
R134a
15
10
5
0
-5
-1 0
-15
-20
-2 5
Valve
Type
-30
-3 5
-40
-4 5
13
13
13
13
13
13
12
12
12
12
11
11
11
39
39
39
39
39
39
38
37
36
35
34
33
32
EX4
EX5
93
94
94
94
93
92
90
89
87
84
82
79
77
EX6
255
257
258
257
255
252
248
243
237
231
224
217
210
EX7
679
686
688
686
680
672
661
648
633
616
598
580
560
EX8
12
13
13
13
13
13
13
12
12
12
12
11
11
EX4
38
39
39
39
39
39
38
38
37
36
35
34
33
EX5
91
92
93
94
93
93
92
90
88
86
84
82
80
EX6
EX7
249
253
256
257
256
254
251
247
242
237
231
225
218
6 63
676
683
685
683
678
670
659
647
632
616
599
582
EX8
12
12
13
13
13
13
13
12
12
12
12
12
11
EX4
36
38
38
39
39
39
38
38
37
37
36
35
34
EX5
87
90
91
92
93
92
92
91
89
88
86
84
81
EX6
238
246
250
253
254
253
251
249
245
240
235
229
223
EX7
6 36
655
668
675
6 77
6 76
671
663
653
640
627
611
595
EX8
EX4
11
12
12
12
12
13
12
12
12
12
12
12
11
34
36
37
38
38
38
38
38
37
37
36
35
35
EX5
81
85
88
90
91
91
91
90
89
88
86
84
82
EX6
223
234
241
246
248
249
249
247
244
240
236
231
226
EX7
595
623
642
655
662
664
663
658
651
641
629
616
602
EX8
10
11
11
12
12
12
12
12
12
12
12
12
11
EX4
31
33
35
36
37
37
37
37
37
36
36
35
34
EX5
74
79
83
85
87
88
89
88
88
87
85
84
82
EX6
202
217
227
234
239
242
243
242
240
238
234
230
225
EX7
539
578
606
625
638
645
647
646
641
634
625
614
601
EX8
9
10
10
11
11
12
12
12
12
12
12
11
11
EX4
27
30
32
34
35
35
36
36
36
36
35
35
34
EX5
63
71
76
80
83
84
85
86
85
85
84
83
81
EX6
173
194
209
219
226
231
234
235
234
232
230
227
223
EX7
463
517
556
584
604
616
623
625
624
620
613
604
594
EX8
7
8
9
10
11
11
11
11
11
11
11
11
11
EX4
20
25
28
30
32
33
34
34
34
34
34
34
33
EX5
49
60
67
73
76
79
81
82
82
82
81
80
79
EX6
133
164
184
199
210
217
221
224
225
224
223
221
217
EX7
356
436
492
534
559
578
590
597
600
599
595
588
580
EX8
3
6
8
9
9
10
10
11
11
11
11
11
11
EX4
26
29
30
31
32
33
33
33
32
32
EX5
137
188
198
206
210
213
214
213
212
210
EX6
EX7
10
18
23
23
121
152
63
121
152
173
188
198
206
210
213
214
213
212
210
169
322
406
462
501
529
548
560
567
570
569
565
559
EX8
2
5
7
8
9
9
10
10
10
10
10
10
EX4
5
16
21
25
27
28
29
30
31
31
31
31
EX5
12
38
51
58
64
68
70
72
73
73
73
73
EX6
34
105
139
160
175
186
193
197
200
201
201
199
EX7
90
281
370
427
467
495
514
526
533
536
535
532
EX8
4
6
7
8
9
9
9
9
9
9
EX4
13
19
22
25
26
27
28
28
29
29
EX5
32
45
53
59
62
65
67
68
68
68
EX6
87
123
145
161
171
178
183
186
187
187
EX7
231
328
388
428
456
475
488
495
498
498
EX8
3
5
6
7
8
8
8
9
9
EX4
9
16
20
22
24
25
26
26
26
EX5
EX6
22
47
52
56
59
61
62
62
61
38
104
128
144
155
162
167
170
171
EX7
162
277
341
384
413
432
445
452
455
EX8
135
http://holodko.ru/
Application Expansion Valve and Liquid Injection Valve
Condensing
Tem perature
°C
60
55
50
45
40
35
30
25
20
15
10
136
http://holodko.ru/
—
Extended cap acity (kW )
Evaporating Tem perature (°C)
R22
15
10
5
0
-5
-1 0
-15
-2 0
-2 5
V alve
Type
-30
-3 5
-40
-45
17
17
18
18
18
18
18
18
18
17
17
17
17
EX4
51
52
53
54
54
54
54
54
53
53
52
52
51
EX5
123
126
128
129
130
130
130
129
128
127
126
124
122
EX6
337
3 45
351
355
357
3 58
357
356
353
350
345
340
335
EX7
900
921
936
946
952
954
953
948
941
932
921
908
893
EX8
16
17
17
18
18
18
18
18
18
18
17
17
17
EX4
50
51
52
53
54
54
54
54
54
53
53
52
52
EX5
119
123
126
128
129
130
130
130
129
128
127
126
124
EX6
328
339
346
352
355
3 57
358
3 57
356
353
350
345
340
EX7
876
903
923
938
948
953
955
953
949
941
932
921
908
EX8
16
16
17
17
18
18
18
18
18
18
18
17
17
EX4
48
50
51
52
53
54
54
54
54
54
53
53
52
EX5
EX6
114
119
123
125
127
129
129
129
129
128
127
126
125
31 4
327
337
345
350
354
355
356
355
353
351
347
343
EX7
838
873
899
919
933
943
948
949
947
942
935
925
914
EX8
15
16
16
17
17
17
17
18
18
18
17
17
17
EX4
45
47
49
51
52
52
53
53
53
53
53
52
52
EX5
107
113
118
121
124
126
127
128
128
127
127
126
124
EX6
295
311
324
334
341
346
349
351
351
350
348
346
342
EX7
787
830
864
890
909
923
932
936
937
93 4
929
922
912
EX8
13
15
15
16
16
17
17
17
17
17
17
17
17
EX4
41
44
46
48
50
51
52
52
52
52
52
52
51
EX5
EX6
98
106
111
116
119
122
124
125
125
125
125
124
123
270
290
306
319
328
335
340
343
345
345
344
342
339
EX7
719
774
817
850
875
894
907
915
919
919
916
911
903
EX8
12
13
14
15
16
16
16
17
17
17
17
17
17
EX4
36
40
43
45
47
49
50
50
51
51
51
51
50
EX5
86
96
103
109
113
117
119
121
122
122
122
122
121
EX6
237
2 64
284
300
312
321
327
332
335
336
336
335
333
EX7
632
703
7 57
799
831
856
873
885
893
896
896
893
888
EX8
10
11
13
14
15
15
16
16
16
16
16
16
16
EX4
29
35
39
42
44
46
47
48
49
49
49
49
49
EX5
70
83
93
100
106
110
113
116
117
118
118
118
118
EX6
194
229
256
276
291
303
312
318
322
325
326
326
324
EX7
516
611
682
735
776
808
831
848
859
866
869
868
865
EX8
7
9
11
12
13
14
15
15
15
16
16
16
16
EX4
20
28
33
37
40
43
44
46
46
47
47
48
48
EX5
47
67
80
90
97
102
106
109
112
113
114
114
114
EX6
130
184
220
246
266
281
292
301
307
311
313
314
314
EX7
347
491
587
656
709
749
779
802
818
829
835
837
836
EX8
6
9
10
12
13
13
14
14
15
15
15
15
EX4
18
26
32
36
39
41
42
44
45
45
45
46
EX5
43
63
76
85
93
98
102
105
107
108
109
109
EX6
117
173
209
235
254
269
280
288
294
298
300
300
EX7
312
461
557
627
678
718
747
768
784
793
799
801
EX8
5
8
10
11
12
13
13
14
14
14
14
EX4
15
24
30
34
37
39
40
42
42
43
43
EX5
EX6
37
58
71
81
88
93
97
100
102
103
104
101
160
196
222
241
256
266
274
279
283
285
EX7
269
426
524
593
644
682
710
731
745
754
759
EX8
4
7
9
10
11
12
13
13
13
13
EX4
12
22
28
31
34
36
38
39
40
40
EX5
29
53
66
76
82
87
91
94
96
97
EX6
80
145
182
208
227
241
251
258
263
267
EX7
214
386
485
554
604
642
669
689
702
711
EX8
Application Expansion Valve and Liquid Injection Valve
Condensing
Tem p erature
°C
60
55
50
45
40
35
30
25
20
15
10
Extended cap acity (kW )
Evaporating Tem perature (°C)
R404A / R507
15
10
5
0
-5
-1 0
-15
-2 0
-2 5
V alve
Type
-30
-3 5
-40
-4 5
9
9
9
9
9
9
9
8
8
8
7
7
6
EX4
28
28
28
28
28
27
26
25
24
23
22
21
20
EX5
68
68
68
67
66
65
63
61
58
56
33
50
47
EX6
186
187
186
184
181
177
172
166
160
153
145
137
129
EX7
495
498
496
491
482
471
458
443
425
407
387
36 6
344
EX8
10
10
10
10
10
10
10
9
9
9
8
8
8
EX4
30
31
31
31
30
30
29
29
28
27
26
25
23
EX5
EX6
72
73
74
74
73
72
70
69
67
64
62
59
56
198
201
202
202
200
197
193
188
182
176
169
162
154
EX7
527
535
538
537
533
525
514
501
486
470
451
432
411
EX8
10
10
11
11
11
11
10
10
10
10
9
9
9
EX4
31
32
32
32
32
32
32
31
30
30
29
28
27
EX5
74
76
77
78
78
77
76
75
73
71
69
66
64
EX6
203
208
211
213
219
211
208
204
200
194
188
181
174
EX7
541
555
564
567
567
562
555
545
532
518
501
484
465
EX8
10
10
11
11
11
11
11
11
11
10
10
10
9
EX4
31
32
33
33
33
33
33
33
32
32
31
30
29
EX5
74
77
79
80
80
80
80
79
78
76
74
72
69
EX6
201
210
215
219
220
220
219
216
212
208
202
196
190
EX7
537
559
574
583
587
586
582
575
566
553
539
524
506
EX8
10
10
11
11
11
11
11
11
11
11
11
10
10
EX4
29
31
33
33
34
34
34
34
34
33
32
32
31
EX5
71
75
78
80
81
82
82
81
81
79
78
76
74
EX6
193
205
214
219
223
225
225
223
221
217
213
208
202
EX7
515
547
570
585
594
598
598
595
588
578
567
553
538
EX8
9
10
10
11
11
11
11
11
11
11
11
11
11
EX4
27
30
31
33
34
34
34
34
34
34
33
33
32
EX5
65
71
75
79
81
82
83
83
82
81
80
79
77
EX6
178
195
207
215
221
225
226
226
225
223
219
215
210
EX7
47 4
519
551
574
590
599
603
604
600
594
585
573
560
EX8
8
9
10
10
11
11
11
11
11
11
11
11
11
EX4
23
27
30
31
33
34
34
34
34
34
34
33
33
EX5
56
65
71
75
78
81
82
83
83
82
81
80
79
EX6
153
177
194
206
215
221
224
226
226
225
223
219
215
EX7
409
472
517
550
573
588
598
603
603
600
593
584
573
EX8
EX4
6
8
9
10
10
11
11
11
11
11
11
11
11
17
23
27
29
31
32
33
34
34
34
34
34
33
EX5
42
55
64
70
74
78
80
81
82
82
81
80
79
EX6
EX7
114
150
174
191
204
213
218
222
224
224
223
220
217
305
400
465
510
543
566
582
592
596
597
593
587
579
EX8
1
5
7
8
9
10
10
11
11
11
11
11
11
EX4
3
16
22
26
28
30
32
33
33
33
33
33
33
EX5
8
40
53
62
68
73
76
78
80
80
80
80
79
EX6
21
108
146
170
187
200
208
214
218
219
220
218
216
EX7
56
289
388
453
499
532
555
571
580
585
585
582
576
EX8
5
7
8
9
10
10
10
11
11
11
11
EX4
15
21
25
28
29
31
32
32
32
33
32
EX5
37
51
60
66
71
74
76
77
78
78
78
EX6
101
139
164
181
194
202
208
212
213
214
213
EX7
268
371
437
484
516
540
555
564
569
569
566
EX8
5
7
8
9
9
10
10
10
10
10
EX4
14
20
24
26
28
30
31
31
31
31
EX5
33
48
57
64
68
71
73
75
75
75
EX6
91
131
156
174
186
195
201
204
206
206
EX7
242
350
417
464
496
519
535
544
548
549
EX8
137
http://holodko.ru/
Application Expansion Valve and Liquid Injection Valve
C ondensing
Dew Point
°C
64
59
54
50
45
40
35
30
26
21
16
138
http://holodko.ru/
Tem p era­
tu re Bubble
Point
°C
60
55
50
45
40
35
30
25
20
15
10
Extended cap acity (kW )
Evaporating Tem perature (°C)
R407C
V alve
Type
15
10
5
0
-5
-1 0
-15
-2 0
-2 5
-30
-35
-40
-4 5
16
17
17
17
17
17
16
16
16
15
15
15
14
EX4
50
51
51
51
51
50
50
49
48
47
46
45
43
EX5
119
120
121
121
121
119
118
116
114
112
109
106
103
EX6
328
332
333
333
332
329
325
320
314
308
301
293
285
EX7
874
884
889
889
885
877
867
854
838
821
802
781
759
EX8
17
17
17
17
17
17
17
17
16
16
16
15
15
EX4
50
51
52
52
52
52
51
51
50
49
48
47
46
EX5
120
122
123
124
124
123
122
121
119
117
114
112
109
EX6
330
336
339
341
341
339
336
332
328
322
315
308
301
EX7
879
895
904
909
908
904
897
886
873
858
840
821
801
EX8
16
17
17
17
17
17
17
17
17
17
16
16
16
EX4
50
51
52
52
53
53
52
52
51
51
50
49
48
EX5
EX6
118
121
123
125
125
125
125
123
122
120
118
116
113
326
334
340
343
345
345
343
340
336
331
325
319
312
EX7
869
891
906
915
919
919
914
907
896
883
868
851
832
EX8
16
16
17
17
17
17
17
17
17
17
17
16
16
EX4
48
50
51
52
53
53
53
52
52
51
51
50
49
EX5
115
119
122
124
125
125
125
125
124
122
120
118
116
EX6
316
327
336
341
344
346
345
344
341
337
332
326
320
EX7
843
873
894
909
918
921
920
916
908
897
884
869
853
EX8
15
16
16
17
17
17
17
17
17
17
17
17
16
EX4
46
48
50
51
52
52
52
52
52
52
51
50
49
EX5
109
114
118
121
123
124
125
125
124
123
121
120
118
EX6
300
315
326
334
339
342
344
343
341
338
334
330
324
EX7
801
840
870
891
905
913
916
915
910
902
891
878
864
EX8
14
15
16
16
17
17
17
17
17
17
17
17
16
EX4
42
45
48
49
50
51
52
52
52
51
51
50
50
EX5
EX6
101
108
113
117
120
122
123
123
123
122
121
120
118
278
297
312
323
330
335
338
339
338
337
334
330
325
EX7
742
793
832
860
880
894
901
904
902
897
889
879
866
EX8
12
14
15
15
16
16
16
17
17
17
17
16
16
EX4
38
42
45
47
48
49
50
51
51
51
50
50
49
EX5
90
99
106
111
115
118
119
120
121
120
120
119
117
EX6
248
273
292
306
317
324
329
331
332
331
329
326
323
EX7
661
729
779
817
844
864
876
883
885
884
878
870
860
EX8
10
12
13
14
15
15
16
16
16
16
16
16
16
EX4
32
37
41
44
46
47
48
49
49
49
49
49
48
EX5
75
88
97
103
108
112
115
116
117
117
117
116
115
EX6
207
241
266
285
299
309
316
320
322
323
322
320
317
EX7
552
644
710
760
796
823
841
853
860
861
859
854
846
EX8
7
10
12
13
14
14
15
15
16
16
16
16
15
EX4
23
30
36
39
42
44
46
47
47
48
48
48
47
EX5
54
72
85
94
100
105
108
111
112
113
113
113
112
EX6
148
199
233
258
276
289
299
305
309
312
312
311
309
EX7
395
530
621
687
735
770
796
814
825
831
832
829
824
EX8
7
9
11
12
13
14
14
15
15
15
15
15
EX4
21
29
34
38
40
42
44
45
45
46
46
46
EX5
50
69
81
90
96
101
104
106
108
108
108
108
EX6
137
189
223
247
265
277
287
293
297
299
299
298
EX7
365
503
594
658
705
740
764
781
791
796
796
795
EX8
6
9
11
12
13
13
14
14
14
14
14
EX4
19
27
32
36
38
40
42
43
43
43
43
EX5
45
64
76
85
91
96
99
101
103
103
103
EX6
123
176
210
234
251
264
273
279
282
282
284
EX7
329
470
561
624
670
704
727
743
753
753
758
EX8
Application Expansion Valve and Liquid Injection Valve
Condensing
Tem perature
°C
60
Extended c a p a city (kW )
Evaporating Tem perature (°C)
R410A
V alve
Type
15
10
5
0
-5
-1 0
-15
-2 0
18
-30
-3 5
-40
17
17
18
18
18
18
18
18
18
18
17
17
-4 5
17
EX4
51
52
53
54
54
54
54
54
53
53
52
51
50
EX5
123
126
129
130
131
131
131
130
129
127
125
123
120
EX6
339
348
354
358
360
361
360
358
354
350
344
338
331
EX7
18
18
19
19
19
19
19
19
19
19
19
18
18
EX4
53
55
56
57
57
58
58
58
57
57
56
55
54
EX5
127
132
135
137
138
139
139
139
138
137
135
133
131
EX6
350
362
370
377
381
383
383
382
380
377
3 72
366
360
EX7
935
965
988
1005
1016
1021
1023
1020
1014
1005
992
978
961
EX8
EX4
EX8
55
50
45
40
35
30
25
20
15
10
18
18
19
19
20
20
20
20
20
20
20
19
19
53
55
57
58
59
60
60
60
60
59
59
58
57
EX5
128
133
137
140
142
144
145
145
144
143
142
140
138
EX6
351
366
377
386
392
396
398
398
397
394
391
386
380
EX7
9 36
975
1006
1029
1045
1056
1061
1062
1059
1052
1043
1030
1015
EX8
17
18
19
19
20
20
20
20
20
20
20
20
20
EX4
EX5
52
54
57
58
60
60
61
61
61
61
61
60
59
124
131
136
141
144
146
147
148
148
147
146
145
143
EX6
3 42
361
375
387
395
401
405
407
407
405
403
399
394
EX7
9 13
962
1001
1031
1054
1070
1080
1085
1085
1082
1075
1064
1052
EX8
16
17
18
19
20
20
20
21
21
21
21
20
20
EX4
49
52
55
57
59
60
61
62
62
62
62
61
61
EX5
EX6
118
126
133
138
142
145
147
149
149
149
149
148
146
324
348
366
381
392
400
406
409
411
411
409
406
402
EX7
8 64
9 27
977
1015
1045
1067
1082
1091
1095
1095
1091
1084
1073
EX8
15
16
18
18
19
20
20
20
21
21
21
20
20
EX4
45
49
53
55
58
59
60
61
62
62
62
62
61
EX5
108
118
127
134
139
143
146
148
149
149
149
149
148
EX6
296
326
349
368
382
393
401
406
409
411
410
409
406
EX7
789
869
932
981
1019
1048
1069
1083
1092
1095
1095
1090
1082
EX8
13
15
16
17
18
19
20
20
20
20
20
20
20
EX4
38
44
49
52
55
57
59
60
61
61
61
61
61
EX5
93
107
118
126
133
138
142
145
147
148
148
148
147
EX6
255
294
325
348
366
380
390
398
403
406
407
406
405
EX7
680
786
866
928
976
1013
1041
1061
1075
1083
1086
1084
1079
EX8
10
13
15
16
17
18
19
19
20
20
20
20
20
EX4
29
38
44
48
52
54
56
58
59
60
60
60
60
EX5
71
91
106
117
125
131
136
140
143
144
145
146
145
EX6
195
251
291
321
344
361
375
385
392
397
399
400
399
EX7
520
669
775
855
916
964
1000
1027
1046
1058
1065
1067
1065
EX8
4
9
12
14
16
17
18
18
19
19
19
20
20
EX4
13
28
37
43
47
51
53
55
57
58
58
59
59
EX5
31
68
89
103
114
122
129
133
137
139
141
142
142
EX6
84
188
244
284
314
337
35 4
367
377
383
388
390
390
EX7
225
501
652
758
837
898
944
979
1005
1023
1034
1040
1042
EX8
3
9
12
14
15
16
17
18
18
19
19
19
EX4
10
27
36
42
46
49
52
54
55
56
57
57
EX5
EX6
23
65
86
100
111
119
125
130
133
135
137
137
64
178
236
276
305
327
344
357
366
372
376
378
EX7
172
475
629
735
813
873
917
951
976
992
1003
1008
EX8
EX4
1
8
11
13
15
16
17
17
18
18
18
4
25
34
40
44
47
50
52
53
54
55
EX5
10
60
82
96
107
115
121
125
128
130
132
EX6
28
166
225
265
294
315
332
344
352
358
362
EX7
76
443
600
706
783
841
885
917
940
956
965
EX8
139
http://holodko.ru/
Application Expansion Valve and Liquid Injection Valve
Extended cap acity (kW )
Evaporating Tem perature (°C)
Condensing
Tem perature
°C
R124
7
7
7
100
22
21
20
53
51
49
8
8
7
24
23
57
8
30
95
90
85
80
75
70
65
60
Condensing
Tem perature
°C
-10
-15
-20
-25
-30
-35
-40
-45
140
http://holodko.ru/
25
20
15
V alve
Type
10
5
0
6
6
6
5
EX4
19
18
17
16
EX5
47
44
42
39
EX6
7
7
7
6
EX4
23
22
21
20
19
EX5
56
54
52
50
47
45
EX6
8
8
8
7
7
7
EX4
25
25
24
24
23
22
21
EX5
61
59
58
56
54
52
50
EX6
9
9
8
8
8
8
7
EX4
26
26
25
25
24
23
23
EX5
63
62
61
60
58
56
54
EX6
9
9
9
8
8
8
8
EX4
27
27
26
26
25
25
24
EX5
64
63
63
62
61
59
57
EX6
9
9
9
9
9
8
8
EX4
EX5
27
27
27
26
26
25
25
64
64
64
63
62
61
60
EX6
9
9
9
9
9
9
8
EX4
26
26
27
27
26
26
25
EX5
62
63
64
63
63
62
61
EX6
8
8
9
9
9
9
8
EX4
25
26
26
26
26
26
26
EX5
60
61
62
63
63
62
62
EX6
8
8
8
8
8
8
8
EX4
23
24
25
26
26
26
26
EX5
56
58
60
61
62
62
61
EX6
Extended c a p a city (kW )
Evaporating Tem perature (°C)
R23
Valve
Type
-4 5
-50
-5 5
-60
-65
-70
-7 5
-80
-85
-90
-95
17
18
19
19
19
19
19
19
19
19
19
-10 0
18
53
55
56
57
58
58
58
58
58
57
57
56
EX5
127
132
135
138
139
140
140
140
139
138
137
135
EX6
EX4
16
17
18
18
19
19
19
19
19
19
18
18
EX4
50
52
54
55
56
57
57
57
57
57
56
55
EX5
119
125
130
133
135
137
137
137
137
136
135
134
EX6
15
16
17
17
18
18
18
18
18
18
18
18
EX4
45
48
51
53
54
55
55
55
55
55
55
54
EX5
109
117
122
127
130
132
133
134
133
133
132
131
EX6
13
14
15
16
17
17
17
18
18
18
18
17
EX4
40
44
47
49
51
52
53
53
53
53
53
53
EX5
96
106
113
118
122
125
127
128
129
128
128
127
EX6
11
13
14
15
16
16
16
17
17
17
17
17
EX4
33
38
42
45
47
49
50
51
51
51
51
51
EX5
78
92
101
108
114
117
120
122
122
123
123
122
EX6
7
10
12
13
14
15
15
16
16
16
16
16
EX4
22
30
36
40
43
45
46
47
48
48
48
48
EX5
53
73
86
96
103
108
111
114
115
116
116
116
EX6
6
9
11
12
13
14
14
15
15
15
15
EX4
19
28
33
37
40
42
43
44
45
45
45
EX5
46
67
80
90
96
101
104
106
108
108
108
EX6
5
8
10
11
12
13
13
13
14
14
EX4
15
25
30
34
37
39
40
41
41
41
EX5
37
60
73
82
88
93
96
98
99
100
EX6
Application Expansion Valve and Liquid Injection Valve
Condensing
Tem perature
°C
10
Extended cap acity (kW )
Evaporating Tem perature (°C)
R744
8
5
0
-5
-1 0
-15
-2 0
-2 5
-30
V alve
Type
-3 5
-40
-4 5
-50
5
12
18
22
26
29
31
33
34
35
36
37
38
EX4
15
36
55
68
79
87
94
99
104
108
110
113
114
EX5
36
86
132
164
189
208
225
238
249
257
264
269
273
EX6
99
237
362
450
518
572
617
653
683
707
726
740
750
EX7
12
19
23
27
29
32
33
35
36
37
38
37
57
71
81
90
96
102
106
110
113
115
EX5
89
137
170
195
215
231
244
254
263
269
274
EX6
244
376
466
535
589
634
670
699
722
739
753
EX7
12
19
24
27
30
32
34
35
36
37
EX4
38
58
72
83
91
98
103
107
111
113
EX5
90
139
173
198
218
234
247
257
265
271
EX6
247
383
475
544
598
642
677
705
727
74 4
EX7
659
1023
1267
1452
1598
1715
1809
1883
1942
1987
EX8
12
19
24
27
30
32
34
35
36
EX4
97
59
73
83
91
98
103
107
110
EX5
247
257
264
EX6
EX7
EX8
5
EX4
EX8
0
-5
89
-20
-25
-30
-35
-40
174
199
219
234
245
385
477
547
601
644
678
705
725
654
1028
1275
1460
1604
1718
1809
1881
1937
EX8
12
19
24
27
30
32
34
35
EX4
36
58
72
83
91
97
102
106
EX5
EX6
-10
-15
140
87
139
173
198
217
233
245
254
239
382
475
544
597
639
671
697
EX7
639
1021
1269
1452
1594
1705
1793
1861
EX8
11
19
23
27
29
31
33
EX4
35
57
71
82
89
96
100
EX5
137
171
195
214
229
240
EX6
84
79
133
229
376
468
536
588
628
660
EX7
613
1003
1250
1431
1570
1677
1761
EX8
166
11
18
23
26
29
31
EX4
33
56
70
80
87
93
EX5
191
209
53
121
113
EX6
216
365
457
523
574
613
EX7
576
974
1220
1398
1532
1636
EX8
10
18
22
25
28
EX4
30
53
67
77
85
EX5
128
161
185
202
EX6
72
64
223
198
350
442
507
556
EX7
528
935
1179
1353
1483
EX8
EX4
9
17
21
24
27
51
64
74
EX5
177
EX6
154
146
175
332
423
486
EX7
46 6
887
1129
1298
EX8
7
16
20
EX4
22
47
61
EX5
145
310
400
EX7
386
828
1068
EX8
5
14
EX4
16
43
EX5
EX6
37
103
EX6
103
284
EX7
275
759
EX8
141
http://holodko.ru/
For Applications As Expansion Valve The Following Correction Factors (kt) Related To Evaporating And Condensing Temperatures Apply
C o rrectio n fa c to rs fo r E X V
R407F
E vaporating te m p e ra tu re °C
Liquid temperature °C
20
15
10
5
0
-5
-10
-15
-20
-25
-30
-35
-40
-45
65
1.51
1.53
1.55
1.58
1.61
1.64
1.68
1.71
1.75
1.80
1.85
1.90
1.96
2.02
60
1.35
1.37
1.39
1.41
1.43
1.46
1.49
1.52
1.55
1.59
1.63
1.67
1.71
1.76
55
1.23
1.25
1.26
1.28
1.30
1.32
1.35
1.37
1.40
1.43
1.46
1.50
1.53
1.57
50
1.14
1.15
1.16
1.18
1.20
1.22
1.24
1.26
1.28
1.31
1.33
1.36
1.39
1.43
45
1.06
1.07
1.08
1.10
1.11
1.13
1.14
1.16
1.18
1.20
1.23
1.25
1.28
1.31
40
0.99
1.00
1.01
1.02
1.04
1.05
1.07
1.08
1.10
1.12
1.14
1.16
1.18
1.21
35
0.93
0.94
0.95
0.96
0.97
0.99
1.00
1.01
1.03
1.05
1.06
1.08
1.10
1.13
30
0.88
0.89
0.90
0.91
0.92
0.93
0.94
0.95
0.97
0.98
1.00
1.02
1.03
1.05
25
0.83
0.84
0.85
0.86
0.87
0.88
0.89
0.90
0.91
0.93
0.94
0.96
0.97
0.99
20
0.79
0.80
0.81
0.82
0.82
0.83
0.84
0.85
0.87
0.88
0.89
0.91
0.92
0.94
15
0.76
0.76
0.77
0.78
0.78
0.79
0.80
0.81
0.82
0.83
0.85
0.86
0.87
0.89
10
0.72
0.73
0.74
0.74
0.75
0.76
0.77
0.77
0.78
0.79
0.81
0.82
0.83
0.84
5
0.69
0.70
0.70
0.71
0.72
0.72
0.73
0.74
0.75
0.76
0.77
0.78
0.79
0.80
0
0.66
0.67
0.68
0.68
0.69
0.69
0.70
0.71
0.72
0.73
0.73
0.74
0.75
0.77
-5
0.64
0.64
0.65
0.65
0.66
0.67
0.67
0.68
0.69
0.70
0.70
0.71
0.72
0.73
-10
0.62
0.62
0.62
0.63
0.63
0.64
0.65
0.65
0.66
0.67
0.68
0.68
0.69
0.70
For Applications As Expansion Valve The Following Correction Factors (kAp) Related To The Pressure Drop At Valve Apply
C o rrectio n fa c to rs fo r EX V s
AP (b ar)
1
1.5
2
2.5
3
3.5
4
4.5
5
5.5
6
6.5
7
7.5
k AP
3.51
2.87
2.48
2.22
2.03
1.88
1.76
1.66
1.57
1.5
1.43
1.38
1.33
1.28
AP (b ar)
8
9
10
11
12
13
14
15
16
17
18
19
20
21
k AP
1.24
1.17
1.11
1.06
1.01
0.97
0.94
0.91
0.88
0.85
0.83
0.81
0.79
0.77
142
http://holodko.ru/
Application Hot Gas Bypass - Nominal Capacities (kW )
Valve Type
Kv, m3/h
R 2 2 / R407C
R134a
R 404A / R507
EX4
0.21
4.9
3.4
4.6
EX5
0.68
16
11
15
EX6
1.57
37
26
35
EX7
5.58
131
92
126
EX8
16.95
399
278
382
The nominal capacity (Qn) is based on the following conditions:
Refrigerant
Evaporating temperature
Condensing temperature
Subcooling
R407C
+4°C (dew point)
1K
R22, R134a, R404A, R507
+4°C
+38°C bubble point /
+43°C dew point
+38°C
For other operating conditions use Excel based Selection Tool (download
from www.emersonclimate.eu) or use the following quick selection tables.
Condensing
Temperature °C
60 bubble point for all refrig
(64 dew point for R407C)
50 bubble point for all
refrig.
(54 dew point for R407C)
40 bubble point for all
refrig.
(45 dew point for R407C)
30 bubble point for all
refrig.
(35 dew point for R407C)
1K
Biflow versions are not released for hot gas bypass applications. EX4 .. EX 8 must
be installed with motor downward in hot gas line applications. This ensures
the valve life expectancy. Install a check valve on main hot gas line just after
branch to Control Valve.
Extend ed C ap acity k W
Valve type
R 2 2 / R407C
R134a
R404A / R507
7
4.9
5.8
EX4
23
16
19
EX5
54
38
45
EX6
191
135
161
EX7
581
411
488
EX8
6.1
4.3
5.5
EX4
20
14
18
EX5
46
32
41
EX6
163
115
147
EX7
495
348
447
EX8
4.9
3.7
4.9
EX4
16
12
16
EX5
38
27
36
EX6
136
95
130
EX7
414
289
394
EX8
4.3
2.8
4
EX4
14
9
13
EX5
32
22
31
EX6
112
78
111
EX7
340
236
336
EX8
143
http://holodko.ru/
Application Suction Pressure Regulation (Evaporating or Crankcase Pressure) - Nominal Capacities (kW)
Valve Type
Kv, m3/h
R407C
R22
R134a
R404A
EX6
1.57
3.9
4.1
3.1
3.5
EX7
5.58
14
15
11
13
EX8
16.95
42
45
34
38
The nominal capacity (Qn) is based on the following conditions:
Refrigerant
Evaporating temperature
Condensing temperature
Subcooling
Pressure Drop
R407C
+4°C (dew point)
1K
0.15 bar
R22, R134a, R404A
+4°C
+38°C bubble point /
+43°C dew point
+38°C
1K
0.15 bar
For biflow versions attention should be paid to the temperature range TS -40°C
bis +80°C ! EX 6 .. EX 8 must be installed with motor downward in suction line
applications. This ensures the valve life expectancy.
For other operating conditions use Excel based Selection Tool (download
from www.emersonclimate.eu) or use the following quick selection tables.
E xam p le:
EX 6 provides 3.5 kW at 0 .1 5 bar pressure drop w ith R 404A or
3 .5 * 1 .4 1 = 4 .9 kW at 0.3 bar pressure drop.
Typical O rder Package
1) V alve E X 6 , EX 7 or E X 8
Plug and cab le asse m b ly EXV -M 60
M u ltip ly above n om inal c a p a citie s by fo llo w in g fa c to rs to
obtain cap acities at differen t pressure drops:
AP, bar
0.10
0.15
0.20
0.30
Correction factor
0.82
1.00
1.15
1.41
Condensing
Temperature
°C
50
40
30
20
60
50
40
30
20
144
http://holodko.ru/
—
Extended capacity (kW)
Evaporating Temperature (°C)
R134a
60
Condensing
Temperature
°C
2) C o n tro lle r K it E X D -U 0 0 P a rt No. 8 0 8 0 3 8
Valve
Type
10
5
0
-10
-20
3
2
2
2
1
EX 6
10
9
8
6
4
EX7
30
27
24
18
13
EX 8
3
3
2
2
1
EX 6
11
10
9
7
5
EX7
34
30
27
21
15
EX 8
3
3
3
2
2
EX 6
12
11
10
8
6
EX7
38
34
30
23
17
EX 8
4
3
3
2
2
EX 6
14
12
11
8
6
EX7
41
37
33
26
19
EX 8
4
4
3
3
2
EX 6
15
13
12
9
7
EX7
45
40
36
28
21
EX 8
Extended capacity (kW)
Evaporating Temperature (°C)
R22
10
5
0
-10
-20
-30
-40
4
3
3
3
2
2
1
Valve
Type
EX 6
13
12
11
9
7
5
4
EX7
41
37
34
27
22
17
12
EX 8
4
4
3
3
2
2
1
EX 6
15
13
12
10
8
6
5
EX7
45
41
37
30
24
19
14
EX 8
5
4
4
3
2
2
1
EX 6
16
15
13
11
9
7
5
EX7
49
45
41
33
27
21
15
EX 8
5
4
4
3
3
2
2
EX 6
17
16
14
12
9
7
5
EX7
53
48
44
36
29
22
16
EX 8
5
5
4
4
3
2
2
EX6
19
17
15
13
10
8
6
EX7
56
52
47
39
31
24
18
EX8
Application Suction Pressure Regulation (Evaporating or Crankcase Pressure)
Condensing
Temperature
°C
60
50
40
30
20
5
0
3
2
2
2
1
1
1
EX6
9
8
8
6
4
3
2
EX7
29
26
23
18
13
10
7
EX8
EX6
3
3
2
2
1
1
11
9
7
6
4
3
EX7
36
32
29
23
18
13
9
EX8
4
3
3
3
2
1
1
EX6
14
12
11
9
7
5
4
EX7
42
38
34
27
21
16
12
EX8
EX6
4
4
4
3
2
2
1
16
14
13
10
8
6
5
EX7
48
43
39
31
25
19
14
EX8
5
4
4
3
3
2
1
EX6
17
16
14
12
9
7
5
EX7
53
48
44
35
28
21
16
EX8
°C
°C
50
40
30
26
Extended capacity (kW)
Evaporating Temperature (°C)
R407C
60
35
-40
3
Bubble point
45
- 20
12
Condensing Temperature
54
-10
-30
Valve
Type
10
Dew point
64
Extended capacity (kW)
Evaporating Temperature (°C)
R404A/R507
20
Valve
Type
10
5
0
-10
3
3
3
2
2
EX 6
12
11
10
8
6
EX7
36
33
29
23
18
EX 8
4
3
3
2
2
EX 6
14
12
11
9
7
EX7
41
37
34
27
21
EX 8
4
4
3
3
2
EX 6
15
14
12
10
8
EX7
46
42
38
30
23
EX 8
5
4
4
3
2
EX 6
17
15
14
11
9
EX7
51
46
41
33
26
EX 8
5
5
4
3
3
EX 6
-20
18
16
15
12
9
EX7
55
50
45
36
28
EX 8
Application Condensing Pressure Regulation and Liquid Duty - Nominal Capacities (kW)
Valve Type
Kv, m3/h
R407C
R22
EX5
0 . 68
18
20
18
13
EX6
1.57
43
46
42
30
151
106
458
323
EX7
5.58
153
162
EX8
16.95
463
491
R134a
R404A
145
http://holodko.ru/
The nominal capacity (Qn) is based on the following conditions:
Refrigerant
Evaporating temperature
R407C
+4°C (dew point)
R22, R134a, R404A
+4°C
Condensing temperature
Subcooling
Pressure Drop
1K
0.35 bar
1K
0.35 bar
+38°C bubble point /
+43°C dew point
+38°C
Multiply above nominal capacities by following factors to obtain capacities
at different pressure drops:
AP, bar
0.15
0.20
0.35
Correction factor
0.65
0.76
1.00
Condensing
Tem perature
°C
Example:
EX6 provides 30kW at 0.35bar pressure drop with R404A or 30*0.76=22.8
kW at 0.2 bar pressure drop.
Extended Cap a city
Evaporating Tem perature (°C)
R134a
V alve type
10
0
-10
-2 0
14
13
13
12
EX5
EX6
32
31
29
27
115
109
104
98
EX7
350
332
315
296
EX8
60
16
15
15
14
EX5
37
36
34
32
EX6
133
127
121
115
EX7
405
387
369
350
EX8
50
18
18
17
16
EX5
42
41
39
37
EX6
151
145
139
133
EX7
458
440
422
403
EX8
20
20
19
18
EX5
30
47
46
44
42
EX6
168
162
156
150
EX7
512
493
474
455
EX8
22
22
21
20
EX5
52
51
49
47
EX6
186
180
173
167
EX7
5 64
546
526
507
EX8
40
20
C ondensing
Tem perature
°C
Extended C ap acity
Evaporating Tem perature (°C)
R22
10
0
-1 0
-2 0
-30
V alve type
-40
15
15
15
14
14
13
36
35
34
33
32
30
EX5
EX6
128
124
120
116
112
108
EX7
3 87
377
365
353
341
328
EX8
17
17
16
17
16
15
EX5
41
40
36
39
36
35
EX6
60
50
144
141
129
137
129
124
EX7
4 39
428
391
416
391
377
EX8
19
19
19
18
17
17
EX5
45
44
43
42
41
39
EX6
161
157
153
149
145
140
EX7
4 88
477
465
453
439
426
EX8
30
21
21
20
20
19
19
EX5
50
49
48
46
45
44
EX6
177
173
169
165
160
156
EX7
536
525
513
500
486
472
EX8
23
23
22
22
21
21
EX5
54
53
52
51
49
48
EX6
192
188
184
180
175
171
EX7
584
572
560
547
533
519
EX8
40
20
146
http://holodko.ru/
—
Application Condensing Pressure Regulation and Liquid Duty
Condensing
Temperature
°C
R404A/507
Evaporating Temperature (°C)
Valve type
10
0
-10
-20
-30
-40
8
8
7
6
6
5
EX5
19
17
16
15
13
12
EX6
66
62
58
53
48
43
EX7
202
189
175
160
146
130
EX8
11
10
9
9
8
8
EX5
24
23
22
20
19
17
EX6
EX7
60
50
87
82
78
73
67
62
264
250
236
220
205
189
EX 8
13
12
12
11
10
10
EX5
30
28
27
26
24
23
EX6
106
1 01
96
91
85
80
EX7
321
306
291
276
260
243
EX8
30
15
14
14
13
12
12
EX5
35
33
32
30
29
27
EX6
123
119
114
108
103
97
EX7
375
360
345
329
312
295
EX8
17
16
16
15
14
14
EX5
40
Cond<
Tempe
Dew Point °C
64
54
45
35
26
40
38
37
35
34
32
EX6
141
136
131
125
120
114
EX7
427
412
397
380
363
346
EX8
a ss
n
eg
20
R407C
Bubble Point °C
Evaporating Temperature (°C)
Valve type
10
0
-10
14
13
12
12
EX5
32
30
29
28
EX6
EX7
60
-20
112
108
103
98
340
327
313
298
EX8
16
15
15
14
EX5
37
36
35
33
EX6
132
128
123
118
EX7
402
388
373
358
EX8
50
18
18
17
17
EX5
43
41
40
38
EX6
152
147
142
137
EX7
460
446
431
415
EX8
21
20
19
19
EX5
48
47
45
44
EX6
30
40
20
170
166
160
155
EX7
517
503
487
471
EX8
23
22
22
21
EX5
53
52
50
49
EX6
189
184
179
173
EX7
573
558
543
526
EX 8
147
http://holodko.ru/
Application Hot Gas Flow such as Heat Reclaim Application - Nominal Capacities (kW)
Valve Type
Kv, m3/h
R 2 2 / R407C
R134a
R 404A / R507
R410A
EX6
1.57
11
9
10
13
EX7
5.58
39
33
36
47
EX8
16.95
119
101
108
144
The nominal capacity (Qn) is based on the following conditions:
Refrigerant
Evaporating temperature
Condensing temperature
Subcooling
Pressure Drop
Isentropic Efficiency
R407C
+4°C (dew point)
+38°C bubble point /
+43°C dew point
1K
0.35 bar
80%
R22, R134a,
R404A,R507
+4°C
+38°C
1K
0.35 bar
80%
For other conditions see following tables.
Condensing
Temperature
°C
Pressure
Drop
bar
0,1
60
0,5
1,0
0,1
50
0,5
1,0
0,1
40
0,5
1,0
0,1
30
0,5
1,0
148
http://holodko.ru/
—
Valves must be installed with motor downward in hot gas line applications.
This ensures the valve life expectancy. Bi-flow versions are not released for
hot gas flow applications.
Extended Capacity KW
Evaporating Temperature (°C)
R134a
Valve
type
15
10
5
0
-5
-10
-15
-20
-25
-30
-35
-40
-45
5
5
4
4
4
4
4
4
4
3
3
3
3
EX6
16
16
16
15
15
14
14
13
13
12
12
11
10
EX7
50
49
47
46
44
43
41
40
38
37
35
33
32
EX8
EX6
10
10
10
9
9
9
8
8
8
7
7
7
6
36
35
34
33
32
31
30
29
28
26
25
24
23
EX7
110
107
104
101
97
94
91
87
84
80
77
74
70
EX8
EX6
14
14
13
13
12
12
12
11
11
10
10
9
9
50
49
47
46
44
43
41
40
38
37
35
34
32
EX7
152
148
144
139
135
130
126
121
116
112
107
102
97
EX8
5
4
4
4
4
4
4
4
4
3
3
3
3
EX6
16
16
15
15
14
14
14
13
13
12
12
11
11
EX7
49
48
47
45
44
43
41
40
39
37
36
35
33
EX8
10
10
9
9
9
9
8
8
8
8
7
7
7
EX6
35
35
34
33
32
31
30
29
28
27
26
25
24
EX7
108
105
102
99
97
94
91
88
85
82
79
76
73
EX8
14
13
13
13
12
12
12
11
11
10
10
10
9
EX6
49
48
46
45
44
43
41
40
39
37
36
34
33
EX7
148
145
141
137
133
129
125
121
117
113
109
105
100
EX8
4
4
4
4
4
4
4
4
4
3
3
3
3
EX6
16
15
15
14
14
14
13
13
13
12
12
11
11
EX7
47
46
45
44
43
42
40
39
38
37
36
34
33
EX8
10
9
9
9
9
8
8
8
8
7
7
7
7
EX6
34
33
32
32
31
30
29
28
27
26
26
25
24
EX7
103
100
98
96
93
91
88
86
83
80
78
75
73
EX8
13
13
12
12
12
12
11
11
11
10
10
10
9
EX6
46
45
44
43
42
41
40
39
38
36
35
34
33
EX7
141
138
134
131
128
124
121
117
114
110
107
103
100
EX8
4
4
4
4
4
4
4
3
3
3
3
3
3
EX6
15
14
14
14
13
13
13
12
12
12
11
11
11
EX7
44
43
42
42
41
40
39
38
37
35
34
33
32
EX8
9
9
9
8
8
8
8
8
7
7
7
7
6
EX6
32
31
30
30
29
28
28
27
26
25
25
24
23
EX7
96
94
92
90
88
86
84
81
79
77
75
72
70
EX8
12
12
12
11
11
11
11
10
10
10
9
9
9
EX6
43
42
41
40
39
38
37
36
35
34
33
32
31
EX7
130
128
125
122
119
117
114
111
108
105
102
98
95
EX8
Application Hot Gas Flow such as Heat Reclaim Application
Condensing
Temperature
°C
Pressure
Drop
bar
0,1
60
0,5
1,0
0,1
50
0,5
1,0
0,1
40
0,5
1, 0
0,1
30
0,5
1,0
Extended Capacity KW
Evaporating Temperature (°C)
R22/R407C
-45
Valve
type
15
10
5
0
-5
-10
-15
-20
-25
-30
-35
-40
6
5
5
5
5
5
5
5
4
4
4
4
4
EX6
20
19
19
18
18
17
17
16
16
15
15
14
14
EX7
59
58
57
55
54
53
51
50
48
47
45
44
42
EX 8
12
12
12
11
11
11
10
10
10
10
9
9
9
EX6
43
42
41
40
39
38
37
36
35
34
33
32
31
EX7
131
129
126
123
119
116
113
110
107
103
100
97
94
EX8
17
17
16
16
15
15
15
14
14
13
13
13
12
EX6
60
59
58
56
55
53
52
51
49
48
46
45
43
EX7
183
179
175
171
167
162
158
154
149
145
140
135
131
EX8
5
5
5
5
5
5
5
5
4
4
4
4
4
EX6
19
19
18
18
17
17
17
16
16
15
15
14
14
EX7
58
57
56
54
53
52
51
49
48
47
45
44
42
EX8
12
12
11
11
11
11
10
10
10
10
9
9
9
EX6
42
41
40
40
39
38
37
36
35
34
33
32
31
EX7
128
126
123
120
117
115
112
109
106
103
100
97
94
EX8
17
16
16
15
15
15
14
14
14
13
13
13
12
EX6
59
57
56
55
54
52
51
50
49
47
46
44
43
EX7
178
175
171
167
163
159
155
151
147
143
139
135
131
EX8
5
5
5
5
5
5
5
4
4
4
4
4
4
EX6
18
18
18
17
17
16
16
16
15
15
15
14
14
EX7
56
55
54
52
51
50
49
48
47
45
44
43
42
EX8
11
11
11
11
10
10
10
10
9
9
9
9
8
EX6
40
40
39
38
37
36
35
35
34
33
32
31
30
EX7
123
120
118
115
113
110
108
105
103
100
97
94
92
EX8
EX6
16
15
15
15
14
14
14
14
13
13
12
12
12
56
55
54
53
52
50
49
48
47
46
44
43
42
EX7
170
167
163
160
157
153
149
146
142
139
135
131
127
EX8
EX6
5
5
5
5
4
4
4
4
4
4
4
4
4
17
17
17
16
16
16
15
15
15
14
14
14
13
EX7
53
52
51
50
49
48
46
45
44
43
42
41
40
EX8
EX6
11
10
10
10
10
10
9
9
9
9
9
8
8
38
37
37
36
35
34
34
33
32
31
30
30
29
EX7
115
113
111
109
107
104
102
100
97
95
93
90
88
EX8
15
14
14
14
14
13
13
13
12
12
12
12
11
EX6
52
51
50
49
48
47
46
45
44
43
42
41
40
EX7
159
156
153
150
147
144
141
138
134
131
128
124
121
EX8
* Co nd en sin g te m p e ra tu re s R 4 0 7 C :
T h e relation b e tw ee n bu bb le p o ints and d e w p o ints is as
fo llo w s:
Bubble p o in t °C
60
50
40
30
D e w p o in t °C
64
54
45
35
149
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Application Hot Gas Flow such as Heat Reclaim Application
Condensing
Temperature
°C
Pressure
Drop
bar
0,1
60
0,5
1, 0
0,1
50
0,5
1, 0
0,1
40
0,5
1, 0
0,1
30
0,5
1,0
150
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Extended Capacity KW
Evaporating Temperature (°C)
R404A
Valve
type
15
10
5
0
-5
-10
-15
-20
-25
-30
-35
-40
-45
4
4
4
4
4
3
3
3
3
3
3
2
2
EX6
15
14
14
13
13
12
11
11
10
10
9
8
8
EX7
45
43
42
40
38
36
35
33
31
29
27
25
23
EX 8
9
9
8
8
8
7
7
7
6
6
6
5
5
EX6
32
31
30
29
28
26
25
24
22
21
20
18
17
EX7
99
95
92
88
84
80
76
72
68
64
60
56
52
EX 8
13
12
12
11
11
10
10
9
9
8
8
7
7
EX6
EX7
45
44
42
40
39
37
35
33
31
29
27
26
24
137
132
127
122
117
112
106
101
95
89
84
78
72
EX 8
5
4
4
4
4
4
4
4
3
3
3
3
3
EX6
16
16
15
15
14
14
13
13
12
11
11
10
10
EX7
49
47
46
44
43
41
40
38
36
35
33
31
30
EX 8
10
10
9
9
9
8
8
8
7
7
7
6
6
EX6
35
34
33
32
31
30
29
28
26
25
24
23
22
EX7
107
104
1 01
98
95
91
88
84
80
77
73
69
65
EX8
14
13
13
13
12
12
11
11
10
10
9
9
8
EX6
49
48
46
45
43
42
40
38
37
35
33
32
30
EX7
149
145
141
136
131
127
122
117
112
107
102
96
91
EX8
5
4
4
4
4
4
4
4
4
3
3
3
3
EX6
16
16
16
15
15
14
14
13
13
12
12
11
11
EX7
50
49
47
46
45
43
42
40
39
37
36
34
33
EX8
10
10
10
9
9
9
9
8
8
8
7
7
7
EX6
36
35
34
33
32
31
30
29
28
27
26
25
24
EX7
109
107
104
101
98
95
92
89
86
83
79
76
73
EX8
EX6
14
14
13
13
13
12
12
11
11
11
10
10
9
50
49
48
46
45
44
42
41
39
38
36
35
33
EX7
152
148
144
140
136
132
128
124
119
115
110
105
101
EX8
5
4
4
4
4
4
4
4
4
4
3
3
3
EX6
16
16
15
15
15
14
14
13
13
13
12
12
11
EX7
49
48
47
46
45
43
42
41
40
38
37
36
34
EX 8
10
10
10
9
9
9
9
8
8
8
8
7
7
EX6
35
35
34
33
32
31
31
30
29
28
27
26
25
EX7
108
105
103
1 01
98
95
93
90
87
84
81
78
76
EX 8
14
13
13
13
13
12
12
12
11
11
10
10
10
EX6
49
48
47
46
45
43
42
41
40
38
37
36
34
EX7
149
146
142
139
135
132
128
124
120
117
113
109
104
EX 8
Application Hot Gas Flow such as Heat Reclaim Application
Condensing
Temperature
°C
0,1
60
0,5
1, 0
0,1
50
0,5
1,0
0,1
40
0,5
1,0
0,1
30
0,5
1,0
Extended Capacity KW
Evaporating Temperature (°C)
R410A
Pressure
Drop bar
Valve
type
15
10
5
0
-5
-10
-15
-20
-25
-30
-35
-40
-45
6
6
6
6
5
5
5
5
5
5
4
4
4
EX6
21
21
20
20
19
19
18
18
17
16
16
15
15
EX7
64
63
62
60
58
57
55
53
52
50
48
46
44
EX8
EX6
13
13
13
12
12
12
11
11
11
10
10
10
9
47
46
45
44
43
41
40
39
38
36
35
34
32
EX7
143
140
137
133
130
126
122
118
115
111
107
103
99
EX8
19
18
18
17
17
16
16
15
15
14
14
13
13
EX6
66
64
63
61
60
58
56
55
53
51
49
47
46
EX7
200
196
191
186
182
177
171
166
161
155
150
144
138
EX8
6
6
6
6
6
6
5
5
5
5
5
5
4
EX6
22
22
21
21
20
20
19
19
18
18
17
17
16
EX7
67
66
65
63
62
60
59
57
55
54
52
50
48
EX8
EX6
14
14
13
13
13
12
12
12
11
11
11
10
10
49
48
47
46
45
44
43
42
40
39
38
37
35
EX7
149
146
143
140
137
133
130
126
123
119
115
111
108
EX8
19
19
19
18
18
17
17
16
16
15
15
14
14
EX6
69
67
66
64
63
61
60
58
57
55
53
51
50
EX7
209
204
200
196
191
186
182
177
172
167
161
156
151
EX8
6
6
6
6
6
6
5
5
5
5
5
5
5
EX6
22
22
21
21
20
20
19
19
18
18
17
17
16
EX7
67
66
65
63
62
60
59
58
56
54
53
51
50
EX8
14
13
13
13
13
12
12
12
11
11
11
11
10
EX6
49
48
47
46
45
44
43
42
41
40
39
37
36
EX7
148
146
143
140
137
134
131
127
124
121
117
114
110
EX8
19
19
18
18
18
17
17
16
16
16
15
15
14
EX6
68
67
66
64
63
61
60
59
57
55
54
52
51
EX7
207
203
199
195
191
187
182
178
173
168
164
159
154
EX8
6
6
6
6
6
5
5
5
5
5
5
5
5
EX6
21
21
21
20
20
19
19
19
18
18
17
17
16
EX7
65
64
63
61
60
59
58
56
55
53
52
51
49
EX8
13
13
13
13
12
12
12
12
11
11
11
10
10
EX6
47
46
45
45
44
43
42
41
40
39
38
37
36
EX7
143
141
138
135
133
130
127
124
121
118
115
112
109
EX8
18
18
18
17
17
17
16
16
16
15
15
14
14
EX6
65
64
63
62
61
60
58
57
56
54
53
51
50
EX7
199
195
192
188
185
181
177
173
169
165
160
156
152
EX8
151
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Electrical Control Valves Series EX4, EX5, EX6, EX7, EX8
Technical Data
Compatibility *
HCFCs, HFCs, CO2
Mineral and POE lubricants
MOPD (maximum operating
pressure differential)
EX4/EX5/EX6/EX7: 35 bar
EX8: 30 bar
Max. allowable pressure, PS
EX4/EX5/EX6/EX7: 60 bar
EX8: 45 bar
Medium temperature range:
Uniflow version
Biflow version
Liquid inlet temperature
TS: -50 ... +100°C
TS: -40 ... +80°C
Ambient temperature
Storage temperature
-40 ... +55°C
-40 ... +70°C
CE marking
EX4/EX5
EX6/EX7/EX8
not required
required, Cat I, Module A
Salt spray test
non-corrosion stainless steel
body
Humidity
5 ... 95% R.H.
Connections
ODF stainless steel fittings
Protection accordance to IEC
529, DIN 40050
IP 67 with Alco supplied cable
connector assembly
Vibration for non-connected
and fastened valve
4g
(0 .. 1000 Hz, 1 Oktave /min.)
Shock
20g at 11 ms, 80g at 1 ms
Net weight
0.5 kg (EX4), 0.52 kg (EX5),
0.6 kg (EX6), 1.1 kg (EX7), 1.5
kg (EX8)
Full travel time
EX4/EX5/EX6: 1.5 sec
EX7: 3.2 sec., EX8 : 5.2 sec
Seat leakage
Positive shut-off better than
solenoid valve
External leakage
< 3 g / Year
Package and delivery
Single pack, without electrical
connector
* Valves are not released for use with inflammable refrigerants.
Block Diagrams
Superheat Control w ith EC3-X33 (se e page 1 6 0)
Refrigerant M ass Flow Control w ith EXD-U
o ptional d isp lay u n it EC D -00 2
(se e page 1 6 4)
I
4
6
9
II
12
13
ECN -N 60 senso r
PT5 pressu re tra n s m itte r
S u p p ly / D igital Inp u t
A larm o u t
E X 4 ... E X 8 valve
Su ctio n p ressu re 4 ..2 0 m A o u t
EC D -002 D isp lay u nit
152
http://holodko.ru/
High Pressure Expansion Valves Series CX4, CX5, CX6, CX7
Em erso n C lim a te Te ch n o lo g ies C X series are ste p p e r m o to r
driven valve s fo r precise co ntro l o f R 7 4 4 (C O 2) refrig e ra n t
m ass flo w in air co n d itio n in g , refrig e ra tio n , h eat p u m p a p ­
p lica tio n s. T h e C o ntro l V alves can be used as high p ressure
e xp ansio n valve , liquid in je ctio n d u ty, h o t gas bypass.
Features and Benefits
M axim u m allo w a b le pressu re, PS: 120 bar
Te st p ressu re, PT: 172 bar
B u rst p ressu re: > 360 bar
Fu lly h e rm e tic design (n o th read jo in ts b e tw ee n v a lve b ody
and m o to r c o m p a rtm e n t)
A p p licab le to tra n sc ritic a l CO 2 ap p licatio n s
V e ry sh o rt full stro ke tim e
High reso lutio n and e xce lle n t re p e a ta b ility
Positive shu t-o ff of v a lve to e lim in a te th e use o f an
ad d itio n al solenoid valve
Lin ear flo w ca p a c ity
E x tre m e ly w id e c a p a c ity range (1 0 ... 100% )
C o n tin u o u s m o d u latio n o f m ass flo w , no stress (liquid
h a m m e rin g ) in th e refrig eratio n c irc u it
D ire c t co upling o f m o to r and v a lve fo r high re lia b ility (no
g e ar m e c h a n ism )
C e ra m ic slide and p o rt fo r ac c u ra te flo w and m in im al w e a r
Balanced fo rce design
C o rro sio n re sista n t sta in less steel b o dy and co n n e ctio n s
4 0 m icro n internal strain e r
fl
'■X
V
Selection Chart
Kv, m3/h
Capacity Range
Inlet Connection
ODF
Outlet Connection
ODF
Type
Part No.
CX4-CO2
801 990
0.21
3/8”
5/8”
CX5-CO2
801 991
0.68
5/8” (16 mm)
7/8” (22 mm)
CX6-CO2
801 992
1.57
7/8”
1-1/8”
CX7-CO2
801 996
5.58
1-1/8 ”
1-1/8”
10 ... 100%
Electrical
Connection
M12 plug
Cable and Connector Assem blies
Type
Part No.
EXV-M15
804 663
EXV-M30
804 664
EXV-M60
804 665
Temperature Range
Length
Connector type to valve
Connector type to driver
or controller
M12, 4 pins
Loose wires
Illustration
1.5 m
-50 ... +80°C
3.0 m
6.0 m
■ o
Controllers:
EX D -U 0 0 U niversal D rive r M o d ule
EC 3-X 32 S u p e rh e a t C o n tro lle r
EC 3-X 33 S u p e rh e a t C o n tro lle r
EC3-D 72 D igital S u p e rh e a t C o n tro lle r
EC3-D 73 D igital S u p e rh e a t C o n tro lle r
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160
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Electronic Controllers and Sensors
http://holodko.ru/
Electronic Controllers and Sensors
Selection Table Electronic Controllers
N e tw o rk C om m unicatio n
D escription
Page
W ith o u t
TCP/IP
LON
S u p erh eat C o n tro lle rs And Stepp er M otor D rivers
Superheat controller for electrical control valves EX4 ... EX 8
EC3-X33
EC3-X32
160
Digital superheat controller for electrical control valves EX4 ... EX 6
EC3-D73
EC3-D72
160
Universal stepper driver module for electrical control valves EX4 ... EX 8
EXD-U00
164
D isp lay C ase A nd Cold Room C o n tro lle rs For T h e rm o ™ Exp ansio n V alve A p p lica tio n s
Therm ostat control
EC2-212
EC2-221
165
version for use with a compressor pack system
EC2-292
EC2-291
165
EC2-352
EC2-351
165
D isp lay C ase A nd Cold Room C o n tro lle rs For Ele ctrica l C ontrol V alve
Temperature + superheat control of EX2 (pressure/tem perature input)
version for use with a compressor pack system
EC2-272
EC2-271
165
Temperature + superheat control of EX2 (tem perature/tem perature input)
EC2-312
EC2-311
165
version for use with a compressor pack system
EC2-392
EC2-391
165
EC3-332
EC3-331
168
Temperature + superheat control of EX4 ... EX 8 (stepper motor)
C ondensing U n it C o n tro llers
For 2 single stage compressors and 2 fans, on/off control
EC2-512
165
For 1 Digital ScrollTM and 1 single stage or 2 single stage compressors,fans speed control with FSP
EC2-552
165
EC3-652
168
R ack C o n tro lle rs And Dual C irc u it C o n tro llers
For 8 single stage compressors or 7 compressors and 1 Digital Scroll™
For m ultistage compressors
EC3-672
168
Dual circuits with 4 + 3 single stage compressors
EC3-812
Dual circuits, 4 compressors one of which a Digital Scroll™, 3 condenser fans + speed control
168
EC3-932
168
C o ndenser C o n tro llers
For up to 4 fans
EC2-712
EC2-711
W ith fan speed control, 2 digital outputs
165
EC2-742
For up to 6 stages, one with continuous control output 0 ... 10V, heat recovery control
EC2-741
165
EC3-752
165
E le ctro n ic Fan Speed C o n tro llers
Pressure actuated, current range 0.1 ... 4A
Current range 0.3 ... 8 A, 1- or 3-phase versions
FSY
184
FSP-FSE
186
CSS
181
C o m p resso r S o ft S ta rte r
For single phase compressor motors with up to 32A
P ressure T ran sm itte r
O utput signal 4 ... 20m A
PT5
182
U niversal C o n tro llers
W ith 2 digital inputs, 3 tem perature inputs, 4 relay outputs
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EC2-112
EC2-111
165
Electronic Superheat Controllers and Stepper Motor Drivers
Emerson Climate Technologies designed superheat controllers
and valve drivers for stepper motor driven control valves for all
commercial refrigeration and air conditioning applications.
like Internet Explorer®. When connected to a suitable connection,
the controller is able to automatically send alarms by email to a
PC or mobile phone.
EC3-X33 is a universal superheat controller w itho ut netw ork
communication for air conditioning, refrigeration and industrial
applications such as chillers, industrial process cooling, rooftops,
heat pumps, package unit, close control, cold room, food process
and air driers. The ECD-002 Display/keypad Unit is necessary for
setup but not for operation of the controllers. ECD-002 can be
connected or disconnected to EC3-X33 at any time.
For use with Copeland Scroll™ Digital technology two other
models are available. EC3-D73 is a stand-alone version for use
with the ECD-002 Display / Keypad unit w hilst the EC3-D72 has a
TCP/IP Ethernet interface. A 0-10V demand signal is required from
a third party controller to control a tandem system with one fixed
and one digital compressor. A patented algorithm synchronises
the operation of the PWM digital compressor valve and the EX
series electrical control valve.
In the event of a cooling request and compressor start-up, EC3-X33
needs to be informed. This can be achieved by a digital input.
EC3-X33 will start to control the refrigerant mass flow stand­
alone by precise positioning of the Control Valve under different
operating conditions such as compressor start-up, start of a further
compressor, high head pressure, low head pressure, high load, low
load and partial load operation. EC3-X33 is capable for diagnostics
and alarm. The alarm can be received via relay output as well as
optical LED/alarm code on ECD-002.
The EC3-X32 has a similar function as EC3-X33 but with a TCP/IP
Ethernet communication interface enabling the controller to be
directly connected to a network or a PC via the standard Ethernet
port. The EC3-X32 controller has embedded WebPages to enable
the user to visualise the parameter list with a standard WebBrowser
EXD-U Universal Drivers are stepper motor drivers and enable
the operation of ALCO® stepper motor driven valves EX4 ... EX8
as electronic expansion valve, capacity control by means of hot
gas bypass or evaporating pressure regulator, crankcase pressure
regulator, condenser pressure regulator, liquid level and liquid
injection.
The universal driver module can be connected to any controller
which can provide a 4-20mA or 0-10V analogue signal. The output
is the opening/closing of EX4 ... EX8 and consequently the control
of the refrigerant liquid or vapour mass flow in accordance with
the analogue input.
Display Case and Coldroom Controllers
The com pact EC2 series is available w ith either TCP/IP or LON
communication protocols and also covers applications where the
display cases are connected to a multiple compressor application.
In this case, the dedicated compressor relay on the controller is no
longer required and is available as a spare relay to perhaps switch
the display case lighting.
The controllers therefore can be split into two groups; controller
is required to switch the compressor directly; integral application
and those connected to a multiple compressor (rack) system.
The EC 2 -2 1 x, EC 2-3 1 x and EC 2 -3 5 x have th e d e d icate d
compressor relay.
The EC2-29x, EC2-39x and EC2-37x are for use with the rack
system.
The EC2-2XX series of controllers are specifically designed for
display cases for use w ith TXV. The controller perform s the
function of th erm o stat, defrost and fan m anagem ent and is
capable of operating a standalone condensing unit or being
incorporated into a distributed system controlled by a rack.
The EC 2-3X X se rie s in co rp o ra te the fu n c tio n a lity o f the
EC2-200 model but additionally have a superheat algorithm to
control the EX2 control valve:
EC2-31x / EC2-39x (Temp / Temp): the superheat is controlled
using two temperature sensors.
EC2-35x / EC2-37x (Pressure / Temp): the superheat is controlled
using a pressure transm itter (PT5 series) in conjunction with a
temperature sensor.
W hilst the products were developed for display cases, they may
also be applied to control a simple coldroom.
In principle, the EC3 series utilize the same software technology of
the EC2 series but provide additional inputs and outputs to satisfy
the requirements of even the most demanding systems. Like the
EC2, the EC3 series may be connected together to form larger
systems combining the control of multiple compressors and fans.
The optional ECD-001 Display/keypad Unit is available to display
the system temperatures, indicate system status and to modify
parameters.
The EC3-3XX series are specifically for use w ith stepper valve
series (E X 4 , EX5, EX 6 , EX7, EX 8 ). In case of power loss, the
Electrical Control Valve needs to be closed to avoid flooding of the
compressor, therefore each valve requires a battery backup. For this
reason, the battery, together with its automatic charging circuit,
has been incorporated into the controller housing, significantly
saving installation tim e as well as space in the electrical enclosure.
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Condensing Units, Rack and Condenser Controllers
Condensing Unit Controllers
Condenser Controllers
The EC2-500 series of controllers are suitable for controlling the
compressors and fans of a condensing unit. Digital inputs are
available for individual compressor feedback loops from the safety
chain, which typically consists of low and high pressure switches
together with motor protection and oil management controls. A
common feedback is also available for the fans.
The EC2-7xx series provide an economical solution for condenser
control.
Following models are available:
EC2-512: to control up to 2 compressors (on/off control) and 2
fans (on/off control).
EC2-552: to control up to 2 single stage compressors or tandem
compressor condensing units with a Copeland Scroll™ Digital
compressor. It features a 0 ...1 0 V output to connect to an Alco
Controls FSP fan speed power module for variable fan speed
control. Alternatively this output may be used to control fan motor
speed w ith an inverter or to connect to ECM type fan motors
directly.
Rack and Condenser Controllers
The EC3 series utilize in principle the same software technology
of the EC2 series but provide additional inputs and outputs to
satisfy the requirements of even the most demanding systems.
Like the EC2, the EC3 series may be connected together to form
larger systems combining the control of multiple compressors and
fans. Many controllers include 0...1 0 V outputs that may be used
in conjunction with frequency inverters and/or the FSP series of
fan speed power modules.
Com m only referred to as “ hot app lication co n tro lle rs” , the
EC 3 -6 5 2 , E C 3 -6 7 2 , E C 3 -7 5 2 , E C 3 -8 1 2 , EC 3 -9 3 2 se rie s
c o n tro lle rs are d esig ned fo r th e co n tro l o f c o m p re sso rs
and condensers. Racks w ith one or tw o suction groups and
up to 8 sin g le sta g e co m p re sso rs in clu d in g a C o p elan d
Scroll™ Digital or 6 multistage compressors can be managed.
EC3-652 and EC3-932 series have been designed to control a
Copeland Scroll™ Digital and incorporate a triac to switch the
PWM solenoid.
The control of condenser arrays with up to 6 fan stages as well as a
combined control of Rack and Condenser is also possible. Refer to
the table on page 156 for a complete product listing.
The optional ECD-000 Display/keypad Unit is available to display
the system temperatures, indicate system status and to modify
parameters.
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Two models are available:
EC2-71x: to control up to 4 fans, on/off. A feedback loop is available
for each fan.
EC2-74x: provides a 0 ...1 0 V output to feed FSP series fan speed
power modules. Several FSP modules may be connected in parallel
to speed control all fans simultaneously.
The EC3 series provides additional inputs and outputs to satisfy
the requirements of even the most demanding systems:
EC3-752: for condensers with up to 6 stages, one with continous
control output 0 ... 10V, heat recovery control.
The optional ECD-000 Display/keypad Unit is available to display
the system tem peratures, indicate system status and to modify
parameters.
The U niversal Series of Controllers are useful additions to
the series. They are typ ically used to enable the monitoring
of tem peratures from integral display cases that do not have
communication facilities as well as potentially providing additional
input and output functionality to control systems. Examples of
such applications could be for switching display case lighting or
for the monitoring of individual pressure switches on multiple
compressor Racks.
PT5 series pressure transmitters are used to measure the suction
and discharge pressures to modulate the compressor and fan
capacities.
Network Communication and System Management
The Alco EC Series of drivers and controllers utilise the very latest in
communication technology which is setting new standards in the
refrigeration industry. Energy saving algorithms are incorporated
into many of the controllers including: adaptive superheat and
th e rm o sta t m o dulatio n , defrost on dem and & suction and
discharge setpoint shift.
All EC2 or EC3 controllers are available in two communication
protocols TCP/IP Ethernet and LON.
TCP/IP Ethernet:
The controllers are Ethernet based enabling them to be connected
directly to any computer via the Ethernet port (RJ45 connector).
The controllers act as web server enabling the engineer to pick-up
standard configuration pages directly from the controllers without
the need of any additional hardware or software. Each controller
can be connected to the PC using a crossover cable however, the
most convenient way to connect a controller to the PC is to use
a router that will autom atically assign a TCP/IP address. Either
w ay, the engineer can access the m onitoring and param eter
configuration pages by entering the TCP/IP num ber into the
address line of an Internet browser such as Mozilla or Microsoft
Internet Explorer. User name and password protection is provided
to protect the controller from unauthorized access.
LON Protocol:
A range of free-topology LON FTT10-based controllers is available
and complements the TCP/IP controller series. LON is an open
system protocol created by Echelon and therefore benefits from
not being tied to a restrictive third party protocol.
LON-based controllers can be connected to each other to form
sim ple netw orks for applications requiring m aster / slave or
synchronized defrosting. However, they can also be connected
to a Monitoring Server to fulfill the most sophisticated system
requirements.
The Monitoring Server acts as an interface from the LON network
containing EC2 and EC3 to the outside w orld. Remote access
can be made using standard telephone line; analog or digital
ISDN. Alternatively, data can be transmitted via the Internet or a
dedicated company Intranet using TCP/IP. Either way, visualization
may be made using an industry standard Internet web browser.
By transm itting the system status information as temperatures
or pressures used to control the refrigeration circu it in each
subsystem , together w ith other vital system data, the system
administrator can potentially identify system failures before they
become an expensive stock loss situation. Should a system failure
occur, the controllers autom atically transfer to an emergencyoperating mode w hilst sending a system error message to the
monitoring server.
The benefit of a centralized data acquisition system is that it can
dramatically reduce the costs associated with food, which cannot
be sold as a result of failing to meet the criteria set by the food
hygiene regulations.
The TCP/IP based Controllers offer a practical solution, particularly
for smaller installations that require communication for monitoring
purposes without the need for customized visualization. For many
installations, an additional monitoring server is not required.
The monitoring server is typically connected to an analog or
digital phone line and can com m unicate a system alarm to a
remote location via fax, email or SMS. In a similar w ay to the TCP/
IP controllers, the engineer can visualize the system w ithout the
need of any additional hardware or softw are. The system can
be visualized by entering the TCP/IP address of the monitoring
server into the address line of the Internet web browser. In fact,
the advancement of telecommunication systems are such that
a maintenance engineer equipped with a laptop computer and
mobile telephone can interact with the system from any location.
Other Functions:
- Monitoring of system temperatures and pressures as
well as relay status information
- Read/write of EC2 & EC3 control parameters
- Real time graphical visualization
- Log function of up to one months data directly
on the controller
- Log function of data to a PC *
- Storage and retrieval of system parameter
- Local alarms via email *
- Remote alarms via email **
*
Controller must be connected to the PC
**
Router must be connected to an external
telephone line and / or the Internet via an Internet
Service Provider (ISP)
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Superheat Controllers Series EC3-X32 / EC3-X33
For stable superheat control w ith stepper motor driven electrical control valves Series EX4 - EX8
Digital Superheat Controllers Series EC3-D72 / EC3-D73
For stable superheat control w ith EX4...EX6 electrical control valves and automatic synchronisation of the PWM
capacity control valve incorporated into the Copeland Scroll™ Digital compressor technology
Features
•
Limitation of evaporating pressure (MOP)
•
Feed-through of 4 ... 20mA signal of evaporating pressure
transm itter to operate third party controllers with a
common pressure transm itter
w ith ECD-002
•
Intelligent alarm management, superheat alarm
•
Monitoring of sensors and sensor wiring, detection of sensor
and wiring failures
•
Integral rechargeable battery to close Electrical Control
Valve in case of power loss
•
Electrical connection via plug-in type screw terminals
•
Freeze protection
•
Aluminum housing for DIN rail mounting
•
Low and high superheat alarm
•
Low pressure switch function/alarm
Additional features EC3-X32 and EC3-D72 w ith TCP/IP
W ebserver functionality allows monitoring and
configuration of controllers through a standard Web browser
(e.g. Internet Explorer®)
ECD-002 Display Unit
•
Front panel mounted interface for parameter and status
read-out and controller setup via keypad
•
Internal data logging and alarm messaging by email
•
•
Multiple language support (www.em ersonclim ate.eu)
Indicator LEDs for valve opening/closing, external ON and
alarm
•
Selection Chart
T C P /IP
Description
Superheat Controller
S ta n d a lo n e
Type
Part No. single
unit
Part No. Kit*
Type
Part No.
single unit
Part No.
Kit*
EC3-X32
807782
808037
EC3-X33
807 783
80 8036
K03-X33
807 645
808 042
EC3-D73
807 804
K03-331
807 648
Terminal Kit for EC3-X32/-X33
K03-X32
807 644
Digital Superheat Controller
EC3-D72
807805
Terminal Kit for EC3-D72/-D73
K03-331
807 648
808 041
* Kits contain terminal kit, pressure transmitter PT5-07M with cable assembly, NTC sensor 6 m, transformer 60VA (see page 286)
Accessoires
Description
Type
Part No.
Note
Display
ECD-002
807 657
Connection cable EC3 to ECD
ECC-N10
ECC-N30
ECC-N50
807 860
807 861
807 862
1m cable length
3m cable length
5m cable length
Pressure Transmitter
PT5-07M
PT5-18M
PT5-30M
802 350
802 351
802 352
for R134a, R22, R404A, R407C, R507C, R124
for R410A only
for R744
Cable Assembly for PT5
PT4-M60
804805
other cable lengths see page 182
Temperature Sensor NTC
ECN-N30
ECN-N60
ECN-N99
804 496
804 497
804 499
3m cable length
6m cable length
12m cable length
Transformer
230V/24V AC
ECT-323
ECT-623
804 424
804 421
for EX4 to EX7
for EX8, DIN rail mounting
25VA
60VA
Typical Ordering Package
System with 100 kW cooling capacity and refrigerant R22 requires the following parts:
ECN-N60 NTC Temperature Sensor
EX6
Electronic Expansion Valve
PT5-07M Pressure Transmitter
EXV-M60 Electrical Cable and Plug assembly
PT4-M60 Cable assembly PT5 6.0m
EC3-X33 Superheat Controller Stand-alone
ECD-002 Display (optional)
K03-X33 Terminal Kit for EC3-X33
ECC-N30 Connection cable EC3 to ECD (opt.)
ECT-323 Transformer 25VA
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PT5
PT4-Mxx
ECT-323
EXD-HP1/2 are stand-alone universal superheat and or economizer controllers for heat pumps, heating
units, air conditioning and precision cooling such as telecom and shelter applications.
Features EXD-HP1/2
Self adapting superheat/economizer control in conjunction
with EMERSON stepper motor driven electronic expansion
Valves EXM/EXL
Discharge hot gas temperature control by liquid/vapor
injection to compressor
EXD-HP1: Controller with one EXV output
EXD-HP2: Controller with two independent EXV outputs
Controllers as slave with Modbus (RTU) communication
capability. All data (read/write) accessible by any third party
controller having modbus communication (RTU)
Upload/download Key (accessory) for transmission of
parameter settings among controllers with the same setting
Low pressure switch and freeze protection function
Manual positioning of valve(s)
Limitation of evaporating pressure (MOP)
Low/high superheat alarm
Monitoring of sensors and sensor wiring / detection of
sensor and wiring failures
fSi S 5 0 1*3 a 0
i
at
m m. o * w
<
-----*v<----»
H P ?
EXD-HP2
*1 V VDE approval (pending)
Integrated display (3-digits LEDs) and keyboard
Electrical connection via plug-in type screw terminals
(included with controller)
DIN rail mounting housing
OEM product: Box/order quantities: 20 pieces (Multi­
pack)
Selection Chart
PCN
D escriptio n
Type
M = M u ltip ack (2 0 pieces)
Sin glepack
Controller with one EXV output
EXD-HP1
807 836M
-
Controller with two EXV outputs
EXD-HP2
807 837M
-
Temperature sensor with 3 m eter cable
ECP-P30
-
804 495
Electronic expansion valves
see page 129
Pressure sensors (Suction pressure)
- 0 .8 .7 bar (R22, R134a, R407C)
0 ...... 18 bar (R410A, R32)
Recommended for interm ediate pressure
(econom izer control)
See page 182
Plug and cable assem bly for pressure sensor
1.5m cable length
3.0m cable length
Valve: EXM-B0B
Valve: EXM-B0D
Valve: EXM-B0E
Coil: EXM-125
Valve: EXL-B1F
Valve: EXL-B1G
Coil: EXL-125
800
800
800
800
800
800
800
400M
401M
402M
403M
405M
406M
407M
-
PT5-07M / PT5-07T
PT5-18M / PT5-18T
PT6-18M
802 350M / 802 370M
802 351M / 802 371M
802 361M
802 350 / 802 370
802 351 / 802 371
802 361
PT5-30M / PT5-30T
802 352M / 802 372M
802 352 / 802 372
PT4-M15
PT4-M30
804 803M
804 804M
804 803
804 804
Remark: For further details of EXM/EXL and PT5/PT6: Please see separate datasheet.
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Simplified Illustration: Heating Scroll With Economizer
Alarm Functions
EXD-HP1/2 provides several alarms to facilitate diagnosis as well
as shut down of compressor/system if the alarm relay is wired
into the serial safety loop.
Alarm Relay Function
Alarm relay contains a SPDT contact. If the relay is wired to the
system controller, it is possible to stop the compressor/system.
The alarm relay is activated/energized during normal operation
and deactivated/deenergized during alarm conditions as well as
supply power interruption.
List of Alarms
C ondition
D elay Tim e
A la rm Relay
V alve Position
Reset Type
D isp lay A la rm LED
Hardware errors (sensors)
-
Triggered
Fully close
Auto
ON
Hardware errors (Stepper motor)
-
Triggered
-
Auto
ON
Low superheat
Fix: 1 min.
Triggered
Fully close
Auto/Manual
ON/Blinking
Discharge hot gas above limit
Fix: 1 min.
Triggered
Operating
Auto
ON
High superheat
Adjustable
Triggered
Operating
Auto
ON
Low pressure
Adjustable
Triggered
Operating
Auto/Manual
ON/Blinking
Freezing
Adjustable
Triggered
Fully closed
Auto/Manual
ON/Blinking
Technical Data
Supply voltage
24VAC/DC ±10%
Protection class
IP 20
Power consumption
EXD-HP1: Max. 15VA
EXD-HP2: Max. 20VA
Housing
Self extinguishing ABS
Mounting
DIN rail mounted
Temperatures
storage
operating
-20 ... +65°C
-10 ... +60°C
Relative hum idity
0 ... 85% RH non condensing
Digital inputs
EXD-HP1: Two, each potential free
EXD-HP2: Three each potential free
Relay output
SPDT contacts, AgSnO
Inductive (AC15) 24V AC: 1Amp
Resistive: 24 V AC/DC: 4Amps
Plug-in connector size
Removable screw version
wire size 0 .1 4 ... 1.5m m 2
Applied directive
LVD, EMC, RoHS, VDE
Compliance with
DIN EN 60335-1, DIN EN 55014-1
DIN EN 55014-2
Input Sensors, Output Valves
D escriptio n
Sp ecificatio n
Temperature input
ECP-P30 (3 m eter cable length)
Range: -30°C to +150°C
Pressure sensor input
PT5/PT6
Signal: 4 ... 20m A
Electronic expansion valves
(stepper motor) output
EXM and EXL series with 12V coil
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Weight
175 g
Marking
CE, VDE (pending) and Gost
W iring Diagram
EXD-HP1 and EXD-HP2 (Base board)
W iring Diagram
EXD-HP2 (Upper board)
Remarks
Remarks
Base board for superheat control or Economizer control
Alarm relay, dry contact. Relay coil is deenergized at alarm
condition or power off and energized during normal operation
Hot gas discharge sensor input is mandatory only for
economizer control function
Transformer shall be class 2
Upper board only for superheat control
Upper board does not need to be wired if circuit 2 of EXD-HP2
is disabled
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Universal Driver Modules Series EXD-U00
For the operation of ALCO® stepper motor valves EX4 / EX5 / EX6 / EX7 / EX8 as:
- Solenoid Valve
- Electrical Expansion Valve
- Hot Gas Bypass or Evaporating Pressure Regulator as capacity control
- Crankcase Pressure Regulator
- Heat Reclaim Regulator
- Liquid Level Control
Features
•
Plug and play, no parameter setting
•
Valve opening proportional to 4-20mA or 0-10V
analogue input signal
•
Digital input can be used to force valve closing
•
Dip-switches for selection of Electrical Control Valves
analogue input and start mode
•
Aluminium housing for DIN rail mounting
•
Easy wiring
•
Fully tested and ready for operation
•
CE-marking for electromagnetic compatibility
Options
•
EXD -U 00
Uninterruptible Power Supply ECP-024 to
automatically close valve after power down
Selection Chart
D e s c r ip t io n
Type
P a r t N o . s in g le u n it
P a r t N o. K it *
Universal Driver Module
EXD-U00
804557
80 8038
Electrical Terminal Kit
K09-U00
804559
* Controller Kit contains terminal kit
Accessories
D e s c r ip t io n
Type
P a r t N o.
N o te
Uninterruptible Power Supply
ECP-024
804558
for up to 2 driver modules
Electrical Terminal Kit
K09-P00
804 560
for ECP-024
Transformer
25VA
ECT-323
804 424
230V/24V AC
60VA
ECT-623
804 421
Capacity Data
See electrical control valve EX4 ... EX8 data.
For function as:
•
Expansion valve - superheat control see page 133
•
Capacity control by means of hot gas bypass see page 141
•
Evaporating pressure regulator or crankcase pressure
Regulator see page 142
•
Condensing pressure regulation and liquid duty see page
145
•
Application hot gas flow such as heat reclaim application see
page 147
See datasheet A3.5.048 for detailed application drawings and
technical data. For other than the specified operating conditions
an Excel based Selection Tool can be downloaded from
www.em ersonclim ate.eu
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DIN-rail mounting
Display Case and Universal Controllers Series EC2
W ith W eb Server functionality and TCP/IP Protocol or w ith LON Protocol (FTT-10)
Fe atu res o f EC2-3 m o dels:
•
Superheat control for Pulse W idth Modulated Valves
(e.g. EX2-Series) see Selection Table
•
Self-adapting controller, no user setup necessary
•
Limitation of evaporating tem perature (MOP)
EC2 Controller
Fe atu res o f all m o dels:
•
Air tem perature control
C o m m unicatio n TCP/IP Eth e rn e t
•
Defrost tim er for natural, electric or hot-gas defrost with fan control
•
•
Integrated tim er and alarm functions
Web Server function provides monitoring and configuration through
a standard web browser. Ethernet interface, as used in most office PCs
•
All parameters and functions are programmable:
- via standard Web browser (EC2-xx2 models)
- via LON comm unication (EC2-xx1 models)
- with integral keypad
•
Graphical visualisation via built-in Web pages
Password protection to eliminate unauthoriz ed use
•
Fixed or dynamic TCP/IP address with username and password
•
Alarm s via e-mail
•
Up to 30 days datalog
Multiple language support (w w w .em ersonclim ate.eu)
Standard 29 x 71 mm cutout dimensions
O ptions
2 1/2 digit display in °C or °F
•
CE approved
Standard screw term inal kit K02-000 available for all models.
OEM crimp versions available upon request
•
Ethernet cable ECX-N60 for EC2-xx2
C o m m u n icatio n LON (see page 159)
•
NTC tem perature sensors
•
•
Transformers for 230VAC mains
Echelon® LON FTT-10 interface based on the Lonworks© standard
for m onitoring and configuration through a supervisory system
E xam p le fo r W e b page m o n ito rin g
Selection Table
TCP/IP
Functional Overview
LON
Type
Part No.
single unit
Part No.
Kit*
Type
Part No.
single unit
Part No.
Kit*
EC2-352
EC2-372
807 772
807 6 8 8
808009
808011
EC2-351
EC2-371
807771
807 689
80 8 0 0 8
80 8 0 1 0
D isp lay Case and Cold Room C o n tro llers
Temperature and Superheat Control of EX2 (Press. / Temp. input)
Version for use with a compressor pack system
* Kit contains terminal kit, pressure transmitter PT5-07M with cable assembly, transformer 25VA, 4 NTC sensors 6 m fin, pipe and air version (EC2-35x only)
Temperature and Superheat Control of EX2 (Temp. / Temp. input)
Version for use with a compressor pack system
EC2-312
EC2-392
807 682
807 692
808 005
808 007
EC2-311
EC2-391
807 681
807 691
808 004
80 8 0 0 6
* Kit contains terminal kit, transform er 25VA, 5 NTC sensors 6 m fin, pipe and air version (EC2-31x only), see also page 286.
Therm ostat control, for Thermo-Expansion valve
Version for use with a compressor pack system
EC2-212
EC2-292
807 482
80 7 6 7 2
808001
808003
EC2-211
EC2-291
807 481
807 671
80 8 0 0 0
80 8 0 0 2
* Kit contains terminal kit, transformer 25VA, 3 NTC sensors 6 m fin, pipe (EC2-29x only) and air version (EC2-21x only), see also page 286.
U n ive rsal C o n tro llers
with 2 digital inputs, 3 tem perature inputs, 4 relay outputs
EC2-112
807 472
EC2-111
807 471
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Accessories
Type
Part No.
Terminal kit for EC2-31x, -35x, -37x, -39x
K02-000
800050
Terminal kit for EC2-11x, -21x, -29x
K02-211
807 647
6m cable length
ECX-N60
804 422
1,5m cable length
ECN-S15
804 304
3m cable length
ECN-S30
804305
6m cable length
ECN-S60
804 284
3m cable length
ECN-N30
804 496
6m cable length
ECN-N60
804 497
12m cable length
ECN-N99
804 499
6m cable length
ECN-F60
804 283
-0 .8 .7 bar
PT5-07M
802 350
Terminal kits, cables
Ethernet Cable RJ45/4-pin-conn.
Sensors
Air-Sensors, single insulated (10 k^ at 25°C)
for EC2-21x, -31x, -35x
Pipe and pocket sensors NTC (10 k^ at 25°C)
Air sensors for EC2-29x, EC2-3xx
Defrost sensor (10 k^ at 25°C)
(including fin clip)
Pressure transmitter
Cable plug assembly for PT5
Transformer
230VAC Input, 24V output
0 ... 18 bar
PT5-18M
802351
1.5m cable length
PT4-M15
804 803
3m cable length
PT4-M30
804 804
6m cable length
PT4-M60
804 805
25VA
ECT-323
804 424
20VA
ECT-523
804332
K02-000
ECN-XX
PT5
PT4-Mxx
ECT-323
Technical Data
Supply voltage
24V AC ±10% 50/60 Hz
class II only
Power consumption
20VA incl. EX2 valve (EC2-3xx)
4VA (EC2-11x, -21x, -29x)
Inputs
up to 5 Temperature sensors:
Refrigerant inlet (saturated temp.)
Refrigerant outlet (suction temp.)
Air into / Air out of evaporator
Defrost termination
Output contact rating
cos 9 = 0.5:
(Voltage free contacts)
SPDT & SPST relays,
250V max / 8A resistive load EC2-3xx
6A resistive load EC2-2xx
2A inductive load all EC2
(defrost, compressor, fan)
Triac output to EX2
24VAC, 1 A max.
Communication
LON: FTT10 , TCP/IP: Ethernet
Typical O rder Package for a display case
Case Controller
Terminal Kit
Electrical Control Valve
Orifice size 3
Coil 24VAC / 10W
Cable Assembly for ASC
2 pipe sensors
2 air sensors
Defrost sensor
Transformer 25VA
Ethernet Cable 6 m
166
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—
EC2-312
K 02-000
EX2-M00
EXO-003
ASC 24V
ASC-N15
ECN-N60
ECN-S30
ECN-F60
ECT-323
ECX-N60
8 0 7682
800 050
801 091
801 088
801 062
804 570
804 497
804 305
804 283
804 424
804 422
Temperature
storage
operation
operation
-10 ... +70°C
0 ... +50°C (housing)
- 50 ... +50°C (NTC sensor)
Display
2 1/2 digits red LED
Automatic decimal point between
-19.9 & +19.9
Switchable between °C & °F
Indicator LEDs
Varies upon model
Compressor, defrost, fan, alarm,
service LED
Protection
IP 65 (front protection with gasket)
Sensor type
NTC 10KQ @ 25°C
Order codes see above
Weight
~ 150g
Block Diagrams
EC2-35x / -37x Case Controller (EX2, Press/Temp)
EC2-31x / -39x Case Controller (EX2, Temp/Temp)
Network
Network
EMERSON
-to
Inputs
1 = Suction pressure
2 = Coil out temperature
3 = Air in temperature
4 = Air out temperature
5 = Defrost temperature
a 1®©
Outputs
6 = EX2 Expansion valve
7 = Compressor (EC2-35x only)
Spare relay (EC2-37x only)
8 = Fan
9 = Defrost heater
Inputs
1 = Coil in temperature
2 = Coil out temperature
3 = Air in temperature
4 = Air out temperature
5 = Defrost temperature
EC2-21x / -29x Case Controller (TXV)
Outputs
6 = EX2 Expansion valve
7 = Compressor (EC2-31x only)
Spare relay (EC2-39x only)
8 = Fan
9 = Defrost heater
EC2-11x Universal I/O Controller
Network
Network
EMERSON
p n
------2
--------- 1
4
f
6
k)1
1Li5
I I I
1 2
3 4 5
\
»)
1
1
7
j)
Inputs
1 = Digital Input
2 = Digital Input
3 = Air in temperature
4 = Air out temperature
5 = Defrost temperature
Outputs
6 = Solenoid valve
7 = Compressor (EC2-21x only)
Spare relay (EC2-29x only)
8 = Fan
Inputs
1 = Digital Input
2 = Digital Input
3 = Temperature input
4 = Temperature input
5 = Temperature input
6
7
8
9
Outputs
= Digital output
= Digital output
= Digital output
= Digital output
167
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Coldroom Controller Series EC3
Temperature and Superheat Control of EX4 ...EX8 (Stepper Motor)
Features
•
Superheat control with self-adapting algorithm for Stepper
Motor driven ECVs (EX4 ... EX8)
• Therm ostat, fan & defrost control
•
Limitation of evaporating temperature (MOP)
• Analog inputs: 3 NTC temperature sensors
• With integral backup battery to close Control Valve in case of
power loss
• Analog input for suction pressure measurement using Alco
PT5 Series pressure transm itters
•
Digital inputs for compressor safety and coldroom door
contact
•
Relay outputs for compressor, defrost and alarm
programmable relay
plus
EC3-332
ECD-001
• All parameters and functions are programmable:
- via TCP/IP Ethernet controller (EC3-332)
- via LON communication (EC3-331)
- with keypad of optional display unit ECD-001
Features of ECD-001 Display Unit
•
Electrical connections via plug-in type screw
terminals
•
•
Lightweight aluminum enclosure for DIN rail
mounting
Connection to EC3 Series via a RJ45 Western Digital plug.
No further power cables required
•
2 1/2 digit display
•
Multiple language support
•
Indicator LEDs for compressor, fan, heater and alarm
(see www.em ersonclim ate.eu)
•
4 keys allow parameter modification if necessary
•
CE approved
•
Easy mounting in panels with 71 x 29 mm cutout
•
IP65 if mounted in front panel
Communication TCP/IP Ethernet
Options
detailed information on page 159
Communication LON
•
Front mounted ECD-001 Display Unit for
temperature and output status indication
•
NTC temperature sensors
detailed information on page 159
Typical Order Package
Coldroom Controller
EC3-332
Terminal Kit
K03-331
Display Unit (optional)
ECD-001
Connection cable EC3 to ECD 1m
ECC-N10
Transformer 25VA
ECT-323
Sensors: depending on application (see page 170)
Ethernet Cable 5m
ECC-N50
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807 632
807 648
807 641
807 860
804 424
807 862
Selection table
T C P /IP
Type
Part No.
single unit
Part No.
Kit*
Type
Part No.
single unit
Part No.
Kit*
E C 3 -3 3 2
807 632
808013
EC 3-33 1
8 0 7 631
808 0 1 2
Description
Coldroom Controller ECV Stepper Motor Drive
LON
*Kit contains terminal kit, pressure transmitter PT5-07M with cable assembly, transformer 25VA, NTC sensors 6 m fin, pipe and single insulated version (see also page 286)
Accessories
Term inal K its
D escriptio n
P a rt No.
Type
Terminal kit for EC3-33x
K03-331
807 648
ECD S e ries D isp lay U nits
Display for EC3-33x
ECD-001
807 641
Connection cable EC3 to ECD
1m (3m /5m see page 182)
ECC-N10
807 860
NTC Sensors (Air type)
(10 k n at 25°C)
1,5m cable length
ECN-S15
804 304
3m cable length
ECN-S30
804 305
6 m cable length
ECN-S60
804 284
Pipe and pocket sensors NTC
(10 k n at 25°C)
3m cable length
ECN-N30
804 496
6 m cable length
ECN-N60
804 497
1 2 m cable length
ECN-N99
804 499
NTC Sensors (Fin type)
(10 k n at 25°C)
6 m cable length
ECN-F60
804 283
Pressure transm itter
- 0 .8 .7 bar
PT5-07M
802 350
Cable plug assem bly (see page 184)
1.5m length
Transformer, Class II
230VAC Input / 24V output
PT4-M15
804 803
25VA
ECT-323
804 424
60VA
ECT-623 *
804 421
' EX 8 only
K03-331
PT5
PT4-Mxx
ECT-623
ECN-XX
Technical Data
C o n tro lle r EC3-33x
D isp lay U nit ECD-001
Supply voltage
24 VAC ±10%, 50/60 Hz Class II
Supply voltage
via ECC-N10 from EC3 controller
Power consumption
25VA max. for EX4 .. EX7
28VA max. for EX 8
LED indicators
Compressor, fan, defrost, alarm outputs
LON service pin
Plug-in connector size
Removable screw version
wire size 0.14 ... 1.5 mm 2
Display LED
Communication
interface
LON FTT10 (EC3-331)
TCP/IP Ethernet with Webserver (EC3-332)
Numeric segmental display, red, 2 1/2
digits with autom atic dec. point betw.
±19.9 switchable between °C and °F
Operating Keys
Temperature
storage
operating
4 operating keys: Programming, select
service/up, defrost/down
-20 ... +65°C
0 ... +60°C
Connecting lead
1m (ECC-N10) with RJ45 connectors
Humidity
0 ... 80% r.h. non condensing
Protection class
IP 20
Temperature
storage
operating
-20 ... +65°C
0 ... +60°C
Weight
~ 800 g
Humidity
0 ... 80% r.h. non condensing
DIN rail mounted
Protection class
IP 65 (front panel with gasket)
W eight
~ 52 g
Mounting
Panel door (71 x 29m m cutout)
Mounting
169
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Block Diagram
EC3-33x Coldroom Controller for stepper motor driven ECV
Inputs
1 = Coil out temperature
2 = Air temperature
3 = Defrost temperature
4 = Suction pressure
5 = Compressor safety
6 = Door contact
170
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—
Outputs
7= Compressor
8= Defrost heater
9= Alarm
10= Fan
11= Stepper motor ECV
12= Output signal (4 ...2 0 mA)
Condenser and Condensing Unit Controllers Series EC2
W ith Web Server Function and TCP/IP or w ith LON FTT-10 Interface
Common Features
•
Maintenance and alarm management
•
Sensor failure handling
•
Inputs for common low and common high pressure alarms
•
Configuration data stored in non-volatile m em ory
•
Electrical connection via plug-in type screw terminals
•
with Web Server Function and TCP/IP or with LON FTT-10
Interface (see page 159)
•
Operation and commissioning via local or remote PC
•
CE approved
EC2 Controller
Condenser Controllers
•
Compact controller to control condensing pressure by
modulation of fan capacity
Communication TCP/IP Ethernet
Condensing Unit Controllers
•
To control a combination of compressors and condenser
fans based on suction and condensing pressure respectively
•
Control of Copeland Scroll™ Digital Compressors
•
• Graphical visualization via built-in Web pages
•
Fixed or dynamic TCP/IP address with username and
password
•
Alarms via e-mail
•
Up to 30 days datalog
•
Multiple language support (see www.em ersonclim ate.eu)
Communication LON
•
Echelon® LON FTT10 interface based on the LonWorks©
standard for monitoring and configuration through a
supervisory system
Web Server Function provides monitoring and configuration
through a standard Web browser. Ethernet interface, as used
in most office PCs
171
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Selection Table
T C P /IP
LON
Type
Part No.
single unit
Part No.
Kit*
Type
Part No.
single unit
Condenser Controller for up to 4 fans
EC2-712
807 752
808 0 2 1
EC2-711
807 751
Condenser Controller with FSP fan speed control
module
EC2-742
807 762
8 0 8 023
EC2-741
807 761
Description
Part No.
Kit*
Condenser Controllers
808 0 2 2
* EC2-7xx Kits contain terminal kit, pressure transmitter PT5-30M with cable assembly, transformer 25VA (see also page 286).
Condensing Unit Controllers
Condensing Unit Controller for 2 compressors, 2 fans,
with on/off control
EC2-512
807 732
8 0 8 015
Condensing Unit Controller for 2 compressors or 1
Digital Scroll™ and 1 single stage compressor, variable
fan speed control with FSP module
EC2-552
807 738
8 0 8 019
* EC2-5xx Kits contains terminal kit, pressure transmitters PT5-07M and PT5-30M with cable assemblies, transformer 25VA (see also page 182).
Accessories
D escriptio n
Type
Terminal kits for EC2-51x, -71x series
K02-211
807 647
Terminal kits for EC2-55x, -74x series
K02-540
800 080
NTC Sensor ECN
1.5m
ECN-S15
P a rt No.
804 304
single insulated for ambient temperature sensing
3m
ECN-S30
804305
-50 ... +50°C (10kn at 25°C)
6m
ECN-S60
804 284
-0.8 ... 7 bar, 4 ... 20mA
PT5-07M
802350
0 ... 18 bar, 4 ... 20mA
PT5-18M
802351
Pressure transmitter PT5 for suction and condensing pressure sensing (details see page 182)
PT5-30M
802352
PT4-M15
804803
25VA
ECT-323
804 424
20VA
ECT-523
804332
0 ... 30 bar, 4 ... 20mA
Cable assembly (3.0/6.0m see page 184)
Transformer 230VAC Input, 24V output
K02-211
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__—
1.5m
PT5
PT4-Mxx
ECT-323
Block Diagrams
EC2-74x Condenser Controller with fan speed control
EC2-71x Condenser Controller for up to 4 fans
Network
N e tw o rk
EMERSON
-/Be 2|
Inputs
1 = Condenser pressure
2 = Ambient temperature
Outputs
3 = Speed controlled fan
4 = Sprinkler
5 = Solenoid valve at 2 stage
condenser coil
10=Fan speed Power Module
Inputs
1 = Safety switch fan 1
2 = Safety switch fan 2
3 = Safety switch fan 3
4 = Safety switch fan 4
5 = Condenser pressure
Outputs
6 = Fan 1
7 = Fan 2
8 = Fan 3
9 = Fan 4
EC2-512 Condensing Unit Controller for up to 2 compressors
and 2 fans
EC2-552 Condensing Unit Controller for 2 single stage
compressors or 1 Digital Scroll™ and 1 single stage
compressor
Inputs
1 = Suction pressure
2 = Condenser pressure
3 = Safety switch comp 1
4 = Safety switch comp 2
5 = Safety switches fans
Inputs
1 = Suction pressure
2 = Condenser pressure
3 = Safety switch comp 1
4 = Safety switch comp 2
5 = Temperature input
6=
7=
8=
9=
Outputs
Compressor 1
Compressor 2
Fan 1
Fan 2
Outputs
6 = Digital Scroll™ Compressor
7 = Single Stage Compressor
8 = Speed controlled fan
10 = Fan Speed Power Module
11 = PWM Digital Scroll™
Solenoid valve
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Rack and Condenser Controllers Series EC3-652, -672, -752, -812, -932
W ith W eb Server Function and TCP/IP Ethernet Protocol
Common Features
•
Maintenance and alarm management
•
Sensor failure handling
•
Inputs for common low and common high pressure alarms
•
Configuration data stored in non-volatile memory
•
Aluminum enclosure for DIN-rail mounting
•
Electrical connection via plug-in type screw terminals
•
Operation and commissioning via local or remote PC
•
Control of Copeland Scroll™ Digital Compressors (EC3-652,
EC3-932)
•
CE approved
•
Communication via:
TCP/IP Ethernet with Web Server Function (see page 159)
Features of ECD-000
•
Connection to EC3 Series via RJ45 Western
digital plug. No further power cables required
•
2 1/2 digit display
•
Indicator LEDs for compressor and alarm status
•
4 keys allow parameter modification if necessary
•
Easy mounting in panels with 71 x 29 mm cutout
•
IP65 if mounted in front panel
Selection Table
D escriptio n
Type
P a rt No.
sin g le u n it
P a rt No.
K it*
807 534
808 046
R a c k C o n tro ller
for 8 compressors or 1 Digital ScrollTM and 7 single-stage compressors
for m ultistage compressors
EC3-652
EC3-672
807 562
808 029
* Kit contains terminal kit, pressure transmitters PT5-07M and PT5-30M with cable assemblies, transformer 60VA, 1 NTC sensor 6 m (EC3-65x only), see page 286.
C o ndenser C o n tro lle r
for up to 6 stages, one with continuous control output 0 ... 10V,
heat recovery control
EC3-752
807 592
807 602
808033
808031
* Kit contains terminal kit, pressure transmitter PT5-30M with cable assembly, transformer 60VA (see also page 286).
Dual C irc u it C o n tro llers
for 4 + 3 compressors
EC3-812
* Kit contains terminal kit, 2 pressure transmitters PT5-07M with cable assembly, transformer 60VA and 3 NTC sensors 6 m (see also page 286).
for 4 single stage compressors or 1 Digital Scroll™ and 3 single-stage
compressors & 3 fans plus speed control
EC3-932
807 624
* Kit contains terminal kit, pressure transmitters PT5-07M and PT5-30M with cable assembly, transformer 60VA and 5 NTC sensors 6 m (see also page 286).
174
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808 044
Accessories
D escriptio n
C able Length
Type
Terminal kit for EC3-65x / EC3-67x / EC3-93X
P a rt No.
K03-110
Terminal kit for EC3-67x
K03-750
807654
Terminal kit for EC3-81x
K03-640
807653
Display unit for EC3-6xx to EC3-9xx
ECD-000
Connection cable EC3 to ECD 1m (3m /5m see page 180)
NTC Sensor, single insulated for ambient
tem p. sensing -50 ... +50°C (10 kQ at 25°C)
NTC Sensor, single insulated for discharge,
tem ps. sensing -50 ... +150°C (1 MQ at 25°C)
807656
807 640
ECC-N10
807 860
1.5m
ECN-S15
804 304
3m
ECN-S30
804 305
6m
ECN-S60
804 284
6m
ECN-H60
804359
Pressure transm itter PT5 for suction and condensing pressure sensing (details see page 182)
-0.8 ... 7 bar, 4 ... 20m A
PT5-07M
802350
0 ... 18 bar, 4 ... 20m A
PT5-18M
802351
0 ... 30 bar, 4 ... 20m A
PT5-30M
802352
0 ... 50 bar, 4 ... 20m A
PT5-50M
802353
Cable assem bly (3m / 6 m see page 182)
1.5m
PT4-M15
804 803
Transform er EN 60742 class II
230 VAC Input, 24V output
25VA
ECT-323
804 424
60VA
ECT-623
804 421
K03-110
ECD-000
PT5
PT4-Mxx
ECT-323
Technical Data
EC3 Controller
ECD-000 Display Unit
Supply voltage
24 VAC ±10%, 50/60 Hz Class II only
Supply voltage
via ECC-N10 from EC3 controller
Power consumption
20 VA max.
Display
Plug-in connector
Digital I/Os
Analog I/O
Removable screw terminals
wire size 0.5 ... 2.5 mm 2
wire size 0.14 ... 1.5 m m 2
Numeric segmental display,
LED red, 2 1/2 digits, num eric value
device status and alarm indication
LEDs
Communication interface
LON:
FTT10
TCP/IP: Ethernet with Web Server
1 x unit indicator bar/°C
1 x alarm LED
Connecting lead
1,0 m (ECC-N10)
Operating Keys
4 operating keys: programming,
service/up, select/down
Temperature
storage
operating
-20 ... +65°C
0 ... +60°C
Humidity
0 ... 80% r.h. non condensing
Protection class
IP20
Weight
~ 810 g
Mounting
DIN-rail mount
Temperature
storage
operating
-20 ... +65°C
0 ... +60°C
Humidity
0 ... 80% r.h. non condensing
Protection class
IP65 (front panel with gasket)
Weight
~ 52 g
Mounting
Panel m ount (71x29m m cutout)
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Block Diagrams
EC3-652 Rack Controller for 8 Single-Stage Compressors or
7 Single-Stage Compressors and 1 Digital ScrollTM
EC3-672 Rack Controller for Capacity Controlled Compres­
sors
Inputs
1 = Discharge temperatures of up to 8 compressors
2 = Suction pressure
3 = Discharge pressure
4 = Serial alarm inputs for up to 8 compressors
5 = Low pressure alarm
6 = High pressure alarm
7 = Oil level alarm
8 = Refrigerant level alarm
Inputs
1 = Suction pressure
2 = Discharge pressure
3 = Serial alarm inputs for up to 6 compressors
4 = Low pressure alarm
5 = High pressure alarm
6 = Oil level alarm
7 = Refrigerant level alarm
Outputs
9 = for up to 8 compressors
10= to control a Digital Scroll™
EC3-752 Condenser Controller
Inputs
1 = Am bient temperature
2 = Humidity sensor
3 = Condensing pressure
4 = Serial alarm inputs for up to 6 fans
5 = High pressure alarm
6 = Heat recovery demand
Outputs
7 = For up to 6 stages, from which 1 can
be speed controlled
8 = Speed controlled fan (see 7)
9 = Heat recovery solenoid
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Outputs
8 = 12 outputs for up to 6x2 / 4x3 / 3x4 capacity
controlled compressors
Block Diagrams
EC3-812 Dual Circuit Rack Controller
(4 + 3 compressors)
EC3-932 Rack and Condenser Controller
(up to 4 compressors + condenser)
Network
Inputs
1 = Discharge temperature inputs of 3 compressors
2 = Suction pressure group A
3 = Suction pressure group B
4 = Serial alarm input for each compressor respectively
5 = Refrigerant level alarm
6 = Low pressure alarm group A
7 = Low pressure alarm group B
8 = High pressure alarm
9 = Oil level alarm
Outputs
10 = For up to 4 compressors suction group A
11 = For up to 3 compressors suction group B
Inputs
1 = Discharge temperature
2 = Ambient temperature
3 = Suction pressure
4 = Condensing pressure
5 = Serial alarm inputs for 4 compressors
6 = Low pressure alarm
7 = High pressure alarm
8 = Oil level alarm
9 = Refrigerant level alarm
10 = Serial alarms for 3 fans
11 = Heat recovery demand
Outputs
12 = Up to 4 compressors
13 = Up to 3 fans, from with 1 fan can be
speed controlled
14 = Speed controlled fan (see 13)
15= Heat recovery solenoid
16= to control a Digital Scroll™
7 7 7
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Network Accessories
Description
Cable Length
Echelon USB-FTT10 interface stick (with USB cable)
Type
Part No.
ECC-034
804 385
RJ45 to RJ45 Ethernet connection cable
1.5m
ECC-N10
807 860
RJ45 to RJ45 Ethernet connection cable
3.0m
ECC-N30
807 861
RJ45 to RJ45 Ethernet connection cable
5.0m
ECC-N50
807 862
RJ45 to 4pin-connector cable for EC2 TCP/IP Contr.
6.0m
ECX-N60
804 422
2 ECHELON 5
* « *
ECC-034
|
Echelon USB-FTT10 Stick
Examples for Use of Network Accessories
LON connected to Laptop ECC-034 interface.
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ECC-N10 RJ45 to RJ45 cable for connection between EC3 and
ECD
Drivers for DIGITAL-Copeland™ Compressors EC3-D13/EC3-D23
EC3-D13 driver for digital scroll compressors and 3 cylinder digital semi hermetic compressors
EC3-D23 driver for 4 and 6 cylinder Stream digital semi hermetic compressors
EC3-D13 /EC3-D23 drivers receive an input signal from an existing
system controller (0...10V , 1...6V or 4 ...20m A) and activate digital
solenoid valves for stepless capacity control of the digital scroll and
digital semi hermetic compressors .
For digital scroll compressors, an input allows monitoring of the
discharge tem perature or the com pressor's DLT signal and to
activate an alarm signal if the specified temperature is exceeded.
Features
•
Valve opening PWM signal proportional to the analogue
input signal
•
Fully tested and ready for operation
•
CE-marking for electromagnetic compatibility
•
Electrical connections via plug-in type screw terminals
ECD-002 Display and key pad unit
•
Display and interface for parameter setup and status read out
•
For front panel mounting
Selection Chart K its*
Description
Type
Copeland Part Number
Driver kit for digital scroll compressors
EC3-D13 kit
8405187
Driver kit for 4 and 6 cylinder Stream digital semi hermetic compressors
EC3-D23 kit
3187293
Kit contain EC3-D13/D23, ECD-002 keypad/Display unit, terminal kit K03-331, connection cable EC3 to ECD 13/23,
Transformer ECT-323 230VAC input/ 24 VAC, 25VA
Selection Chart Individual Com ponents
Description
Driver for digital scroll compressors
Driver for digital scroll compressors with terminal kit
Driver for 4 and 6 cylinder Stream digital semi hermetic compressors
Driver for 4 and 6 cylinder Stream digital semi hermetic compressors with
terminal kit
Type
Copeland Part Number
EC3-D13
8404935
EC3-D13 & K03-331
3187306
EC3-D23
3187282
EC3-D23 & K03-331
3187317
Display and key pad unit
ECD-002
8403318
Terminal kit for Driver
K03-331
8405165
Connection cable EC3-D13/23 to ECD-002, 1m
ECC-N10
8557782
Transformer 230V AC input / 24 VAC, 25VA, DIN mount
ECT-323
8405176
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Technical Data
Power supply
24VAC ± 10%; 50/60Hz; 1A
Power consumption
5VA max.
Plug-in connector
Removable screw terminals
wire size 0.14 ... 1.5 mm2
Grounding
6.3 mm spade earth connector
Protection class
IP20
Connection to ECD-002
ECC-Nxx or CAT5 cable with RJ45 connectors
Digital Input
I: 0/24VAC/DC for stop/start function
Analog Inputs
O: 4.20m A , 0 .1 0 V , 1 .6 V
N: Copeland NTC temperature sensor (86K at 25°C) or Discharge Line Thermostat (DLT)
Digital Outputs (2):
H: Alarm
L: Compressor relay for compressor contactor
SPDT; Imax = 8A res (2A), VACmax = 250V
During normal operation (no alarm condition)
During alarm condition or power supply is OFF
Activated:
Deactivated:
Digital Scroll valve output
SPST contact, Solid State Relay (SSR)
Imax = 1A res (1A), VACmax = 250V
Ambient temperature range
0 ... 50°C
W iring
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Compressor Soft Starter CSS-25U / CSS-32U
The Com pressor Soft Starter CSS-25U / CSS-32U is used for
sw itching, protection and startin g current limitation of single
phase compressors in residential heat pump applications.
Features
•
For motors with maximum operating current up to 25A/32A
•
Limitation of starting current to less than 45 A
•
Self adjusting for use in 50 Hz or 60 Hz supply
•
Self adjusting to motor current - no manual adjustm ent or
calibration necessary
•
Alarm relay output
•
Start capacitor for improved motor acceleration is switched
off after start
•
Low voltage shutdown
•
Locked rotor recognition and shutdown
LVD 2006/95/EC Low Voltage Directive
•
Delay function to limit number of motor starts per hour
EN 60947-1 Low voltage switchgear and controlgear
•
Thyristor protected contactor for long life
•
No extra motor contactor needed
EN 60947-4-2 Contactors and motor-starters - AC
semiconductor motor controllers and starters
•
Self diagnostics
•
Mounting clip for easy installation allows DIN rail mounting in
two directions
EN 60335-1, EN 60335-2-40: Safety of household and
similar electrical appliances (PCN 805 204 and 805 205
only)
•
Easy connection by cage type screw terminals
EMC 2004/108/EC
CSS-25U
a
i Standards:
ROHS 2002/95/EC
Selection Chart CSS
Type
Part No.
Part No.
(20 pieces)
Description
Imax
CSS-32U
805204
805 204M
Soft Starter incl. mounting clip and operating manual; VDE released version
32A max
CSS-25U
805 205
805 205M
Soft Starter incl. mounting clip and operating manual; VDE released version
25A max
CSS-32U
805200
805 200M
Soft Starter incl. mounting clip and operating manual
32A max
CSS-25U
805201
805 201M
Soft Starter incl. mounting clip and operating manual
25A max
K00-003
807 663
-
3-pol Screw connector to alarm output for wires up to 2.5mm2; bag with 50 pieces
Technical Data
Operating voltage
230 V 50/60 Hz nominal
Weight
430 g
Compressor starting current
limited to max. 45A
Protection acc. IEC 529
IP 20
Operating temperature
-20 ... +55°C non condensing
Max. vibration
4 g (at 10 ... 1000 Hz)
Storage temperature
-20 ... +65°C non condensing
Time delay after stop
0,5 to 5 min
Start capacitor
200 ... 240 uF
Alarm relay, AgNi (SPDT)
250VAC/ 3A
W iring Diagram
CSS Contacts:
R = Output motor run winding
RC = Output run capacitor
L = 230V / AC power input
N = Neutral line
Uc = Start input (ON if connected to 230V)
S = Output start winding from start capacitor
A1, AC, A2 = Alarm relay contact
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Pressure Transmitter Series PT5
Pressure Transmitters convert a pressure into a linear electrical
output signal. PT5 has been optimized for refrigeration applications.
PT4-M xx
Features
•
Sensitive pressure cells with strong primary output signals for
the precise operation of superheat, compressor or fan control
systems
Fully hermetic
PT5-xxM pressure connector 7/16-20 UNF with Schrader valve
opener
PT5-xxT w ith 6m m x 60m m long tube fo r app licatio n s
requiring a fully hermetic system solution
Vibration, shock and pulsation resistant
Protection class IP 65
PT5-xxM
Easy install M12 electrical connection with pre-assembled cable
assemblies available in various lengths
Output signal 4 to 20 mA
Calibrated for specific temperature and pressure ranges to
fulfill application demands in air conditioning and refrigeration
systems
Standard pressure ranges compatible with former Emerson
pressure transm itters - sealed gauge pressure
Options
•
Other pressure ranges and calibrations
•
Delivery in multipacks
Standards:
ce
•
per EMC Directive
•
UL Listing E258370
Selection Chart Transmitters
Type
Part No.
Output signal
Pressure range
(bar)
Max. allowable
pressure PS
(bar)
Test pressure PT
(bar)
Burst pressure
(bar)
PT5-07M
802350
-0.8 ... 7
27
30
150
PT5-18M
802351
0 ... 18
55
63
250
PT5-30M
802 352
0 ... 30
60
100
400
PT5-50M
802 353
0 ... 50
100
150
400
4 ... 20 mA
Pressure
Connection
7/16” -20 UNF
(with schrader
valve opener)
PT5-07T
802 370
-0.8 ... 7
27
30
150
PT5-18T
802371
0 ... 18
55
63
250
6mm tube x
PT5-30T
802 372
0 ... 30
60
100
400
60mm long
PT5-50T
802 373
0 ... 50
100
150
400
4 ... 20 mA
Cable Assemblies
Type
Part No.
PT4-M15
804 803
PT4-M30
804 804
PT4-M60
804 805
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Temperature range (°C)
Cable length (m)
-50 ... +80 °C static application
-25 ... +80 °C mobile application
3.0
Leads
1.5
6.0
2 x 0,34 mm 2
Technical Data
Supply Voltage
Nominal
Range (polarity protected)
24 Vdc
7 ... 30 Vdc
Sensor lifetime
at full stroke at 25°C
> 10.000.000 cycles
Operating current
max. < 24 mA output
Burst pressure
see selection chart
Protection class acc. to EN 60529
IP65
Medium compatibility
HFC, HCFC, CFC
Load resistance
UB- 7.0V
R. < B
L
0.02A
Temperatures PT5
not suitable for ammonia and
inflammable refrigerants!
Materials PT5
Operating ambient housing
-40 ... 80 °C
Housing cover, pressure connector,
Stainless steel
Medium
-40 ... 100 °C
diaphragm with medium contact
1.4534 / AISI 316L
Transportation and storage
-25 ... 80 °C
Vibration at 10 ... 2000 Hz
5g (IEC 68-2-6)
A ccuracy Perform ance PT5
Temperature range
Total error*
PT5-07M/T
-40 .. . +20°C
< ± 1 % FS
PT5-18M/T
-40 .. . +20°C
< ± 1 % FS
PT5-30M/T
0 .. . +40°C
< ± 1 % FS
-20 . . +60°C
< ± 2 % FS
-40 .. . +80°C
typically < ±2 % FS
PT5-50M/T
0 .. . +40°C
< ± 1 % FS
-20 .. . +60°C
< ± 2 % FS
-30 .. . +80°C
typically < ±2 % FS
*) Total error includes non-linearity, hysteresis, repeatability as well as offset and span
drift due to the temperature changes.
Note: % FS is related to Percentage of Full sensor Scale.
Electrical Connection
Pressure transmitters PT5 with current output (2-wire
connection) offer following advantages:
1.
2.
More suitable for signal transmission over long distances
Higher immunity to electromagnetic interference
Note: Changing the length of the electrical connection lead beyond 1.5 m
can have a negative impact on electromagnetic compatibility. Additional
protection may be required.
2 4 Vdc
T
~
PT5
W H p 4 ... 20 mA
BN = brown, supply voltage 24V
WH =white, output signal 4 ... 20mA
(5) = Electronic Controller e.g. EC2 & EC3 Series
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Electronic Fan Speed Controller Series FSY
Features
Pressure a ctu a te d fan speed control
A d ju stab le pressu re fo r cut-off
High V o lta g e Triac (8 0 0 V o lts)
Integ rated p ro tectio n c irc u it a g a in st vo lta g e
peaks
C o m p a c t design
P ro te ctio n IP65
Easy m o u n tin g and a d ju stm e n t
Easy re tro fit in e xistin g plants
No ad d itio n al g aske t req uired (c o m p le te ly
m o ld ed into plug )
M ulti-po sitio n plug w ith EM C filte r incl. 1 ,5 m
(o p t. 3 and 6 m ) cable fo r fle xib le installatio n
^ ^
FSY-43S
per EC 89/336/EC (together w ith FSF cable)
UL file E 1 8 3 8 1 6
Selection Table
Type
Part No.
F S Y -4 1 S
0715533
F S Y -4 2 S
0715534
FSY-42U
0715535
FSY-42X
0715536
F S Y -4 3 S
0715537
FSY-43U
0715538
FSY-43X
0715539
Operational
Current
A
Adjustment
Range
bar
Factory
Setting
bar
Max. Operating
Pressure PS
bar
Test
Pressure PT
bar
4.0 ... 12.5
8.0
27
30
Pressure Connection
S : 7/ 16” -2 0 U N F fe m a le
S : 7/ 16” -2 0 U N F fe m a le
9.2 ... 21.2
15.0
32
U: 6mm
36 - ODF
0.1 ... 4
X : 1/4“ - ODF
S : 7/ 16” -2 0 U N F fe m a le
12.4 ... 28.4
21.8
45
U: 6mm
50 - ODF
X : 1/4“ - ODF
Cable Assemblies w ith Plug and EMC Filter
Type
Part No.
FSF-N15
804 640
FSF-N30
804 641
FSF-N60
804 642
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Temperature range (°C)
Cable length (m)
-50 .. +80
3.0
1.5
6.0
lO
fs f'n ' 5
Technical Data
Supply voltage
230 AC, +15%, -20%, 50/60 Hz
Nominal current
0.1 ... 4 (3) A
Pressure change per turn of
adjustment screw
(see diagram below)
Starting current
FSY-42: 9,2 .. 21.2 bar
clockwise ~ +2.5 bar
counter clockwise — 2.5 bar
max. 8 Ampere/5 sec.
Medium compatibility
HFC, HCFC
(not released for use with
FSY-43: 12,4 .. 28.4 bar
clockwise ~ +3.3 bar
counter clockwise — 3.3 bar
inflammable refrigerants)
Protection Class according to
IP 65 (with fitted connectors
Proportional Range
FSY-41: 2.5 bar
FSY-42: 3.8 bar
FSY-43: 4.6 bar
3
FSF-xxx)
-20 to +55 °C
Weight
FSY-41, -42
FSY-43
FSF-N15
FSF-N30
FSF-N60
approx.
0.12 kg
0.15 kg
0.14 kg
0.20 kg
0.22 kg
2
IEC529/DIN 40050
Temperature ranges ambient
Housing material
PC and PA
storage, transportation medium
>40°C see diagramm
-30 to +70°C
-20 to +70°C
Max. Current vs Ambient Temperature
0
1
4.
Current (A)
FSY-41: 4,0 .. 12.5 bar
clockwise ~ +1.2 bar
counter clockwise — 1.2 bar
3
0
35
40
45
50
55
Ambient Temperature (°C)
Function Diagram
The control behaviour can be easily described by looking at the
function of output voltage versus input pressure: In the maximum
range the FSY provides a constant output voltage of approximately
1% below the supply voltage. The fan is running at maximum speed.
Along the proportional range, the output voltage varies between
maximum and m inim um voltage of approxim ately 50% of the
supply voltage. This causes the fan to slow down from maximum
to minimum speed.
Further decrease of pressure in the minimum range leads to cut-off
of the fan motor. Reincrease of input pressure will start the motor
with a hysteresis of approximately 0.7 bar to avoid cycling. The
pressure from which motor cuts off is adjustable (see selection
table - adjustment range).
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FSE Fan Speed Control Module
Electronic Fan Speed Control Modules FSE generate a 0...10 V signal,
which is used to control the speed of condenser fan motors in
commercial refrigeration and air-conditioning systems. Ideal for
use with high efficient EC-motors but can be also used with phase
cut controllers for induction motors.
Features
•
Energy saving due to improved cooling efficiency
•
Pressure for minimum speed adjustable
•
Small proportional band and large hysteresis to minimize
cycling at small pressure changes
•
Reduced fan noise level during low ambient temp. conditions
•
Improved overall performance of cooling system
•
Easy installation w ith cables for power supply and motor
connection factory wired
•
IP 67 protection for outdoor mounting
•
UL file nr.: E355325
FSE Control Modules
Part No.
Refrigerants
Adjustment Range
PCut (bar)*
Cut-off Pressure
factory set (bar)
Test
Pressure
Pressure
Connection
Weight
(g)
FSE-01S
804 701
R 134a
4 ... 12.5
7.8
30 bar
7/16'' -20 UNF
female
125
FSE-02S
804 706
R 22, R 407C,
R 404A, R 507
10 ... 21
15.5
36 bar
7/16'' -20 UNF
female
125
FSE-03S
804711
R 410A
20.4
50 bar
7/16'' -20 UNF
female
150
2
Type
2
00
Selection Chart Control Modules FSE
Cable Assemblies for connection of FSE Control Module to controller
Type
Part No.
PS3-N15
804 580
PS3-N30
804 581
PS3-N60
804 582
No of leads
Diameter
of leads
Temperature Range °C
3
0.75 mm2
-25/+80
Cable length
mtr.
1.5
3.0
6.0
Technical Data FSE
Supply Voltage
10V; supplied by controller
Operating current
0 .1 0 VDC output
max. 1 mA
Medium compatibility
HFC, HCFC, POE-, synthetic and
mineral oils
Protection class (IEC529/EN
60529)
IP 65 with cable connector
assemblies PS3-Nxx
Pressure connection
FSE-01S and FSE-02S
FSE-03S
Max. operating pressure PS
Temperature Range
Storage and transportation
Operation
Materials
Housing cover
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Brass
Stainless Steel
FSE-01_: 27bar
FSE-02_: 32bar
FSE-03_: 45bar
-30° ... +70°C
-20° ... +65°C
PA
Thermo™-Expansion Valves
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Thermo™ Expansion Valves
Basic Terms and Technical Information
Operating principles
Alco Thermo-Expansion valves control the superheat of refrigerant
vapour at the outlet of the evaporator. They act as a throttle device
between the high pressure and the low pressure sides of refrig­
eration systems and ensure that the rate of refrigerant flow into
the evaporator exactly matches the rate of evaporation of liquid
refrigerant in the evaporator. Thus the evaporator is fully utilized
and no liquid refrigerant may reach the compressor.
Description of bulb charges
The application ranges of Thermo-Expansion valves are heavily
influenced by the charge selected.
Liquid charges
The behaviour of Thermo-Expansion valves with liquid charges
is exclusively determined by tem perature changes at the bulb
and not subject to any cross-ambient interference. They feature
a fast response time and thus react quickly in the control circuit.
Liquid charges cannot incorporate MOP functions. Maximum bulb
temperatures shall not exceed 75°C.
Gas charges
The behaviour of Thermo-Expansion valves with gas charges will be
determined by the lowest temperature at any part of the expansion
valve (power assembly, capillary tube or bulb). If any parts other
than the bulb are subject to the lowest temperature, malfunction
of the expansion valve may occur (i.e ., erratic low pressure or
excessive superheat). Alco Therm o-Expansion valves w ith gas
charges always feature MOP functions and include ballasted bulbs.
Ballast in the bulb leads to slow opening and fast closure of the
valve. Maximum bulb temperature is 120°C.
Adsorption charges
These charges feature control characteristics much like MOP
charges but avoid the difficulties of cross-ambient interference.
Response time is slow but perfectly suitable for common refriger­
ation systems. Maximum bulb temperature is 130°C.
MOP (Maximum Operating Pressure)
MOP functionality is som ewhat sim ilar to the application of a
crankcase pressure regulator. Evaporator pressures are limited to
a maximum value to protect compressor from overload conditions.
MOP selection should be within maximum allowed low pressure
rating of the compressor and should be at approximately 3K above
evaporating temperatures.
Practical hint: Superheat adjustments influence the MOP:
Increase of superheat:
Decrease of MOP
Decrease of superheat:
Increase of MOP
Static superheat
Alco Thermo-Expansion valves are factory preset for optimum su­
perheat settings. This setting should be modified only if absolutely
necessary. The readjustment should be at the lowest expected
evaporating temperature.
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Subcooling
Subcooling generally increases the capacity of the refrigeration
system and m ay be acco u nted fo r w hen dim en sion ing an
expansion valve by applying the correction factor Kt. The capacity
corrections for evaporating temperature, condensing temperature
and subcooling are all incorporated in Kt. These are, in particular
the liquid density upstream from the expansion valve, the different
enthalpies of liquid and vapour phase refrigerants, as well as certain
parts of flash gas after expansion. The percentage of flash gas
differs with various refrigerants and depends on system conditions.
Heavy subcooling results in very small flash gas am ounts and
therefore increases expansion valve capacities. These conditions
are not covered by Kt. Likewise, small flash gas am ounts lead
to reduced evaporator capacities and may result in substantial
discrepancies between the capacities of the Thermo-expansion
valve and the evaporator. These effects must be considered during
component selection when designing refrigeration circuits. In
cases when subcooling exceeds 15 K, sizing of components (Kt,
KAp) should be modified accordingly. The field practice indicates
the following correction factors can be used to compensate the
effect of the subcooling (liquid hammering) in addition to the use
of correction factors Kt, and KAp.
Subcooling
20K
30K
40K
50K
60K
Correction factor
0.8
0.7
0.6
0.5
0.4
Emerson Climate Technologies will be happy to assist you. Please
contact the application engineering department.
Dimensioning
To correctly select a Thermo-Expansion valve on a system, the
following design conditions must be available:
- Cooling capacity QO
- Effective pressure differential across Thermo-Expansion
valve Ap
- Evaporating temperature/pressure
- Lowest possible condensing temperature/pressure
- Liquid temperature
- Type of refrigerant
As opposed to single substances (e .g . R134a etc.) where the
phase change takes place at a constant temperature/pressure,
the evaporation and condensation of zeotropic blend R407C
is in a gliding form (e.g., at a constant pressure the temperature
varies within a certain range) through evaporators and condens­
ers. The evaporating/condensing pressure must be determined at
saturated temperatures (bubble/dew points) for dimensioning of
Thermo®-Expansion valves.
To facilitate valve dimensioning for other than standard conditions,
Emerson Climate Technologies offers a Selection Tool. This can be
ordered from all Emerson sales offices.
See www.em ersonclim ate.eu for contact addresses, email, phone
numbers or download.
Example
Cooling capacity of a system:
Refrigerant:
Condensing temperature (saturated liquid):
(Condensing pressure will be 15.5 bar)
Evaporating temperature (saturated vapour):
(Evaporating pressure will be 4.61 bar)
Subcooling:
Pressure drops through liquid line:
Pressure drops through evaporator:
Required type of Thermo®-Expansion valve:
18 kW
R407C
+35°C
0°C
1K
2.2 bar
0.3 bar
T-series
To calculate the nominal capacity the following formula has to
be used:
Cooling capacity x Kt x KA p = Nominal capacity
1. Selected Kt-factor according to refrigerant, liquid and evaporat­
ing temperature from table on page 207.
Kt = 0.98 (for this example)
2. Determine pressure differential across the Thermo®-Expansion
valve using condensing pressure. subtract evaporating pressure
and all other possible pressure losses (pressure drops in evaporator.
drier. solenoid valve. liquid distribution...).
For this example:
Ap = 15.5 - (4.61 +2.2 + 0.3) = 8.39 bar
Select KA p factor from table on page 207:
KA p = 1.15 (for this example)
3. Multiply cooling capacity with Kt and KAp. to find nominal capac­
ity for Thermo-Expansion valve.
Qn = 18 x 0.98 x 1.15 = 20.29 kW
Select Thermo-Expansion Valve from table on page 202: TCLE 550
NW (for this example).
Please note that all evaporating/condensing temperatures in this
catalogue are based on saturated vapour/liquid temperatures.
Selection Guide for Expansion Valves
Selection Criteria
Series
Capacity Range
kW (R 404A)
Evaporating Temp.
Range °C
Main Application
Features
Catalogue
Page
TI
0.4 to 14.2
+20 to -45
Refrig./Air-Cond.
Heat Pumps
Exchangeable Orifices
190
TX3
0.8 to 15.0
+20 to -45
Refrig./Air-Cond.
Heat Pumps
Hermetic, Superheat adjustable,
optional with check valve
198
TX6
13.3 to 57.0
+20 to -45
Air-Cond. Heat
Pumps
Hermetic, Superheat adjustable
200
T
2 to 209
+30 to -45
Refrig./Air-Cond.
Heat Pumps
Exchangeable Orifices,
Power-Assembly and Flange
202
ZZ
1.9 to 81.2
-45 to -120
Low Temperature
Application
Exchangeable Orifices,
Power-Assembly and Flange
208
L
2 to 154
+30 to -50
Liquid Injection
Superheat Control
Exchangeable Orifices,
Power-Assembly and Flange
211
935
5.2 to 43.5
+30 to -45
Liquid Injection
Temperature
Control
Exchangeable Orifices,
Power-Assembly and Flange
213
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Thermo™-Expansion Valves Series TI
New valve design, exchangeable orifices
Features
•
Laser welded diaphragm with large diameter for high
reliability and maximum life time
• Constant superheat across wide application ranges
• Easy and precise superheat setting by modified threads
•
TILE with stainless steel fittings allow brazing without
w et rags
•
With capacities between 0.4 kW and 14.2 kW (R404A)
•
Internal or external equaliser
•
Brazing and flare connections available
ideally suited for service work
• Capillary tube length 1.5 m
• PS: 45 bar. TS: -45 ... +75°C
•
No CE marking according art. 3.3 PED 97/23 EC
Type Code
TILE
TI S E - M W
Valve series
Connection type
L: Brazing, stainless steel ODF fittings
(outlet / equaliser)
S : Brazing, copper ODF fittings
: Flare
Equaliser ________
E : External
: Internal
Refrigerant -----Charge
W : Liquid (without MOP feature)
W xxx: Vapour (with MOP feature)
ADxxx: Adsorption (similar MOP feature)
Orifice Assembly with strainer for inlet connection
Nominal Capacity* (kW)
Type
TIO-00X
TIO-000
TIO-001
TIO-002
TIO-003
TIO-004
TIO-005
TIO-006
Part No.
800532
800533
800534
800535
800536
800537
800538
800539
R134a
0.3
0.8
1.9
3.1
5.0
8.3
10.1
11.7
R22
0.5
1.3
3.2
5.3
8.5
13.9
16.9
19.5
R404A
0.4
1.0
2.3
3.9
6.2
10.1
12.3
14.2
R407C
0.5
1.4
3.5
5.7
9.2
15.0
18.3
21.1
R410A
0.6
1.5
3.7
6.2
9.9
16.2
19.7
22.8
R507
0.4
1.0
2.3
3.9
6.2
10.1
12.3
14.2
R407F
0.6
1.5
3.6
5.9
9.5
15.5
18.9
21.8
Brazing Adapter for TILE and TIS(E)
Type
Part
No.
Connection. ODF
mm
inch
TIA-M06
802 500
6.0
-
TIA-M10
802 501
10.0
-
TIA-014
802 502
-
1/4”
TIA-038
802 503
-
3/8”
Gasket Set
803 780
100 pieces
*Nominal capacity is based on the following conditions:
Refrigerant
R407C, R407F
R22. R134a.
R404A.R410A.R507
Evaporating
temperature
+4°C dew
point
Condensing
temperature
+38°C bubble p.
+43°C dew point
Sub­
cooling
+4°C
+38°C
1K
1K
Valve selection for other operating conditions see page 204, quick selection
tables on page 192 or Selection Tool (download from
www.emersonclimate.eu) .
190
http://holodko.ru/
___ —
TI Valve Bodies without cage and nut
Refrigerant
Outlet/ Equalizer
Connection
Part No.
Type
external Equalizer
Brazing
stainless steel
R404A /
R507
Brazing
copper
TILE-SW (12mm)
802465
TILE-SW (1/2“)
802466
TISE-SW (12mm)
802462
Part No.
Type
MOP
°C
Evaporating
temperature
range °C
internal Equalizer
TIS-SW (12mm)
802461
-
-45 . . + 20
-
-45 . . + 20
-
-45 . . + 20
-45 . . +20
TISE-SW (1/2“)
802464
TIS-SW (1/2“)
802463
-
TISE-SAD10 (1/2“)
802479
TIS-SAD10 (1/2“)
802478
+10
-45 . .
0
TISE-SW75 (12mm)
802471
0
-45 . .
-3
TISE-SW75 (1/2“)
802472
0
-45 . .
-3
TISE-SAD-20 (12mm)
802474
-2 0
TISE-SAD-20 (1/2“)
802475
-2 0
-45 . . -27
TIE-SW
802460
TI-SW
802459
-
-45 . . + 20
TIE-SAD10
802477
TI-SAD10
802476
+10
-45 . .
0
TIE-SW75
802470
TI-SW75
802469
0
-45 . .
-3
TIE-SAD-20
802473
-2 0
-45 . . -27
TILE-MW (12mm)
802451
-
-45 . . + 20
-45 . . -27
Flare
Brazing
stainless steel
R134a
Brazing
copper
TILE-MW (1/2“)
802452
TISE-MW (12 mm)
802448
TIS-MW (12 mm)
802447
TISE-MW (1/2“)
802450
TIS-MW (1/2“)
802449
TISE-MW55 (12mm)
802457
TISE-MW55 (1/2“)
802458
+14
-45 . . + 1 1
TIE-MW
802446
TI-MW
802445
-
-45 . . + 20
TIE-MW55
802456
TI-MW55
802455
+14
-45 . . + 1 1
TILE-NW (12mm)
802486
-
-45 . . + 20
TILE-NW (1/2“)
802485
Flare
Brazing
stainless steel
R407C
Brazing
copper
Flare
Brazing
stainless steel
R22
Brazing
copper
Flare
R410A
Brazing
stainless steel
-45 . . + 20
-
-45 . . + 20
-
-45 . . + 20
+14
-45 . . + 1 1
-
-45 . . + 20
802438
TIS-NW (12mm)
802437
-
-45 . . + 20
802440
TIS-NW (1/2“)
802439
-
-45 . . + 20
TIE-NW
802436
TI-NW
802435
-
-45 . . + 20
TILE-HW (12mm)
802426
-
-45 . . + 20
TILE-HW (1/2“)
802427
-
-45 . . + 20
TISE-HW (12mm)
802423
TIS-HW (12mm)
802422
-
-45 . . + 20
TISE-HW (1/2“)
802425
TIS-HW (1/2“)
802424
-
-45 . . + 20
TISE-HW100 (12mm)
802431
+15
-45 . . +13
TISE-NW (12mm)
TISE-NW (1/2“)
TISE-HW100 (1/2“)
802432
TIE-HW
802421
TIE-HAD10
802430
+1 0
TILE-ZW (12mm)
802488
-
-35 ... +20
TILE-ZW (1/2“)
802489
-
-35 ... +20
TILE-ZW175 (12mm)
802490
+16.4
-35 ... +15
TILE-ZW175 (1/2“)
802491
+16.4
-35 ... +15
Inlet:
Flare 5/8“-18UNF for 6 mm, 8 mm., 10mm, 1/4”, 5/16“ and 3/8“ tubes
Outlet:
Flare 3/4“-16UNF for 12mm and 1/2“ tubes.
Solder metric: ODF for 12mm tubes. Solder inch: ODF for 1/2“ tubes
Flare 7/16”-20UNF for 6 mm and 1/4“ tubes.
Solder metric: ODF for 6 mm tubes. Solder inch: ODF for 1/4“ tubes
Ext. Equalizer:
-
TI-HW
802420
+15
-45 . . +13
-
-45 . . + 20
-45 . .
0
191
http://holodko.ru/
Quick Selection Tables
Published capacity data at 1 K subcooling at the inlet of the
expansion valve and 1.5 bar pressure drop in the refrigeration
system . For proper valve selection especially in case of high
pressure drops, we recommend the use of correction factors
(see page 204).
Condensing
Tem perature
°C
To facilitate valve dimensioning for other than the standard condi­
tions, Emerson Climate Technologies offers a Selection Tool (www.
emersonclim ate.eu).
Cap a city (kW ) V a lv e Type TI ... - M ....
Evaporating Tem perature (°C)
R134a
Cage
Size
30
20
10
5
0
-5
-1 0
-15
-2 0
-2 5
-30
0 .2 3
0.27
0 .2 9
0 .2 9
0.30
0 .3 0
0 .3 0
0 .2 6
0 .2 2
0 .1 9
0 .1 6
TIO -00X
0 .6 0
0.71
0 .7 6
0 .7 8
0.79
0 .7 9
0 .7 9
0 .6 8
0 .5 9
0.50
0 .4 3
TIO -000
1.42
1.68
1.81
1.85
1.87
1.88
1.87
1 .63
1.39
1.20
1.01
TIO-001
2.32
2 .7 4
2 .9 6
3.02
3 .0 5
3 .0 7
3 .0 6
2.65
2.27
1.95
1.66
TIO -002
3 .7 4
4 .4 2
4 .7 7
7.87
4 .9 2
4 .9 4
4.93
4 .2 8
3 .6 6
3.15
2.67
TIO -003
6.21
7 .3 4
7 .9 3
8.08
8.17
8.21
8.19
7 .1 0
6 .0 8
5.23
4 .4 3
TIO -004
7 .5 6
8.93
9 .6 4
9 .8 4
9 .9 5
9 .9 9
9.97
8 .6 4
7 .4 0
6 .3 6
5.39
TIO -005
50
8.76
1 0 .3 4
11.17
11.40
1 1.52
1 1.57
11.55
10.01
8.57
7.37
6 .2 5
TIO -006
0.12
0.21
0 .2 5
0 .2 6
0 .2 7
0 .2 8
0.28
0 .2 5
0.21
0 .1 8
0 .1 6
TIO -0 0 X
0.33
0 .5 6
0 .6 7
0.67
0 .7 3
0 .7 4
0 .7 5
0 .6 6
0.57
0 .4 9
0 .4 2
TIO -000
0.79
1.34
1.60
1.60
1.73
1.76
1.78
1.56
1.35
1.17
1.00
TIO-001
1.29
2.18
2.60
2.73
2.82
2.88
2.91
2.55
2.20
1.91
1.63
TIO -002
2.08
3 .5 2
4.20
4 .4 0
4 .5 5
4 .6 4
4 .6 9
4.11
3 .5 6
3 .0 8
2.63
TIO -003
3 .4 5
5 .8 4
6 .97
7.31
7 .5 5
7.70
7 .7 9
6 .8 3
5.90
5.12
4 .3 7
TIO -004
4 .1 9
7 .1 0
8.48
8.90
9 .1 9
9.38
9 .4 8
8.31
7.18
6 .2 3
5.32
TIO -005
TIO -006
40
4 .8 6
8.23
9 ..8 3
10.31
1 0 .6 4
1 0.86
10.9 8
9 .6 3
8.32
7 .2 2
6 .1 6
0 .1 7
0.23
0 .2 4
0 .2 6
0 .2 6
0 .2 7
0 .2 4
0.21
0 .1 8
0.15
TIO -0 0 X
0 .4 4
0.60
0 .6 5
0 .6 8
0 .7 0
0 .7 2
0.63
0 .5 5
0 .4 8
0.41
TIO -000
1.06
1.43
1.54
1.61
1 .67
1 .70
1.50
1.31
1.14
0.98
TIO-001
1.72
2.33
2.50
2.63
2.72
2.78
2.45
2.13
1.86
1.59
TIO -002
2.78
3 .7 5
4 .0 4
4 .2 4
4 .3 9
4 .4 8
3.95
3 .4 4
3 .0 0
2 .57
TIO -003
4 .62
6 .2 3
6.71
7.05
7 .2 8
7 .4 3
6 .5 6
5.71
4 .9 7
4.27
TIO -004
5.62
7 .5 8
8 .1 6
8 .57
8 .8 6
9 .0 5
7.99
6 .9 5
6 .0 5
5.19
TIO -005
TIO -006
35
6.51
8.79
9 .4 5
9.93
1 0 .2 6
10.4 8
9.25
8.05
7.01
6.01
0 .09
0 .1 9
0.21
0.23
0 .2 4
0 .2 5
0 .2 3
0 .2 0
0.17
0 .1 5
TIO -00X
0 .25
0.51
0 .5 7
0 .6 2
0 .6 5
0 .67
0 .6 0
0 .5 2
0 .4 6
0 .4 0
TIO -000
0 .6 0
1.20
1.35
1.46
1.54
1.59
1.42
1.25
1.09
0 .9 4
TIO-001
0 .9 8
1.96
2.21
2.39
2.51
2.60
2.32
2.03
1.78
1.54
TIO -002
TIO -003
30
1.58
3 .1 6
3.57
3 .8 5
4 .0 5
4.19
3 .7 4
3 .2 8
2 .87
2.48
2 .63
5.25
5.92
6 .3 9
6 .7 3
6 .9 6
6.21
5 .4 4
4.77
4.11
TIO -004
3 .2 0
6 .3 9
7.20
7 .7 8
8.19
8.47
7 .5 6
6 .6 2
5.81
5.00
TIO -005
3.71
7 .4 0
8.34
9.01
9 .4 9
9 .8 2
8.75
7.67
6 .7 3
5.80
TIO -006
0 .1 4
0.18
0 .2 0
0 .2 2
0 .2 3
0.21
0 .1 8
0 .1 6
0 .1 4
TIO -00X
0 .3 7
0 .4 7
0 .5 4
0 .5 8
0.61
0 .5 6
0 .4 9
0 .4 3
0 .3 8
TIO -000
0 .8 9
1.12
1.27
1.38
1.46
1.32
1.17
1.03
0 .9 0
TIO-001
1.45
1.82
2.08
2.25
2.38
2.15
1.91
1.68
1.46
TIO -002
25
2.33
2 .9 4
3.35
3 .6 4
3 .8 4
3 .4 7
3 .0 7
2.72
2 .3 6
TIO -003
3 .8 7
4 .8 8
5 .5 6
6 .0 3
6.37
5 .7 6
5.10
4.51
3.91
TIO -004
4.71
5 .9 4
6 .7 6
7 .3 4
7.75
7.01
6.21
5.49
4 .7 6
TIO -005
5 ..4 5
6.88
7 .8 4
8.51
8.98
8.12
7 .1 9
6 .3 6
5.52
TIO -006
0 .0 2
0.12
0 .1 6
0 .1 9
0.20
0 .1 9
0 .1 7
0.15
0 .1 3
TIO -0 0 X
0 .0 4
0.33
0 .4 3
0 .5 0
0 .5 4
0 .5 0
0 .4 5
0.40
0 .3 5
TIO -000
0 .1 0
0 .77
1.02
1.18
1.29
1.19
1 .07
0 .9 6
0 .8 4
TIO-001
0 .1 7
1.26
1.66
1.92
2.10
1.94
1.75
1.56
1.37
TIO -002
20
192
http://holodko.ru/
0 .2 7
2.04
2.68
3 .1 0
3.39
3 .1 3
2.82
2.52
2.20
TIO -003
0 .4 4
3.38
4 .4 5
5 .1 4
5.62
5.20
4 .6 8
4.18
3 .6 6
TIO -004
0 .5 4
4.11
5.41
6 .2 5
6 .8 4
6 .3 3
5.69
5.09
4 .4 5
TIO -005
0 .6 2
4 .7 6
6 .2 7
7 .2 4
7.92
7 .3 3
6 .5 9
5.89
5.15
TIO -006
Condensing
Tem perature
°C
Cap a city (kW ) V a lv e Type TI ... - S....
Evaporating Tem perature (°C)
R404A
Cage
Size
30
20
10
5
0
-5
-1 0
-15
-2 0
-2 5
-30
-3 5
-40
-4 5
0 .2 7
0.32
0 .3 4
0 .3 5
0 .3 5
0 .3 5
0 .3 4
0.30
0 .2 5
0 .2 2
0 .1 8
0 .1 5
0.13
0.10
0.71
0.82
0 .8 8
0 .8 9
0 .8 9
0 .8 9
0.88
0.77
0 .6 5
0 .5 6
0 .4 7
0 .3 9
0.33
0.27
TIO -000
1.65
1.91
2 .0 4
2.07
2.08
2.07
2.05
1.80
1.53
1.30
1.10
0.92
0 .7 6
0 .6 2
TIO-001
5 0.00
2.82
3 .2 8
3 .5 0
3 .5 5
3 .57
3.55
3 .5 2
3 .0 8
2.62
2 .2 4
1.88
1.58
1.30
TIO -002
TIO -003
TIO -0 0 X
50
4 .4 7
5.19
5 .5 4
5.62
5.65
5.63
5.57
4 .8 8
4 .1 4
3 .5 4
2.98
2.50
2 .0 6
1.69
7 .2 9
8 .47
9 .0 5
9 .17
9.21
9 .1 8
9 .0 9
7 .9 6
6 .7 6
5.78
4 .8 6
4 .0 7
3 .3 7
2 .7 6
TIO -004
8.85
10.2 9
10.9 9
11.15
11.20
1 1 .1 6
1 1 .0 4
9 .6 7
8.22
7.02
5.90
4 .9 5
4 .0 9
3 .3 6
TIO -005
1 0 .2 6
11.9 3
12.7 4
12.92
12.9 8
12.9 3
12.8 0
11.21
9.53
8.13
6 .8 4
5 .7 4
4 .7 5
3 .8 9
TIO -006
0 .2 0
0 .2 9
0 .3 4
0 .3 5
0 .3 6
0 .3 7
0 .3 7
0.33
0.28
0 .2 4
0.21
0 .1 8
0 .1 5
0.12
TIO -0 0 X
0.51
0.75
0.87
0.91
0 .9 3
0 .9 5
0 .9 5
0 .8 4
0.73
0 .6 3
0 .5 4
0 .4 6
0 .3 8
0.32
TIO -000
1.19
1.75
2 .0 4
2.12
2.18
2.21
2.22
1.97
1.70
1.47
1.25
1.06
0.89
0 .7 4
TIO-001
2.03
3 .0 0
3 .4 9
3 .6 4
3 .7 3
3.78
3.80
3 .3 8
2.91
2.52
2 .1 4
1.82
1.53
1.27
TIO -002
3 .22
4 .7 6
5.53
5 .7 6
5.91
5.99
6 .0 2
5.35
4.61
3 .9 9
3.39
2.88
2.42
2.01
TIO -003
5.25
7 .7 6
9 .0 2
9 .4 0
9 .6 4
9.78
9 .8 3
8.73
7 .5 2
6 .5 0
5.54
4 .7 0
3 .9 4
3 .2 8
TIO -004
6 .3 8
9 .4 3
1 0 .9 6
11.42
11.71
1 1.88
1 1 .9 4
10.61
9 .1 4
7.90
6.73
5.71
4 .7 9
3 .9 8
TIO -005
7 .4 0
10.9 3
12.71
13.23
13.58
1 3.77
1 3 .8 4
1 2.30
10.59
9 .1 6
7 .8 0
6 .6 2
5.55
4 .6 2
TIO -006
40
0 .2 5
0.32
0 .3 4
0 .3 6
0 .3 7
0 .3 7
0 .3 3
0.29
0.25
0.21
0 .1 8
0 .1 5
0 .1 3
TIO -00X
0 .6 5
0.83
0 .8 8
0 .9 2
0 .9 4
0 .9 5
0.85
0 .7 4
0 .6 4
0 .5 5
0 .4 7
0 .4 0
0.33
TIO -000
1.53
1.93
2 .0 6
2 .1 4
2.20
2.23
1.99
1.73
1.50
1.29
1.10
0 .9 3
0.77
TIO-001
2.62
3 .3 2
3 .5 2
3 .6 7
3 .7 6
3.82
3.42
2 .9 6
2.58
2.21
1.88
1.59
1.33
TIO -002
4.15
5.25
5.58
5.81
5 .9 6
6.05
5.41
4 .6 9
4 .0 8
3 .5 0
2.98
2.51
2.10
TIO -003
6 .7 7
8 .5 6
9 .1 0
9 .4 8
9.72
9 .8 6
8.83
7 .6 5
6 .6 6
5.70
4.87
4.10
3 .4 3
TIO -004
35
8 .22
10.41
1 1 .0 6
11.51
11.81
11.98
1 0.73
9 .3 0
8.09
6.93
5.92
4 .9 9
4 .1 7
TIO -005
9 .5 3
1 2 .0 6
1 2.82
13.35
13.69
1 3.89
1 2 .4 4
1 0.78
9 .3 8
8.03
6 .8 6
5.78
4 .8 3
TIO -006
0 .1 9
0 .2 9
0 .3 2
0 .3 4
0 .3 6
0 .3 6
0 .3 3
0 .2 9
0.25
0.22
0 .1 9
0 .1 6
0 .1 3
TIO -00X
0 .4 9
0 .7 5
0.83
0.88
0.91
0 .9 4
0.85
0 .7 4
0 .6 5
0 .5 6
0 .4 8
0.41
0 .3 4
TIO -000
1.15
1.75
1.93
2.05
2.13
2.19
1.98
1.73
1.51
1.30
1.12
0.95
0.79
TIO-001
1.97
3.01
3 .3 0
3.51
3 .6 6
3.75
3.39
2 .9 6
2.59
2.23
1.92
1.62
1.36
TIO -002
3.13
4 .7 6
5.23
5 .5 6
5.79
5.94
5 .3 6
4 .6 9
4 .1 0
3 .5 3
3.03
2.57
2 .1 6
TIO -003
TIO -004
30
5 .10
7 .7 7
8 .53
9 .0 7
9 .4 4
9.69
8.75
7 .6 5
6 .7 0
5.77
4.95
4 .1 9
3 .5 2
6 .2 0
9 .4 4
1 0 .3 6
11.02
11.48
1 1.7 7
10.6 3
9 .2 9
8 .1 4
7.01
6.01
5.09
4 .2 7
TIO -005
7 .1 8
1 0 .9 4
12.01
1 2.77
13.30
13.6 5
12.3 3
10.7 7
9 .4 3
8.12
6.97
5.90
4 .9 5
TIO -006
0 .2 5
0 .2 9
0.32
0 .3 4
0 .3 5
0 .3 2
0 .2 8
0.25
0.22
0 .1 9
0 .1 6
0 .1 3
TIO -00X
0 .6 3
0 .7 4
0.81
0 .8 6
0 .9 0
0 .8 2
0 .7 3
0 .6 4
0 .5 5
0 .4 8
0.41
0 .3 4
TIO -000
1.48
1.72
1.90
2.02
2.10
1.92
1.69
1.49
1.29
1.12
0 .9 5
0 .8 0
TIO-001
TIO -002
2.53
2.95
3 .2 5
3 .4 6
3 .6 0
3 .2 9
2.90
2 .5 6
2.22
1.91
1.63
1.37
4.01
4 .6 8
5 .1 4
5.48
5.71
5.21
4.60
4 .0 6
3.51
3 .0 3
2.58
2.17
TIO -003
6 .5 4
7 .6 3
8.39
8 .9 4
9.31
8.51
7 .5 0
6 .6 2
5.73
4 .9 5
4.21
3.55
TIO -004
7 .9 5
9 .2 7
1 0.2 0
1 0 .8 6
11.31
1 0.34
9.11
8 .0 4
6 .9 6
6.01
5.11
4.31
TIO -005
9 .2 2
10.7 5
11.8 2
12.59
13.11
1 1.98
1 0 .5 6
9 .3 2
8 .07
6.97
5.93
5.00
TIO -006
0 .1 7
0 .2 4
0 .2 8
0.31
0.33
0 .3 0
0 .2 7
0 .2 4
0.21
0.18
0 .1 6
0 .1 3
TIO -0 0 X
0 .4 4
0.61
0 .7 2
0.79
0 .8 4
0 .7 8
0 .7 0
0 .6 2
0 .5 4
0 .47
0 .4 0
0 .3 4
TIO -000
1.04
1.42
1.67
1.85
1.97
1.83
1.63
1.45
1.27
1.10
0 .9 4
0 .8 0
TIO-001
1 .78
2.44
2 .87
3 .1 6
3 .3 7
3 .1 3
2.79
2.49
2.17
1.88
1.61
1.36
TIO -002
2.82
3 .8 6
4 .5 4
5.01
5 .3 4
4 .9 6
4.42
3 .9 4
3 .4 4
2.98
2.55
2 .1 6
TIO -003
4.59
6.30
7.41
8 .17
8.71
8 .09
7.21
6.42
5.61
4 .8 7
4 .1 6
3 .5 3
TIO -004
5 .58
7 .6 6
9 .0 0
9 .9 3
1 0.58
9.83
8.76
7 .8 0
6.81
5.91
5 .0 6
4.28
TIO -005
6.47
8 .88
1 0.43
11.51
1 2.27
1 1.39
1 0.16
9 .0 5
7 .9 0
6 .8 6
5 .8 6
4.97
TIO -006
25
20
193
http://holodko.ru/
Condensing
d ew point
°C
54
45
40
35
30
26
194
http://holodko.ru/
Tem perature
bubble point
°C
C a p a city (k W ) V alve Type TI ... - N....
Evaporating Tem perature (°C)
R407C
C ag e Size
20
10
5
0
-5
-1 0
-15
-2 0
-2 5
0 .49
0 .5 2
0 .5 2
0 .5 3
0 .5 3
0.53
0 .4 6
0.38
0 .3 2
TIO -00X
1.27
1 .34
1.36
1.37
1.37
1.36
1.19
1.00
0 .8 3
TIO -000
3 .1 7
3 .3 5
3 .3 9
3.42
3 .4 2
3.41
2.99
2.49
2.07
TIO-001
5 .1 6
5.45
5.53
5.57
5.57
5.55
4 .8 6
4 .0 6
3.37
TIO -002
8.33
8.80
8.92
8.98
9 .0 0
8 .9 6
7.85
6 .5 5
5.44
TIO -003
13.58
14.35
14.5 5
1 4.65
14.67
14.61
12.80
1 0.69
8 .87
TIO -004
16.57
17.50
17.7 5
1 7.87
17.89
17.8 2
15.61
1 3 .0 4
1 0.82
TIO -005
19.11
2 0 .1 8
2 0 .4 6
2 0 .6 0
2 0.63
2 0 .5 5
18.00
1 5.03
1 2.47
TIO -006
0 .4 4
0 .4 9
0.51
0 .5 2
0.53
0 .5 3
0 .4 7
0 .3 9
0 .3 3
TIO -0 0 X
50
1.14
1.28
1.32
1.34
1.36
1.37
1.21
1.02
0 .8 5
TIO -000
2.86
3 .1 9
3.29
3 .3 6
3 .4 0
3 .4 2
3 .0 2
2.54
2.13
TIO-001
4 .6 6
5.19
5 .3 6
5.47
5 .5 4
5.58
4 .9 3
4 .1 4
3 .4 6
TIO -002
7.52
8.38
8.65
8.83
8.95
9.00
7 .9 5
6 .6 9
5.59
TIO -003
40
1 2.25
1 3 .6 6
14.1 0
14.40
1 4.58
14.67
1 2 .9 6
10.91
9.11
TIO -004
1 4.95
16.67
17.2 0
17.57
17.79
17.90
15.8 2
13.31
11.12
TIO -005
1 7 .2 4
19.22
19.8 3
2 0.25
2 0 .5 2
2 0 .6 4
18.2 4
1 5 .3 4
12.82
TIO -006
0 .4 0
0.47
0 .4 9
0 .5 0
0.51
0 .5 2
0 .4 6
0 .3 9
0.33
TIO -0 0 X
1.03
1.21
1.26
1.30
1.33
1.34
1.19
1.01
0.85
TIO -000
TIO-001
2.58
3 .0 2
3 .1 5
3 .2 5
3.32
3 .3 6
2.99
2.52
2.12
4 .2 0
4.91
5.14
5.30
5.41
5.47
4 .8 6
4.11
3 .4 5
TIO -002
6 .7 8
7 .9 3
8.29
8.55
8.73
8 .8 4
7 .8 5
6.63
5 .5 6
TIO -003
35
11.0 6
1 2.93
13.52
1 3 .9 4
1 4.23
14.41
12.7 9
10.81
9 .0 7
TIO -004
13.49
15.77
16.49
17.01
1 7 .3 6
17.58
15.61
13.19
1 1 .0 6
TIO -005
15.5 6
1 8.19
1 9.02
19.61
2 0 .0 2
2 0.27
1 8.0 0
15.21
1 2.75
TIO -006
0 .3 4
0 .4 3
0 .4 6
0.48
0 .4 9
0.50
0 .4 5
0 .3 8
0 .3 2
TIO -0 0 X
0 .8 8
1.11
1.18
1.24
1.28
1.30
1.16
0 .9 9
0 .8 3
TIO -000
2 .19
2.78
2 .9 6
3.09
3 .1 9
3 .2 5
2.91
2 .47
2.08
TIO-001
3 .5 7
4.53
4 .8 2
5 .0 4
5.20
5.30
4 .7 4
4 .0 2
3.39
TIO -002
30
5 .7 6
7.30
7 .7 8
8.13
8.39
8 .5 6
7 .6 4
6 .4 9
5.47
TIO -003
9 .3 9
11.91
1 2.69
1 3 .2 6
13.67
13.95
1 2.46
10.5 8
8.92
TIO -004
1 1 .4 6
1 4.53
15.48
16.1 8
16.68
1 7.02
15.21
12.91
1 0.88
TIO -005
13.2 2
1 6.75
17.85
1 8 .6 6
19.23
1 9.62
1 7.53
14.8 9
1 2 .5 4
TIO -006
0 .3 8
0.42
0 .4 4
0 .4 6
0 .4 8
0 .4 3
0.37
0.31
TIO -00X
0 .9 8
1.08
1.15
1.21
1.24
1.12
0 .9 6
0.81
TIO -000
2 .4 6
2.70
2.88
3.01
3.11
2.80
2.39
2.02
TIO-001
4.01
4 .4 0
4 .7 0
4.91
5.06
4 .5 5
3.89
3 .2 9
TIO -002
25
6 .4 7
7.11
7.58
7 .9 2
8.16
7 .3 5
6 .2 8
5.32
TIO -003
1 0.55
1 1.59
1 2.36
12.91
13.31
1 1.98
1 0.24
8.67
T IO -004
TIO -005
1 2.8 7
14.1 4
15.07
1 5.75
16.2 4
1 4.62
12.49
10.5 8
1 4 .8 4
16.31
1 7.38
1 8.17
18.72
1 6 .8 6
14.40
12.1 9
TIO -006
0 .3 7
0.40
0 .4 3
0.45
0.41
0 .3 5
0 .3 0
TIO -0 0 X
0 .9 5
1.04
1.11
1.16
1.06
0.91
0 .7 8
TIO -000
TIO-001
2.37
2.61
2.78
2.91
2.65
2.28
1.94
3 .8 6
4.25
4 .5 4
4 .7 4
4.31
3.71
3 .1 6
TIO -002
6 .2 3
6 .8 6
7 .3 2
7 .6 5
6 .9 6
6 .0 0
5.11
TIO -003
20
1 0 .1 6
1 1.19
1 1.93
12.4 7
11.35
9 .7 7
8.33
TIO -004
12.4 0
1 3.65
1 4.56
15.2 2
13.85
1 1.92
1 0.16
TIO -005
14.3 0
1 5 .7 4
16.79
17.5 5
15.97
13.75
11.71
TIO -006
Condensing
Tem perature
°C
C ap a city (kW ) V a lve Type TI ... - Z....
Evaporating Tem perature (°C)
R410A
Cage
Size
+ 15
+10
+5
0
-5
-10
-15
-2 0
-2 5
-30
-3 5
-40
-4 5
0 .5 3
0 .5 5
0 .5 7
0 .5 8
0.59
0.60
0 .5 3
0 .4 7
0 .4 0
0 .3 3
0.28
0.23
0 .2 0
1.38
1.44
1.49
1.52
1.54
1.56
1.39
1.21
1.03
0 .8 7
0 .7 3
0.61
0.51
TIO -000
3 .4 0
3 .5 5
3 .6 6
3 .7 4
3 .8 0
3 .8 4
3.41
2.98
2 .5 4
2 .1 4
1.79
1.49
1.25
TIO-001
TIO -0 0 X
5.64
5 .87
6 .0 6
6 .2 0
6 .2 9
6 .3 6
5.65
4 .9 4
4.21
3 .5 4
2 .9 6
2.48
2.08
TIO -002
9 .0 4
9.42
9 .7 2
9 .9 4
1 0.09
1 0.20
9 .0 6
7.92
6 .7 5
5.68
4 .7 5
3 .9 7
3 .3 3
TIO -003
1 4.79
15.41
15.8 9
16.2 5
16.51
1 6.67
1 4.82
1 2.94
11.03
9 .2 8
7 .7 6
6 .4 9
5 .4 4
TIO -004
1 7.98
18.73
19.32
1 9 .7 6
2 0 .0 7
2 0 .2 7
1 8.02
1 5.74
13.42
11.2 8
9 .4 4
7 .8 9
6 .6 2
TIO -005
2 0 .7 5
21.61
22.2 9
2 2 .7 9
2 3 .1 6
2 3 .3 9
2 0 .7 9
1 8.16
15.48
13.02
1 0.89
9.11
7 .6 3
TIO -006
0 .4 9
0 .5 3
0.55
0.58
0 .5 9
0.61
0 .5 4
0 .4 8
0.41
0.35
0 .2 9
0 .2 5
0.21
TIO -00X
1.28
1 .37
1 .44
1.50
1.54
1.58
1.41
1.24
1.07
0.90
0 .7 6
0 .6 4
0 .5 4
TIO -000
3 .1 4
3 .3 7
3 .5 5
3.69
3.80
3 .8 8
3 .4 8
3 .0 6
2.63
2.22
1.87
1.57
1.32
TIO-001
5 .20
5.58
5.88
6.11
6.29
6 .4 2
5 .7 6
5.07
4 .3 5
3 .6 8
3.10
2.60
2.19
TIO -002
8 .35
8.95
9 .4 3
9.81
10.09
10.30
9 .2 4
8.13
6 .9 8
5.91
4 .9 7
4 .18
3.52
TIO -003
1 3.65
1 4 .6 4
15.4 2
1 6 .0 4
16.50
16.85
15.11
13.3 0
11.41
9 .6 6
8.13
6.83
5.76
TIO -004
TIO -005
50
40
16.60
17.8 0
18.7 5
1 9.50
2 0 .0 6
2 0.48
18.37
16.1 7
13.8 8
1 1.75
9 .8 8
8.31
7.00
19.15
2 0 .5 4
2 1 .6 4
2 2 .5 0
2 3 .1 5
2 3 .6 4
21.2 0
18.6 6
16.01
1 3.55
1 1.40
9 .5 8
8 .07
TIO -006
0.45
0 .4 9
0 .5 3
0 .5 6
0 .5 8
0 .6 0
0 .5 4
0 .47
0.41
0 .3 5
0 .2 9
0 .2 5
0.21
TIO -0 0 X
1.17
1.28
1.38
1.45
1.51
1.55
1.40
1.23
1.06
0 .9 0
0 .7 6
0 .6 4
0 .5 4
TIO -000
2.87
3 .1 6
3.39
3 .5 7
3 .7 0
3.81
3 .4 4
3 .0 4
2.62
2.22
1.88
1.58
1.34
TIO-001
4 .7 5
5.23
5.61
5.91
6 .1 4
6.31
5.69
5.03
4 .3 4
3.68
3.11
2.62
2.21
TIO -002
TIO -003
35
7 .6 2
8.39
9.00
9.47
9 .8 4
1 0.12
9 .1 3
8 .07
6 .9 6
5.91
4 .9 9
4 .2 0
3 .5 5
1 2 .4 6
13.7 3
14.72
15.49
16.09
1 6.55
14.9 3
13.2 0
1 1.38
9 .6 6
8.15
6 .8 7
5.80
TIO -004
1 5.1 5
16.6 9
1 7.89
1 8.84
1 9.57
2 0 .1 2
18.1 5
16.0 5
1 3.83
11.75
9.91
8.35
7 .0 5
TIO -005
1 7.4 8
1 9 .2 6
2 0 .6 5
2 1.73
2 2.58
23.2 2
2 0 .9 4
18.5 2
1 5 .9 6
1 3.55
1 1.44
9 .6 4
8 .1 4
TIO -006
0 .3 9
0 .4 5
0 .4 9
0 .5 3
0.55
0.58
0 .5 2
0 .4 7
0 .4 0
0 .3 4
0 .2 9
0.25
0.21
TIO -0 0 X
1 .00
1.16
1.28
1.37
1.44
1.50
1.36
1.21
1.05
0 .8 9
0 .7 6
0 .6 4
0 .5 4
TIO -000
2.47
2 .8 6
3 .1 5
3 .3 7
3 .5 5
3.69
3.35
2.98
2.58
2 .20
1.86
1.57
1.33
TIO-001
4 .1 0
4 .7 3
5.21
5.59
5.88
6.10
5.55
4 .9 3
4 .2 7
3 .6 4
3.08
2.61
2.21
TIO -002
8 .3 6
8 .9 6
9.43
9.79
8.89
7.91
6 .8 5
5 .8 4
4 .9 4
4.18
3 .5 4
TIO -003
1 3.6 7
1 4 .6 6
1 5.42
16.01
1 4.54
1 2 .9 4
11.2 0
9 .5 5
8.09
6 .8 3
5.79
TIO -004
30
6 .5 7
7 .5 9
1 0.74
12.41
1 3.06
1 5.09
16.6 3
17.8 2
1 8.75
1 9.46
17.68
15.73
13.6 2
11.61
9 .8 3
8.31
7 .0 4
TIO -005
1 5.07
17.41
19.1 8
2 0 .5 6
2 1 .6 3
2 2 .4 6
2 0.40
18.15
15.71
13.4 0
1 1 .3 4
9 .5 9
8.12
TIO -006
0 .30
0.38
0 .4 4
0 .4 9
0 .5 2
0 .5 5
0.50
0.45
0 .3 9
0 .3 4
0 .2 9
0 .2 4
0.21
TIO -00X
0 .77
0.99
1.15
1.26
1.35
1.42
1.31
1.17
1.02
0 .8 7
0 .7 4
0 .6 3
0 .5 3
TIO -000
1.89
2.43
2.82
3.11
3 .3 3
3 .5 0
3.21
2.88
2.51
2.15
1.83
1.55
1.32
TIO-001
3 .1 3
4 .0 3
4 .67
5 .15
5.52
5.80
5.32
4 .7 7
4 .1 6
3 .5 6
3 .0 3
2.57
2 .18
TIO -002
TIO -003
25
5 .03
6 .4 6
7.49
8.26
8.85
9.31
8 .5 4
7 .6 5
6 .6 6
5.71
4.85
4.11
3 .4 9
8 .22
1 0.5 7
1 2 .2 4
13.50
14.47
1 5.22
1 3.97
12.51
10.9 0
9 .3 4
7.93
6 .7 3
5.71
TIO -004
1 0.00
12.8 5
14.8 9
16.42
17.60
18.51
1 6.98
15.2 2
13.2 5
1 1.35
9.65
8.18
6 .9 5
TIO -005
1 1.53
14.8 3
17.1 8
1 8.95
20.31
2 1 .3 6
1 9.59
1 7 .5 6
15.2 9
1 3.10
11.13
9 .4 4
8.01
TIO -006
0 .1 3
0 .2 8
0 .3 7
0 .4 3
0.48
0.51
0 .4 7
0 .4 3
0 .3 8
0 .3 2
0 .2 8
0 .2 4
0.20
TIO -0 0 X
0 .3 3
0 .7 4
0 .9 6
1.12
1.24
1.33
1.23
1.12
0 .9 8
0 .8 4
0 .7 2
0.61
0.52
TIO -000
0.82
1.82
2 .37
2 .7 6
3 .0 4
3 .2 6
3 .0 4
2.75
2.41
2.08
1.77
1.51
1.29
TIO-001
1.35
3 .0 2
3 .9 3
4 .5 7
5 .0 4
5.41
5.03
4.55
3 .9 9
3 .4 4
2 .9 4
2.50
2.13
TIO -002
2 .17
4 .8 4
6 .3 0
7 .3 2
8.09
8 .67
8 .0 6
7.30
6.40
5.52
4.71
4.01
3 .4 2
TIO -003
3 .5 5
7.91
10.30
1 1.98
1 3.23
1 4.18
13.1 8
11.93
10.47
9 .0 2
7 .7 0
6 .5 6
5.59
TIO -004
4 .3 2
9.62
12.52
1 4 .5 6
1 6.08
1 7 .2 4
16.0 3
14.51
12.73
10.97
9 .3 6
7 .9 7
6 .7 9
TIO -005
4 .9 8
11.10
14.45
16.80
1 8.55
1 9.89
18.5 0
1 6 .7 4
14.68
12.65
10.81
9 .2 0
7 .8 4
TIO -006
20
195
http://holodko.ru/
Condensing
Tem perature
°C
C a p a city (k W ) V alve Type TI ... - S . .
Evaporating Tem perature (°C)
R507
Cage
Size
30
20
10
5
0
-5
-1 0
-15
-2 0
-2 5
-30
-3 5
-40
-4 5
0 .2 9
0 .3 4
0 .3 6
0 .37
0.37
0 .3 7
0 .3 7
0 .3 2
0 .2 7
0 .2 3
0 .1 9
0 .1 6
0.13
0.11
TIO -0 0 X
0 .7 3
0 .8 5
0.91
0 .9 2
0.93
0.93
0 .9 2
0 .8 0
0 .6 8
0 .5 8
0 .4 9
0 .4 0
0.33
0 .2 6
TIO -000
1.68
1.95
2.09
2.12
2.13
2.13
2.11
1.83
1.57
1.33
1.12
0 .9 2
0 .7 6
0.61
TIO-001
2 .85
3.31
3 .5 4
3 .5 9
3 .6 2
3.61
3.58
3.10
2 .6 6
2 .2 6
1.89
1.57
1.28
1.03
TIO -002
4 .5 4
5 .2 6
5.63
5.71
5 .75
5 .7 4
5.69
4.93
4 .2 3
3 .5 9
3.01
2.49
2 .0 4
1.64
TIO -003
50
7.39
8 .57
9 .1 7
9.31
9 .3 6
9 .3 5
9 .2 8
8.04
6.88
5.85
4 .9 0
4 .0 6
3 .3 2
2.67
TIO -004
9.00
1 0.44
1 1 .1 6
1 1.33
1 1.40
1 1.39
1 1.30
9.79
8.38
7.12
5.97
4 .9 4
4 .0 4
3 .2 6
TIO -005
10.39
12.05
12.89
1 3.08
1 3 .1 6
1 3.15
1 3 .0 4
11.31
9.68
8.22
6.89
5.70
4 .6 6
3 .7 6
TIO -006
0.21
0.31
0 .3 6
0 .3 7
0 .3 8
0 .3 9
0 .3 9
0 .3 4
0 .3 0
0 .2 6
0.22
0 .1 8
0 .1 5
0 .1 2
TIO -00X
0 .5 2
0 .7 7
0.89
0.93
0 .9 6
0 .9 7
0 .9 8
0 .8 6
0 .7 5
0 .6 4
0 .5 4
0 .4 6
0 .3 8
0.31
TIO -000
1 .20
1 .77
2.05
2.14
2.20
2.23
2.25
1.98
1.71
1.47
1.25
1.05
0 .87
0.71
TIO-001
2 .0 4
3 .0 0
3 .4 8
3.63
3.73
3.79
3 .8 2
3 .3 5
2.91
2.50
2.12
1.78
1.47
1.20
TIO -002
3 .2 4
4 .7 6
5 .5 4
5.77
5 .93
6.02
6.07
5 .33
4 .6 2
3 .9 7
3 .3 7
2 .82
2.34
1.91
TIO -003
40
5.28
7 .7 6
9 .0 2
9 .4 0
9 .6 6
9.81
9.88
8.68
7 .5 3
6 .4 7
5 .49
4 .6 0
3 .8 0
3.10
TIO -004
6 .4 3
9 .4 5
10.9 9
11.4 5
1 1 .7 6
11.95
1 2.04
10.57
9 .1 7
7 .8 8
6 .6 8
5.60
4 .6 3
3 .7 8
TIO -005
7 .42
10.91
12.6 8
13.2 2
13.5 8
13.7 9
13.90
12.20
10.59
9 .1 0
7 .7 2
6 .4 6
5.35
4 .3 6
TIO -006
0 .2 7
0 .3 4
0 .3 6
0 .3 7
0 .3 8
0 .3 9
0.35
0.30
0 .2 6
0 .2 2
0 .1 9
0 .1 6
0 .1 3
TIO -00X
0 .67
0 .8 4
0 .9 0
0 .9 4
0 .9 6
0 .9 8
0 .8 6
0.75
0.65
0 .5 6
0 .4 7
0 .3 9
0 .3 2
TIO -000
TIO-001
1.53
1.94
2 .0 6
2.15
2.21
2.25
1.99
1.74
1.50
1.28
1.08
0 .9 0
0 .7 3
2.60
3.29
3.50
3 .6 5
6 .7 5
3.81
3 .3 7
2 .9 4
2.55
2 .17
1.83
1.52
1.25
TIO -002
4 .1 4
5.23
5.56
5.80
5 .9 6
6 .0 6
5 .3 6
4 .6 8
4 .0 5
3.45
2.90
2.41
1.98
TIO -003
35
6 .7 4
8.52
9 .0 6
9.45
9.71
9 .8 7
8.73
7 .6 2
6 .5 9
5.62
4.73
3.93
3 .2 3
TIO -004
8.21
10.3 8
11.0 4
11.50
11.82
12.0 2
10.6 3
9 .2 8
8.03
6 .8 4
5.76
4.79
3.93
TIO -005
9 .4 7
11.9 8
1 2 .7 4
13.28
13.65
1 3.87
12.2 7
1 0.7 2
9 .2 7
7 .9 0
6 .6 5
5.53
4 .5 4
TIO -006
0 .2 0
0.31
0 .3 4
0 .3 6
0 .37
0 .38
0 .3 4
0 .3 0
0 .2 6
0 .2 2
0 .1 9
0 .1 6
0.13
TIO -0 0 X
0 .5 0
0 .7 6
0 .8 4
0 .8 9
0.93
0 .9 6
0 .8 5
0 .7 5
0 .6 5
0 .5 6
0.47
0 .4 0
0 .3 3
TIO -000
1.16
1.75
1.93
2.05
2 .1 4
2.20
1.96
1.73
1.50
1.29
1.09
0.91
0 .7 5
TIO-001
1.96
2.98
3 .27
3 .48
3.63
3 .7 3
3 .3 3
2.93
2.55
2.19
1.85
1.54
1.27
TIO -002
3 .1 2
4 .7 3
5.19
5.53
5.77
5.93
5.29
4 .6 6
4 .0 5
3 .4 7
2 .9 4
2.45
2.02
TIO -003
7.71
8 .4 6
9.01
9.40
9 .6 6
8.62
7 .5 9
6 .6 0
5 .6 6
4 .7 9
4 .0 0
3.29
TIO -004
30
5 .08
6 .1 8
9 .3 8
1 0.30
1 0.97
1 1.44
1 1.76
10.50
9 .2 4
8 .0 4
6 .8 9
5.83
4 .8 7
4.01
TIO -005
7 .1 4
1 0.83
1 1.90
1 2 .6 6
13.21
13.58
12.12
1 0.67
9 .2 8
7 .9 6
6 .7 3
5.62
4 .6 3
TIO -006
TIO -00X
0 .2 6
0 .3 0
0 .3 3
0 .3 5
0 .3 7
0 .33
0.29
0 .2 6
0 .2 2
0 .1 9
0 .1 6
0 .1 3
0 .6 4
0 .7 5
0 .8 2
0 .8 8
0 .9 2
0.83
0.73
0 .6 4
0 .5 6
0 .4 7
0 .4 0
0 .3 3
TIO -000
1.48
1.72
1.90
2.02
2.11
1.90
1.69
1.48
1.28
1.09
0.91
0 .7 5
TIO-001
2 .50
2.92
3.21
3 .4 3
3 .5 8
3 .2 3
2 .87
2.51
2.17
1.84
1.55
1.28
TIO -002
TIO -003
25
3.98
4 .6 4
5.11
5.45
5.68
5.13
4 .5 6
3 .9 9
3.45
2.93
2 .4 6
2.03
6 .4 8
7 .5 6
8.32
8 .87
9 .2 6
8 .3 6
7 .4 2
6.51
5.61
4 .77
4.01
3 .3 2
TIO -004
7 .8 9
9.20
10.13
10.80
1 1.28
1 0.18
9 .0 4
7 .9 2
6 .8 4
5.82
4.88
4 .0 4
TIO -005
9.11
10.6 3
11.70
12.47
13.02
1 1 .7 6
1 0 .4 4
9 .1 5
7 .8 9
6.71
5.63
4 .6 6
TIO -006
0 .1 8
0 .2 5
0.29
0.32
0 .3 4
0.31
0 .2 8
0 .2 5
0 .2 2
0 .1 9
0 .1 6
0.13
TIO -0 0 X
0 .4 5
0 .6 2
0 .7 3
0.80
0 .8 6
0 .7 9
0.71
0 .6 3
0 .5 4
0 .4 6
0 .3 9
0.33
TIO -000
1 .04
1.42
1 .67
1 .85
1.97
1.81
1.63
1.44
1.25
1.07
0 .9 0
0 .7 5
TIO-001
1 .76
2.41
2 .8 4
3 .1 3
3 .3 4
3.07
2 .76
2 .4 4
2.12
1.81
1.53
1.27
TIO -002
20
196
http://holodko.ru/
—
2.80
3 .8 4
4.51
4 .9 8
5.32
4.88
4.38
3.88
3 .3 7
2 .88
2.43
2.02
TIO -003
4 .57
6 .2 5
7 .3 4
8.11
8 .6 6
7 .9 5
7 .1 4
6.31
5.49
4 .7 0
3 .9 6
3 .2 9
TIO -004
5.56
7.61
8 .9 4
9 .8 8
10.5 5
9 .6 8
8.69
7.69
6.68
5.72
4 .8 2
4.01
TIO -005
6 .42
8.78
10.3 2
11.4 0
12.1 8
1 1.1 7
1 0 .0 4
8.88
7.71
6.60
5 .57
4 .6 3
TIO -006
Condensing
Tem perature
°C
C a p a city (k W ) V alve Type TI ... - H ....
Evaporating Tem perature (°C)
R22
Cage
Size
30
20
10
5
0
-5
-1 0
-15
-2 0
-2 5
-30
-3 5
-40
-4 5
0 .3 8
0.45
0.50
0.51
0 .5 2
0 .5 3
0 .5 3
0 .4 6
0.41
0.35
0.30
0 .2 6
0 .2 2
0 .1 9
0 .9 8
1 .17
1.29
1.33
1.35
1.38
1.36
1.20
1.05
0.91
0.78
0 .6 6
0 .5 7
0 .4 8
TIO -000
2.40
2 .8 6
3 .1 6
3 .2 6
3.32
3 .3 9
3 .3 3
2.95
2.58
2 .2 4
1.91
1.62
1.40
1.19
TIO-001
4 .0 3
4 .7 8
5.29
4.47
5 .56
5.67
5.57
4 .9 5
4 .3 2
3 .7 5
3 .2 0
2.72
2.35
2.00
TIO -002
6.41
7 .6 4
8.42
8.70
8.85
9.03
8 .87
7 .8 8
6 .8 7
5.97
5 .10
4 .3 4
3.45
3.18
TIO -003
1 0.50
12.51
1 3.79
1 4 .2 6
1 4.50
14.80
14.53
12.90
1 1 .2 6
9 .7 9
8.35
7 .1 0
6 .1 4
5.21
TIO -004
1 2.80
1 5 .2 4
16.81
1 7.37
1 7.67
18.03
17.70
15.72
13.7 2
11.9 3
10.1 8
8 .6 6
7 .4 9
6 .3 5
TIO -005
1 4.76
1 7.58
1 9.38
2 0 .0 4
2 0 .3 8
2 0 .7 9
2 0.42
18.1 4
15.82
1 3 .7 6
1 1 .7 4
9 .9 8
8 .6 4
7 .3 2
TIO -006
0 .2 4
0.37
0 .4 4
0 .4 6
0 .4 8
0 .5 0
0 .4 9
0 .4 4
0.39
0 .3 4
0 .2 9
0 .2 5
0 .2 2
0 .1 8
TIO -00X
0.61
0.95
1.14
1.20
1.25
1.29
1 .27
1 .15
1.01
0.88
0 .7 5
0 .6 4
0 .5 6
0 .4 7
TIO -000
1.51
2.33
2.78
2 .9 4
3 .0 7
3 .1 7
3 .1 2
2.82
2.47
2 .16
1.85
1.58
1.38
1.17
TIO-001
TIO -002
TIO -00X
50
2.52
3 .9 0
4 .6 6
4.92
5.13
5.30
5.23
4 .7 3
4 .1 4
3 .6 2
3.10
2.65
2.31
1.96
4 .0 2
6.21
7.42
7 .8 4
8.18
8 .4 4
8.33
7 .5 3
6 .5 9
5 .7 6
4 .9 4
4.23
3.68
3 .1 2
TIO -003
6 .5 9
1 0.17
1 2 .1 6
12.85
13.39
13.83
1 3.65
1 2.33
1 0.79
9 .4 4
8.10
6.92
6.03
5.12
TIO -004
8.03
1 2.40
1 4.82
15.65
16.32
16.85
1 6.63
1 5.03
1 3.15
1 1.50
9 .8 7
8 .4 4
7.35
6.23
TIO -005
9 .2 6
1 4.30
1 7.09
1 8.05
18.82
19.43
19.18
1 7.33
1 5.17
1 3 .2 6
1 1.38
9 .7 3
8.48
7.19
TIO -006
0 .3 0
0 .4 0
0 .4 3
0 .4 5
0.47
0.48
0 .4 3
0 .3 8
0 .3 3
0 .2 9
0 .2 4
0.21
0.18
TIO -0 0 X
0 .7 9
1.03
1.11
1.17
1.22
1.23
1.11
0 .9 8
0 .8 5
0 .7 4
0 .6 3
0 .5 5
0 .4 7
TIO -000
1.93
2.53
2.72
2.88
3 .0 0
3.01
2.71
2.40
2.09
1.81
1.55
1.35
1.15
TIO-001
3 .2 4
4 .2 3
4 .5 6
4 .8 2
5.02
5.03
4 .5 4
4.02
3.50
3 .0 3
2.60
2.27
1 .93
TIO -002
5.16
6 .7 4
7 .2 7
7 .6 8
8.00
8.01
7 .2 3
6.40
5.57
4 .8 3
4 .1 4
3.61
3 .0 7
TIO -003
TIO -004
40
35
8.45
1 1.04
1 1.90
1 2.58
13.11
1 3.13
1 1.85
10.49
9.13
7.92
6 .7 8
5.92
5.03
1 0.30
1 3.46
14.50
1 5.32
1 5.97
1 6.00
1 4 .4 4
1 2.78
11.12
9.65
8.27
7.21
6 .1 3
TIO -005
1 1.87
1 5.52
16.73
1 7.67
1 8.42
1 8.45
1 6.65
1 4 .7 4
1 2.83
11.13
9.53
8.32
7 .0 7
TIO -006
0.21
0 .3 4
0.38
0.41
0 .4 4
0 .4 4
0.41
0 .3 6
0.31
0 .2 7
0 .2 4
0.21
0 .1 8
TIO -0 0 X
0 .5 5
0 .8 9
0.99
1.07
1.13
1.15
1.05
0.93
0.81
0 .7 0
0.61
0 .5 3
0 .4 6
TIO -000
1.35
2.19
2 .4 4
2.63
2.78
2.81
2 .57
2 .29
1.99
1.72
1.50
1.31
1.12
TIO-001
2 .2 6
3.67
4.09
4.41
4 .6 6
4.71
4 .3 0
3 .8 3
3.33
2.88
2.52
2.20
1.88
TIO -002
4.01
3.51
2.99
TIO -003
6 .57
5.75
4 .9 0
TIO -004
TIO -005
30
3 .5 9
5.84
6.51
7.02
7 .4 2
7 .5 0
6 .8 4
6 .1 0
5.30
4.59
5.89
9 .5 6
10.6 6
11.50
12.1 6
12.2 8
11.21
10.0 0
8.68
7.51
7 .1 8
1 1.65
12.99
14.02
14.81
14.9 7
1 3 .6 6
12.1 8
10.5 8
9 .1 6
8.01
7.01
5.98
8.28
1 3 .4 4
1 4.98
16.1 6
17.08
17.2 6
1 5 .7 6
14.0 5
12.2 0
1 0 .5 6
9 .2 4
8.08
6.89
TIO -006
0 .2 8
0 .3 3
0 .3 8
0.40
0.41
0 .3 8
0 .3 4
0 .3 0
0 .2 6
0 .2 3
0 .2 0
0 .17
TIO -0 0 X
0.71
0 .8 5
0 .9 7
1.04
1.07
0.98
0 .8 8
0 .7 8
0 .6 8
0 .5 9
0.51
0 .4 4
TIO -000
1 .76
2.10
2.37
2 .5 6
2.62
2.40
2 .1 6
1.91
1.67
1.44
1.26
1.08
TIO-001
2 .9 4
3.51
3 .9 7
4 .2 9
4 .3 9
4.03
3.62
3.21
2.79
2.42
2.12
1.81
TIO -002
25
4 .6 8
5.59
6 .3 3
6 .8 4
7 .0 0
6.41
5 .77
5.11
4 .4 5
3 .8 5
3 .3 7
2 .88
TIO -003
7.67
9 .1 6
1 0 .3 6
1 1.20
1 1 .4 6
1 0.50
9 .4 6
8 .37
7.29
6.31
5.52
4 .7 2
TIO -004
TIO -005
9.35
1 1.16
1 2.63
1 3 .6 4
1 3 .9 6
1 2.80
1 1.52
10.19
8.89
7 .6 9
6 .7 3
5.75
10.79
12.88
1 4.57
1 5 .7 4
16.11
1 4 .7 6
1 3.29
11.7 6
10.25
8 .87
7 .7 6
6 .6 4
TIO -006
0.18
0 .2 6
0.31
0 .3 5
0 .3 8
0 .3 5
0 .3 2
0 .2 8
0.25
0.22
0 .1 9
0 .1 6
TIO -0 0 X
0 .4 5
0.67
0.81
0.91
0 .9 7
0.91
0 .8 3
0 .7 3
0 .6 4
0 .5 6
0.49
0 .4 2
TIO -000
1.12
1.65
2.00
2.24
2.38
2.22
2.03
1.79
1.58
1.37
1.21
1.04
TIO-001
1.87
2.77
3 .3 4
3 .7 6
3.98
3 .7 2
3 .3 9
3 .0 0
2.65
2.30
2.02
1.74
TIO -002
20
2.98
4.41
5.33
5.99
6 .3 4
5.92
5.40
4 .7 8
4 .2 2
3 .6 6
3 .2 2
2 .77
TIO -003
4 .8 8
7 .2 2
8.72
9 .8 0
10.38
9.70
8.85
7 .8 4
6.91
6 .0 0
5.28
4 .5 4
TIO -004
5.95
8.80
1 0.63
1 1.95
12.65
11.83
10.79
9 .5 5
8.42
7.31
6 .4 4
5.53
TIO -005
6 .8 6
1 0.15
1 2 .2 6
1 3.78
1 4.59
1 3.64
1 2.44
11.02
9 .7 2
8.43
7 .4 2
6 .3 8
TIO -006
197
http://holodko.ru/
Thermo™-Expansion Valve Series TX3
For OEM use, hermetic design
Features
•
Hermetic design with solder connections
•
Internal or external equalizer
•
External superheat adjustment
•
Large diaphragm eliminates disturbances to the valve and
provides smoother valve control
•
Very compact size
•
Version with internal check valve eliminates external check
valve for heat pump applications
•
Capillary tube length 1.5m
•
PS: 45bar. TS: -45 ... +120°C
•
Packaging units with 24 pieces, no single packs
MOP
MOP
(bar)
Upper limit of Evaporating Temperature Range
R134a
R22
R407C
2.3
3.3
R404A
R410A
-18°C
R507
-18.7°C
+11°C
6.4
+13°C
+14.5°C
12.9
+17°C
Pressures are given in gauge pressure.
Selection Charts
R134a
less MOP
with Standard-MOP
Nominal
Capacity
Type
Part No.
Type
Part No.
0.6
TX3-M01
801765M
TX3-M11
TX3-M12
1.8
TX3-M02
801766M
2.8
TX3-M03
801767M
4.0
TX3-M04
801768M
1.8
TX3-M22
801769M
TX3-M32
Equalizer
Inlet x Outlet
Solder/ODF
801777M
Internal
1/4“ x 3/8“
801778M
Internal
1/4“ x 3/8“
Internal
1/4“ x 3/8“
Internal
3/8“ x 1/2“
801781M
Ext. 1/4“
1/4“ x 3/8“
2.8
TX3-M23
801770M
TX3-M33
801782M
Ext. 1/4“
1/4“ x 3/8“
4.0
TX3-M24
801771M
TX3-M34
801783M
Ext. 1/4“
3/8“ x 1/2“
6.1
TX3-M25
801772M
TX3-M35
801784M
Ext. 1/4“
3/8“ x 1/2“
8.3
TX3-M26
801773M
TX3-M36
801785M
Ext. 1/4“
3/8“ x 1/2“
10.2
TX3-M27
801774M
TX3-M37
801786M
Ext. 1/4“
1/2“ x 5/8“
12.1
TX3-M28
801775M
TX3-M38
801787M
Ext. 1/4“
1/2“ x 5/8“
16.5
TX3-M29
801776M
TX3-M39
801788M
Ext. 1/4“
1/2“ x 5/8“
Equalizer
Inlet x Outlet
Solder/ODF
R22
less MOP
with Standard-MOP
Nominal
Capacity
Type
Part No.
Type
Part No.
5.2
TX3-H24
801741M
TX3-H34
801750M
Ext. 1/4“
3/8“ x 1/2“
TX3-H35
801751M
Ext. 1/4“
3/8“ x 1/2“
Ext. 1/4“
3/8“ x 1/2“
Ext. 1/4“
1/2“ x 5/8“
Ext. 1/4“
1/2“ x 5/8“
7.8
TX3-H25
801742M
10.7
TX3-H26
801743M
15.6
TX3-H28
801745M
21.3
TX3-H29
801746M
198
http://holodko.ru/
—
TX3-H39
801755M
R404A / R507
less MOP
with Standard-MOP
Nominal
Capacity
Type
Part No.
0.6
TX3-S21
Equalizer
Inlet x Outlet
Solder/ODF
801865M
Ext. 1/4“
1/4“ x 3/8“
Type
Part No.
1.6
TX3-S22
801866M
Ext. 1/4“
1/4“ x 3/8“
2.5
TX3-S23
801867M
Ext. 1/4“
1/4“ x 3/8“
3.7
TX3-S24
801868M
Ext. 1/4“
3/8“ x 1/2“
5.5
TX3-S25
801869M
Ext. 1/4“
3/8“ x 1/2“
7.6
TX3-S26
801870M
Ext. 1/4“
3/8“ x 1/2“
9.2
TX3-S27
801871M
Ext. 1/4“
1/2“ x 5/8“
11.0
TX3-S28
801872M
Ext. 1/4“
1/2“ x 5/8“
15.0
TX3-S29
801873M
Ext. 1/4“
1/2“ x 5/8“
Nominal
Capacity
Type
Equalizer
Inlet x Outlet
Solder/ODF
TX3-S34
801877M
R410A
less MOP
with Standard-MOP
Part No.
Type
Part No.
2.8
TX3-Z32
801942M
Ext. 1/4“
1/4“ x 3/8“
4.3
TX3-Z33
801943M
Ext. 1/4“
1/4“ x 3/8“
6.3
TX3-Z34
801944M
Ext. 1/4“
3/8“ x 1/2“
9.4
TX3-Z35
801945M
Ext. 1/4“
3/8“ x 1/2“
12.9
TX3-Z36
801946M
Ext. 1/4“
3/8“ x 1/2“
15.8
TX3-Z37
801947M
Ext. 1/4“
1/2“ x 5/8“
18.8
TX3-Z38
801948M
Ext. 1/4“
1/2“ x 5/8“
Equalizer
Inlet x Outlet
Solder/ODF
Internal
1/4“ x 3/8“
R407C
less MOP
with Standard-MOP
Nominal
Capacity
Type
Part No.
0.9
TX3-N01
801813M
2.5
TX3-N02
801814M
TX3-N12
801827M
Internal
1/4“ x 3/8“
3.9
TX3-N03
801815M
TX3-N13
801828M
Internal
1/4“ x 3/8“
2.5
TX3-N22
801818M
TX3-N32
801831M
Ext. 1/4“
1/4“ x 3/8“
3.9
TX3-N23
801819M
TX3-N33
801832M
Ext. 1/4“
1/4“ x 3/8“
5.6
TX3-N24
801820M
TX3-N34
801833M
Ext. 1/4“
3/8“ x 1/2“
8.4
TX3-N25
801821M
TX3-N35
801834M
Ext. 1/4“
3/8“ x 1/2“
11.6
TX3-N26
801822M
TX3-N36
801835M
Ext. 1/4“
3/8“ x 1/2“
14.2
TX3-N27
801823M
TX3-N37
801836M
Ext. 1/4“
1/2“ x 5/8“
16.9
TX3-N28
801824M
TX3-N38
801837M
Ext. 1/4“
1/2“ x 5/8“
23.0
TX3-N29
801825M
TX3-N39
801838M
Ext. 1/4“
1/2“ x 5/8“
Equalizer
Inlet x Outlet
Solder/ODF
Ext. 1/4“
1/4“ x 3/8“
Ext. 1/4“
3/8“ x 1/2“
Type
Part No.
R407C for heat pump applications
less MOP
Nominal
Capacity
Type
Part No.
3.9
TX3-N63
806801M
5.6
TX3-N64
806802M
8.4
TX3-N65
806803M
11.6
TX3-N66
806804M
14.2
TX3-N67
16.9
TX3-N68
23.0
TX3-N69
Adjustable with internal check valve
and special liquid charge for heat pump
applications
Ext. 1/4“
3/8“ x 1/2“
Ext. 1/4“
3/8“ x 1/2“
806805M
Ext. 1/4“
1/2“ x 5/8“
806806M
Ext. 1/4“
1/2“ x 5/8“
806807M
Ext. 1/4“
1/2“ x 5/8“
Nominal capacity (Qn) is based on the following conditions:
Refrigerant
Evaporating temperature
R407C
+4°C dew point
others
+4°C
Condensing temperature
+38°C bubble p.
+43°C dew point
+38°C
Subcooling
1K
Valve selection for other operating conditions see
page 204 or use the Selection Tool
(download from www.emersonclimate.eu).
1K
199
http://holodko.ru/
Thermo™-Expansion Valve Series TX6
Hermetic design
Features
•
Balanced port design for constant superheat operation over
a wide application range under variation of condensing
pressure
•
Hermetic monobloc design with solder connections for
minimal leakage
•
Large diaphragm eliminates disturbances to the valve and
provides smoother and consistent valve control
•
Tailored charges for different applications
•
External equalizer
•
External superheat adjustment
•
PS: TX6-H/N/M/Sxx : 31bar. TX6-Zxx: 42bar
•
TS: -45 ... +65°C
•
No CE marking according art. 3.3 PED 97/23 EC
Standard MOP
Refrigerant
MOP
Evaporating temperature
range
Code
(bar)
°C
R134a
M1
3.8
+14
-45 .. +10°C
R22
H1
6.9
+15
-45 .. +12°C
R407C
N1
6.9
+17
-45 .. +14°C
R410A
Z1
12.1
+16
-45 .. +15°C
Note: All temperatures are saturated/dew point. Pressures are given in gauge pressure.
Selection Charts
R134a
less MOP
with Standard-MOP
Nominal
Capacity QnkW
Type
Part No.
Type
Part No.
10.3
TX6 - M02
801 543
TX6 - M12
801 547
12 mm x 16 mm
10.3
TX6 - M02
801 541
TX6 - M12
801 545
1/2“ x 5/8“
18.4
TX6 - M03
801 544
TX6 - M13
801 548
12 mm x 16 mm
Connection straight through Solder/ODF
18.4
TX6 - M03
801 542
TX6 - M13
801 546
1/2“ x 5/8“
25.6
TX6 - M04
801 569
TX6 - M14
801 577
16 mm x 22 mm
25.6
TX6 - M04
801 565
TX6 - M14
801 573
5/8“ x 7/8“
32.5
TX6 - M05
801 570
TX6 - M15
801 578
16 mm x 22 mm
32.5
TX6 - M05
801 566
TX6 - M15
801 574
5/8“ x 7/8“
48.1
TX6 - M06
801 571
TX6 - M16
801 579
22 mm x 28 mm
48.1
TX6 - M06
801 567
TX6 - M16
801 575
7/8“ x 1-1/8“
62.8
TX6 - M07
801 572
TX6 - M17
801 580
22 mm x 28 mm
62.8
TX6 - M07
801 568
TX6 - M17
801 576
7/8“ x 1-1/8“
Nominal capacity (Qn) is based on the following conditions:
Refrigerant
R407C
R22, R134a,
R410A
200
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Evaporating temperature
Condensing temperature
Subcooling
+4°C dew
point
+38°C bubble p.
+43°C dew point
1K
+4°C
+38°C
1K
Valve selection for other operating conditions see
page 204 or use the Selection Tool
(download from www.emersonclimate.eu).
R407C
less MOP
with Standard-MOP
Nominal Capacity
Q KW
Type
Part No.
Type
Part No.
14.4
TX6 - N02
801 651
TX6 - N12
801 655
12 mm x 16 mm
14.4
TX6 - N02
801 653
TX6 - N12
801 534
1/2“ x 5/8“
25.6
TX6 - N03
801 652
TX6 - N13
801 656
12 mm x 16 mm
25.6
TX6- N03
801 654
TX6 - N13
801 535
1/2“ x 5/8“
35.7
TX6- N04
801 659
TX6 - N14
801 667
16 mm x 22 mm
35.7
TX6- N04
801 663
TX6 - N14
801 536
5/8“ x 7/8
45.2
TX6- N05
801 660
TX6 - N15
801 668
16 mm x 22 mm
Connection straight through Solder/ODF
45.2
TX6- N05
801 664
TX6 - N15
801 537
5/8“ x 7/8
66.9
TX6- N06
801 661
TX6 - N16
801 669
22 mm x 28 mm
66.9
TX6- N06
801 665
TX6 - N16
801538
7/8“x 1-1/8“
87.3
TX6- N07
801 662
TX6 - N17
801 670
22 mm x 28 mm
87.3
TX6- N07
801 666
TX6 - N17
801 539
7/8“x 1-1/8“
Nominal Capacity
Q KW
Type
Part No.
Type
Part No.
13.3
TX6 - H02
801 551
TX6 - H12
801 555
R22
less MOP
with Standard-MOP
Connection straight through Solder/ODF
12 mm x 16 mm
13.3
TX6 - H02
801 549
TX6 - H12
801 553
1/2“ x 5/8“
23.7
TX6- H03
801 552
TX6 - H13
801 556
12 mm x 16 mm
23.7
TX6- H03
801 550
TX6 - H13
801 554
1/2“ x 5/8“
33.0
TX6- H04
801 585
TX6 - H14
801 593
16 mm x 22 mm
33.0
TX6- H04
801 581
TX6 - H14
801 589
5/8“ x 7/8
41.8
TX6- H05
801 586
TX6 - H15
801 594
16 mm x 22 mm
41.8
TX6- H05
801 582
TX6 - H15
801 590
5/8“ x 7/8
61.9
TX6- H06
801 587
TX6 - H16
801 595
22 mm x 28 mm
61.9
TX6- H06
801 583
TX6 - H16
801 591
7/8“x 1-1/8“
80.8
TX6- H07
801 588
TX6 - H17
801 596
22 mm x 28 mm
80.8
TX6- H07
801 584
TX6 - H17
801 592
7/8“x 1-1/8“
Nominal Capacity
Q KW
Type
Part No.
Type
Part No.
16.0
-
-
TX6 - Z12
801 510
12 mm x 16 mm
16.0
-
-
TX6 - Z12
801 511
1/2“ x 5/8“
28.0
-
-
TX6 - Z13
801 512
12 mm x 16 mm
801 513
1/2“ x 5/8“
801 514
16 mm x 22 mm
R410A
less MOP
with Standard-MOP
Connection straight through Solder/ODF
28.0
-
-
TX6 - Z13
40.0
-
-
TX6 - Z14
40.0
-
-
TX6 - Z14
801 515
5/8“ x 7/8
50.0
-
-
TX6 - Z15
801 516
16 mm x 22 mm
50.0
-
-
TX6 - Z15
801 517
5/8“ x 7/8
74.0
-
-
TX6 - Z16
801 518
22 mm x 28 mm
74.0
-
-
TX6 - Z16
801 519
7/8“x 1-1/8“
801 520
22 mm x 28 mm
801 521
7/8“x 1-1/8“
97.0
-
-
TX6 - Z17
97.0
-
-
TX6 - Z17
Nominal capacity (Qn) is based on the following conditions:
Refrigerant
R407C
R22, R134a,
R410A
Evaporating temperature
Condensing temperature
Subcooling
+4°C dew
point
+38°C bubble p.
+43°C dew point
1K
+4°C
+38°C
1K
Valve selection for other operating conditions see
page 204 or use the Selection Tool
(download from www.emersonclimate.eu).
201
http://holodko.ru/
Thermo™-Expansion Valve Series T
Exchangeable Power Assemblies and Orifices
Features
•
Modular design for economical logistics and easy assembly
and servicing
•
Very good stability is attained because of the large forces
generated by the large diaphragm diameter
•
High quality materials and processes for high reliability and
long lifetime
•
Superior partial load performance due to double seat orifice
design (TJRE, TERE, TIRE & THRE)
•
Biflow capability for applications in heat pumps
•
Capillary tube length 1.5 m (TCLE, TJRE) and 3m (TERE, TIRE
& THRE)
•
PS: 31 bar. TS: -45 ... +65°C
•
No CE marking according art. 3.3 PED 97/23 EC
TCLE
Type Code
i i A A
V alve Series
A
External Equalizer
C a p a c ity C ode ----------Refrigerant C o d e ----------C h arg e C ode
M OP C ode
----------Flange S ty le
----------W L= A n g le S tyle
DL = S tra ig h t th ro u g h
C o n n e ctio n
Selection Chart for Orifices
R134a
TJRE
TERE
TIRE
THRE
Type
Nominal
Capacity
kW
Type
Nominal Ca­
pacity kW
Type
Nominal Ca­
pacity kW
Orifice
25 MW
1.5
50HW
1.9
25 SW
1.3
50 NW
2.1
X 22440-B1B
75 MW
2.9
100 HW
3.7
75 SW
2.6
100 NW
4.0
X 22440-B2B
150 MW
6.1
200 HW
7.9
150 SW
5.6
200 NW
8.5
X 22440-B3B
200 MW
9.3
250 HW
11.9
200 SW
8.4
300 NW
12.9
X 22440-B3.5B
250 MW
13.5
300 HW
17.3
250 SW
12.2
400 NW
18.7
X 22440-B4B
350 MW
17.3
500 HW
22.2
400 SW
15.7
550 NW
24.0
X 22440-B5B
550 MW
23.6
750 HW
30.4
600 SW
21.5
750 NW
32.9
X 22440-B6B
750 MW
32.0
1000 HW
41.1
850 SW
29.0
1000 NW
44.4
X 22440-B7B
900 MW
37.2
1200 HW
47.8
1000 SW
33.8
1150 NW
51.7
X 22440-B8B
11 MW
45
14 HW
58
12 SW
40
14 NW
62
X 11873-B4B
13 MW
57
18 HW
74
14 SW
51
17 NW
80
X 11873-B5B
16 MW
71
22 HW
91
18 SW
63
21 NW
99
X 9117-B6B
19 MW
81
26 HW
104
20 SW
72
25 NW
112
X 9117-B7B
25 MW
112
35 HW
143
27 SW
99
33 NW
155
X 9117-B8B
31 MW
135
45 HW
174
34 SW
120
42 NW
188
X 9117-B9B
45 MW
174
55 HW
223
47 SW
154
52 NW
241
X 9166-B10B
55 MW
197
75 HW
253
61 SW
174
71 NW
273
X 9144-B11B
68 MW
236
100 HW
302
77 SW
209
94 NW
327
X 9144-B13B
Nominal capacity (Qn) is based on the following conditions:
Evaporating Temperature Range °C
bar
R134a
MW
-45 .. 0
2 W
RH
Code
R404A
SW
2.8
55
3.8
65
4.5
75
5.2
-45 .. -2
80
5.5
-45 .. 0
100
6.9
R507
SW
Refrigerant
Evaporating
temperature
Condensing
temperature
Subcooling
R407C
+4°C dew
point
+38°C
bubble point
+43°C dew
point
1K
R22, R134a,
R410A
+4°C
+38°C
1K
-45 .. -15
0
-45 .. -18
0
-45 .. 11
-45 .. -18
5
4
-
2.4
R407C
NW
5
4
-
35
40
202
R407C
Nominal
Capacity
kW
MOP
http://holodko.ru/
___ —
R404A/R507
Type
Series
TCLE
R22
TCL E 100 H W 100 W L 10x16
-45 .. 0
-45 .. -2
-45 .. 0
-45 .. 14
Valve selection for other operating conditions see page 204 or
use the Selection Tool
(download from www.emersonclimate.eu).
Available upon special request:
• Power assembly with solder connection for external pressure
equalization
• Non-standard MOPs
• Non-standard charges
• Non-standard connection sizes. See page 217
Type Code
XB 1019 H W 1 0 0 - 1
B
Pow er A sse m b ly
R efrig e ra n t Code
C h arg e Code
M OP C ode
Capillary Tube Length1=1.5m; 2=3m
External Equ alizatio n -
Selection Chart for Power Assemblies and Recommended Flanges
Connection
Standard-Flange. Angle (see page 217)
Solder/ODF
Orifice
Power Assembly
mm
inch
C 501 - 5 mm
10 x 16
C 501 - 5
3/8x 5/8
C 501 - 7 mm
12 x 16
C 501 - 7
1/2 x 5/8
A 576 mm
16 x 22 (22 x 28 ODM)
A 576
5/8 x 7/8 (7/8 x 1 1/8 ODM)
10331
22 x 22
10331
7/8 x 7/8 (1 1/8 x 1 1/8 ODM)
X 22440-B1B
X 22440-B2B
X 22440-B3B
X 22440-B3.5B
X 22440-B4B
X 22440-B5B
X 22440-B6B
X 22440-B7B
X 22440-B8B
X 11873-B4B
X 11873-B5B
XB1019...1B
X 9117-B6B
9153
7/8x 7/8
(1 1/8 x 1 1/8 ODM)
X 9117-B7B
X 9117-B8B
9153 mm
22 x 22
X 9117-B9B
XC726...2B
X 9166-B10B
X 9144-B11B
X 9144-B13B
9149
22 x 22
9149
7/8 x 7/8 (1 1/8 x 1 1/8 ODM)
Spare Parts
Gasket Set for T Series Valves
Service Tool for T Series
Steel screws for following flange types:
C501, 9761, 6346, A576
9148, 9149, 9152, 9153, 10331, 10332
Type
Part No.
X 13455 -1
027579
X 99999
800005
Screw ST 32
Screw ST 48
803 573
803 574
203
http://holodko.ru/
Correction Tables for Thermo™-Expansion Valves
Series TI, TX3, TX6, T and L
Valve selection for operating conditions
other than nominal conditions:
Qn = Qox Kt x Kap
Qn:
Qo:
Nominal valve capacity
Kt : Correction factor for evaporating and liquid temperature
Required cooling capacityKAp: Correction factor for pressure drop at valve
Correction Factor kt
Evaporating Temperature (°C)
Liquid
Temperature
entering Valve
°C
+ 20
+15
+10
+5
0
-5
-1 0
-15
-2 0
-25
-30
-35
-40
-45
+65
1.75
1.76
1.78
1.80
1.83
1.8 6
1.89
2.18
2.55
3.05
3.69
4.49
5.46
6.62
+60
1.49
1.50
1.51
1.53
1.54
1.57
1.59
1.83
2.14
2.55
3.08
3.73
4.52
5.45
+55
1.31
1.32
1.33
1.35
1.36
1.38
1.40
1.61
1.87
2.23
2.68
3.25
3.92
4.72
+50
1.19
1 .2 0
1.2 0
1 .2 1
1.23
1.24
1.26
1.44
1.6 8
2.0 0
2.40
2.90
3.49
4.20
+45
1.0 1
1.09
1 .1 0
1 .1 1
1 .1 2
1.13
1.15
1.32
1.53
1.82
2.18
2.63
3.17
3.80
+40
0.94
1.0 1
1.0 2
1.03
1.04
1.05
1.06
1 .2 1
1.41
1.67
2.0 1
2.41
2.90
3.48
+35
0.88
0.94
0.95
0.96
0.97
0.98
0.99
1.13
1.31
1.55
1.8 6
2.24
2.69
3.21
+30
0.83
R410A (TX3/6 only)
0.89
0.89
0.90
0.91
0.91
0.92
1.06
1 .2 2
1.45
1.74
2.09
2.50
2.99
+25
0.84
0.84
0.85
0.85
0.86
0.87
0.99
1.15
1.36
1.63
1.96
2.35
2.80
+20
0.79
0.80
0.80
0.81
0.81
0.82
0.94
1.09
1.29
1.54
1.84
2 .2 1
2.64
Correction Factor kAp
Ap (bar)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
0.94
KAp
3.74
2.65
2.16
1.87
1.67
1.53
1.41
1.32
1.25
1.18
1.13
1.08
1.04
1.0 0
0.97
Ap (bar)
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
KAp
0.91
0.88
0.86
0.84
0.82
0.80
0.78
0.76
0.75
0.73
0.72
0.71
0.69
0.68
0.67
0.66
Liquid
Temperature
entering Valve
°C
Correction Factor kt
Evaporating Temperature (°C)
R134a
+30
+25
+ 20
+15
+10
+5
0
-5
-1 0
-15
-2 0
-25
-30
2.94
+60
1 .2 2
1.25
1.27
1.30
1.33
1.36
1.40
1.44
1.48
1.75
2.08
2.46
+55
1.14
1.16
1.18
1 .2 1
1.23
1.26
1.29
1.33
1.36
1.60
1.90
2.25
2.68
+50
1.07
1.08
1 .1 0
1.13
1.15
1.17
1 .2 0
1.23
1.26
1.48
1.76
2.07
2.46
+45
1.0 0
1 .0 2
1.04
1.06
1.08
1 .1 0
1 .1 2
1.15
1.17
1.38
1.63
1.92
2.28
+40
0.93
0.96
0.98
0.99
1.0 1
1.03
1.05
1.08
1 .1 0
1.29
1.52
1.79
2 .12
+35
0.90
0.91
0.92
0.94
0.96
0.97
0.99
1 .0 1
1.03
1 .2 1
1.43
1.6 8
1.99
+30
0.85
0.86
0.88
0.89
0.91
0.92
0.94
0.96
0.98
1.14
1.35
1.58
1.87
0.82
0.83
0.85
0.86
0.87
0.89
0.91
0.92
1.08
1.27
1.49
1.76
0.80
0.81
0.82
0.83
0.85
0.89
0.88
1 .0 2
1 .2 1
1.41
1.67
0.77
0.78
0.79
0.81
0.82
0.84
0.97
1.15
1.34
1.58
0.75
0.76
0.77
0.78
0.80
0.93
1.09
1.28
1.51
1.44
+25
+ 20
+15
+10
+5
0.73
0
0.74
0.75
0.76
0.89
1.04
1 .2 2
0.71
0.72
0.73
0.85
1.0 0
1.17
1.37
1 .1 2
1.31
1.07
1.26
6.0
6.5
7.0
7.5
8.0
0.88
-5
0.69
-1 0
0.70
0.68
0.82
0.79
0.96
0.92
Correctio Factor kAp
Ap (bar)
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
4.5
5.0
5.5
KAp
3.50
2.48
2.0 2
1.75
1.57
1.43
1.32
1.24
1.17
1 .1 1
1.06
1.0 1
0.97
0.94
0.90
Ap (bar)
8.5
9.0
9.5
10 .0
10.5
1 1 .0
11.5
1 2 .0
12.5
13.0
13.5
14.0
14.5
15.0
15.5
16.0
KAp
0.85
0.83
0.80
0.78
0.76
0.75
0.73
0.72
0.69
0.66
0.64
0.62
0.60
0.58
0.57
0.55
In cases of subcooling of m ore than 15K please use additionally the
correction factors on page 188 of this brochure.
204
http://holodko.ru/
—
Liquid
Temperature
entering Valve
°C
Correction Factor kt
Evaporating Temperature (°C)
R22
+30
+25
+ 20
+15
+ 10
+5
0
-5
-1 0
-15
-2 0
-25
-30
-35
-40
-45
+60
1 .2 2
1.23
1.24
1.25
1.26
1.28
1.30
1.31
1.38
1.58
1.84
2.16
2.56
3.04
3.55
4.23
+55
1.14
1.15
1.16
1.17
1.19
1.2 0
1 .2 2
1.23
1.29
1.42
1.72
2.0 2
2.39
2.83
3.30
3.94
+50
1.08
1.09
1 .1 0
1 .1 1
1 .1 2
1.13
1.15
1.16
1 .2 1
1.39
1.62
1.89
2.24
2.66
3.10
3.68
+45
1.0 2
1.03
1.04
1.05
1.06
1.07
1.08
1 .1 0
1.15
1.31
1.52
1.79
2 .1 1
2.50
2.91
3.46
+40
0.97
0.98
0.99
1.0 0
1.0 1
1.0 2
1.03
1.04
1.09
1.24
1.45
1.69
2.0 0
2.37
2.75
3.27
+35
0.92
0.93
0.94
0.95
0.96
0.97
0.98
0.99
1.03
1.18
1.37
1.61
1.89
2.24
2.60
3.09
+30
0.88
0.89
0.90
0.91
0.92
0.93
0.94
0.95
0.99
1.13
1.31
1.55
1.83
2.13
2.47
2.93
0.85
0.86
0.87
0.88
0.89
0.89
0.90
0.94
1.08
1.25
1.46
1.72
2.03
2.36
2.80
0.83
0.84
0.85
0.86
0.87
0.90
1.03
1.19
1.40
1.64
1.94
2.25
2.66
0.80
0.81
0.81
0.82
0.83
0.87
0.99
1.14
1.34
1.57
1.8 6
2.15
2.55
0.78
0.78
0.79
0.80
0.83
0.95
1 .1 0
1.28
1.51
1.78
2.06
2.44
+25
0.83
+20
+15
+10
+5
0.75
0
0.76
0.77
0.80
0.91
1.06
1.23
1.45
1.71
1.98
2.34
0.73
0.74
0.77
0.88
1 .0 2
1.19
1.39
1.65
1.90
2.25
0.98
1.14
1.34
1.58
1.83
2.17
0.95
1 .1 0
1.30
1.53
1.77
2.09
6.0
6.5
7.0
8.0
9.0
-5
0.71
0.74
0.72
-1 0
0.85
0.82
Correction Factor kAp
Ap (bar)
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
4.5
5.0
5.5
KAp
4.25
3.00
2.46
2.13
1.90
1.74
1.61
1.50
1.42
1.35
1.28
1.23
1.18
1.14
1.06
1.0 0
Ap (bar)
10 .0
1 1 .0
12 .0
13.0
14.0
15.0
16.0
17.0
18.0
19.0
20 .0
2 1 .0
2 2 .0
23.0
24.0
25.0
KAp
0.95
0.91
0.87
0.83
0.80
0.78
0.75
0.73
0.71
0.69
0.67
0.66
0.64
0.63
0.61
0.60
-35
-40
-45
Liquid
Temperature
entering Valve
°C
+30
+25
+60
1.56
+55
1.32
+50
1.16
Correction Factor kt
Evaporating Temperature (°C)
R404A
+20
+15
+10
1.59
1.64
1.69
1.74
1.35
1.38
1.42
1.46
1.18
1 .2 0
1.23
1.26
+5
0
-5
-1 0
-15
-2 0
-25
-30
1.81
1.8 8
1.96
2.06
1.50
1.55
1.61
1.6 8
2.43
2.95
3.56
4.37
5.38
6.71
8.47
1.96
2.36
2.83
3.43
4.16
5.12
6.34
1.30
1.34
1.38
1.43
1.67
1.99
2.37
2.85
3.43
4.18
5.14
+45
1.04
1.05
1.07
1 .1 0
1 .1 2
1.15
1.18
1 .2 2
1.26
1.46
1.74
2.05
2.46
2.95
3.57
4.35
+40
0.94
0.96
0.97
0.99
1.0 2
1.04
1.07
1.09
1.13
1.30
1.55
1.82
2.17
2.59
3.13
3.80
+35
0.87
0.88
0.90
0.91
0.93
0.95
0.97
1.0 0
1 .0 2
1.18
1.40
1.64
1.96
2.33
2.80
3.38
+30
0.81
0.82
0.83
0.84
0.86
0.88
0.90
0.92
0.94
1.08
1.28
1.50
1.78
2 .11
2.53
3.05
0.76
0.77
0.79
0.80
0.82
0.83
0.85
0.87
1.0 0
1.18
1.39
1.64
1.94
2.32
2.79
0.73
0.74
0.75
0.77
0.78
0.80
0.81
0.94
1 .1 0
1.29
1.52
1.80
2.15
2.58
0.70
0.71
0.72
0.73
0.75
0.76
0.88
1.03
1 .2 1
1.42
1.6 8
2.0 0
2.40
0.67
0.68
0.69
0.71
0.72
0.83
0.97
1.13
1.34
1.58
1.8 8
2.25
0.65
0.66
0.67
0.68
0.78
0.92
1.07
1.26
1.49
1.77
2 .11
0.63
0.64
0.65
0.75
0.88
1.0 2
1 .2 0
1.41
1.67
+25
+ 20
+15
+10
+5
0
-5
0.61
0.62
0.60
-1 0
0.71
0.68
0.83
0.97
0.80
1.14
1.34
1.59
2.0 0
1.90
0.93
1.09
1.28
1.52
1.81
6.0
6.5
7.0
8.0
9.0
Correction Factor kAp
Ap (bar)
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
4.5
5.0
5.5
KAp
4.55
3.21
2.62
2.27
2.03
1.8 6
1.72
1.61
1.52
1.44
1.37
1.31
1.26
1 .2 1
1.14
1.07
Ap (bar)
10 .0
1 1 .0
12 .0
13.0
14.0
15.0
16.0
17.0
18.0
19.0
20 .0
2 1 .0
2 2 .0
23.0
24.0
25.0
KAp
1.0 2
0.97
0.93
0.89
0.86
0.83
0.80
0.78
0.76
0.74
0.72
0.70
0.69
0.67
0.66
0.64
In cases of subcooling of m ore than 15K please use additionally the
correction factors on page 188 of this brochure.
205
http://holodko.ru/
Liquid
Temperature
entering Valve
°C
Correction Factor kt
Evaporating Temperature (°C)
R407C
+30
+25
+ 20
+15
+ 10
+5
0
-5
-10
-15
-2 0
-25
+55
1.2 0
1 .2 1
1.23
1.26
1.28
1.31
1.34
1.37
1.40
1.63
1.98
2.42
+50
1 .1 0
1 .1 1
1.13
1.15
1.17
1.19
1 .2 2
1.24
1.27
1.48
1.79
2.18
+45
1.0 2
1.03
1.05
1.06
1.08
1 .1 0
1 .1 2
1.14
1.17
1.35
1.64
2.0 0
+40
0.95
0.96
0.98
0.99
1.0 1
1.0 2
1.04
1.06
1.08
1.25
1.52
1.84
+35
0.89
0.90
0.92
0.93
0.94
0.96
0.98
0.99
1.0 1
1.17
1.41
1.71
+30
0.85
0.85
0.87
0.88
0.89
0.90
0.92
0.93
0.95
1 .1 0
1.32
1.60
0.81
0.82
0.83
0.84
0.85
0.87
0.88
0.90
1.03
1.25
1.51
0.78
0.79
0.80
0.81
0.82
0.84
0.85
0.98
1.18
1.43
0.76
0.77
0.78
0.80
0.81
0.93
1 .1 2
1.35
0.73
0.74
0.75
0.76
0.77
0.89
1.07
1.29
0.71
0.72
0.73
0.74
0.85
1.0 2
1.23
0.70
0.71
81.00
0.98
1.18
0.68
0.78
0.94
1.13
0.65
0.75
0.90
1.08
+25
+20
+15
0.75
+10
+5
0.69
0
-5
0.67
-1 0
Correction Factor kAp
Ap (bar)
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
4.5
5.0
5.5
6.0
6.5
7.0
8.0
9.0
KAp
4.78
3.33
2.72
2.36
2 .1 1
1.92
1.78
1.67
1.57
1.49
1.42
1.36
1.31
1.26
1.18
1 .1 1
Ap (bar)
10 .0
1 1 .0
1 2 .0
13.0
14.0
15.0
16.0
17.0
18.0
19.0
20 .0
2 1 .0
2 2 .0
23.0
24.0
25.0
KAp
1.05
1.0 1
0.96
0.92
0.89
0.86
0.83
0.81
0.79
0.76
0.75
0.73
0.71
0.70
0.68
0.67
-35
-40
-45
Correction Factor kt
Evaporating Temperature (°C)
Liquid
Temperature
entering Valve
°C
+30
+25
+20
+60
1.54
1.57
1.61
+55
1.30
1.33
1.36
+50
1.15
1.17
1.19
+45
1.03
1.05
1.07
+40
0.94
0.96
0.97
0.99
1.0 1
1.03
+35
0.87
0.88
0.90
0.91
0.93
0.95
+30
0.81
0.82
0.83
0.85
0.86
0.88
0.77
0.78
0.79
0.80
0.73
0.74
0.75
0.70
0.71
0.67
R507
+25
+ 20
+15
+15
+ 10
+5
0
-5
1.65
1.71
1.76
1.83
1.39
1.43
1.47
1.52
1 .2 2
1.24
1.28
1.09
1 .1 1
1.14
+10
+5
-1 0
-15
-2 0
-25
-30
1.90
1.98
2.36
2.84
3.44
4.23
5.25
6.61
8.45
1.57
1.62
1.92
2.29
2.75
3.35
4.11
5.11
6.44
1.31
1.35
1.40
1.64
1.95
2.33
2.81
3.43
4.23
5.29
1.17
1 .2 0
1.23
1.45
1.71
2.04
2.45
2.97
3.64
4.53
1.06
1.08
1 .1 1
1.30
1.53
1.82
2.18
2.63
3.22
3.98
0.97
0.99
1.0 1
1.18
1.39
1.65
1.97
2.37
2.89
3.56
0.89
0.91
0.93
1.09
1.28
1.51
1.80
2.17
2.63
3.23
0.82
0.83
0.85
0.87
1.0 1
1.18
1.40
1.6 6
1.99
2.42
2.97
0.77
0.78
0.79
0.81
0.94
1 .1 0
1.30
1.54
1.85
2.24
2.74
0.72
0.73
0.75
0.76
0.88
1.03
1 .2 1
1.44
1.73
2.09
2.55
0.68
0.69
0.70
0.72
0.83
0.97
1.14
1.35
1.62
1.95
2.38
0.64
0.65
0.67
0.68
0.78
0.92
1.07
1.27
1.52
1.83
2.23
0.62
0.63
0.64
0.74
0.87
1.0 2
1.2 0
1.43
1.73
2 .1 0
0
-5
0.60
0.61
0.58
-1 0
0.70
0.67
0.82
0.78
0.96
0.91
1.14
1.08
1.35
1.28
1.63
1.54
1.98
1.87
Correction Factor kAp
Ap (bar)
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
4.5
5.0
5.5
6.0
6.5
7.0
8.0
9.0
KAp
4.63
3.27
2.67
2.31
2.07
1.89
1.75
1.64
1.54
1.46
1.40
1.34
1.28
1.24
1.16
1.09
Ap (bar)
10 .0
1 1 .0
1 2 .0
13.0
14.0
15.0
16.0
17.0
18.0
19.0
20.0
2 1 .0
2 2 .0
23.0
24.0
25.0
KAp
1.03
0.99
0.94
0.91
0.87
0.85
0.82
0.79
0.77
0.75
0.73
0.71
0.70
0.68
0.67
0.65
In cases of subcooling of m ore than 15K please use additionally the
correction factors on page 188 of this brochure.
206
http://holodko.ru/
The Following Correction Factors (kt) Related To Evaporating And Condensing Temperatures Apply
Correction factors for Thermo-Expansion valves
Liquid temperature °C
R407F
Evaporating temperature °C
20
15
10
5
0
-5
-10
-15
-20
-25
-30
-35
-40
-45
65
1.51
1.53
1.55
1.58
1.61
1.64
1.68
1.90
2.24
2.68
3.22
3.86
4.63
5.52
60
1.35
1.37
1.39
1.41
1.43
1.46
1.49
1.68
1.98
2.36
2.83
3.39
4.04
4.81
55
1.23
1.25
1.26
1.28
1.30
1.32
1.35
1.52
1.79
2.13
2.54
3.04
3.62
4.30
50
1.14
1.15
1.16
1.18
1.20
1.22
1.24
1.39
1.64
1.95
2.32
2.77
3.29
3.90
45
1.06
1.07
1.08
1.10
1.11
1.13
1.14
1.29
1.51
1.79
2.14
2.55
3.02
3.57
40
0.99
1.00
1.01
1.02
1.04
1.05
1.07
1.20
1.41
1.67
1.98
2.36
2.80
3.31
35
0.93
0.94
0.95
0.96
0.97
0.99
1.00
1.12
1.32
1.56
1.85
2.20
2.61
3.08
30
0.88
0.89
0.90
0.91
0.92
0.93
0.94
1.06
1.24
1.47
1.74
2.07
2.44
2.88
25
0.83
0.84
0.85
0.86
0.87
0.88
0.89
1.00
1.17
1.38
1.64
1.95
2.30
2.71
20
0.79
0.80
0.81
0.82
0.82
0.83
0.84
0.95
1.11
1.31
1.55
1.84
2.17
2.56
15
0.76
0.76
0.77
0.78
0.78
0.79
0.80
0.90
1.05
1.24
1.47
1.74
2.06
2.42
10
0.72
0.73
0.74
0.74
0.75
0.76
0.77
0.86
1.00
1.18
1.40
1.66
1.96
2.30
5
0.69
0.70
0.70
0.71
0.72
0.72
0.73
0.82
0.96
1.13
1.34
1.58
1.87
2.19
0
0.66
0.67
0.68
0.68
0.69
0.69
0.70
0.79
0.92
1.08
1.28
1.51
1.78
2.09
-5
0.64
0.64
0.65
0.65
0.66
0.67
0.67
0.75
0.88
1.04
1.23
1.45
1.71
2.00
-10
0.62
0.62
0.62
0.63
0.63
0.64
0.65
0.72
0.84
1.00
1.18
1.39
1.64
1.92
For Applications As Expansion Valve The Following Correction Factors (kAp) Related To The Pressure Drop At Valve Apply
Correction factors for Thermo-Expansion valves
AP (bar)
1
1.5
2
2.5
3
3.5
4
4.5
5
5.5
6
6.5
7
7.5
kAP
3.51
2.87
2.48
2.22
2.03
1.88
1.76
1.66
1.57
1.5
1.43
1.38
1.33
1.28
AP (bar)
8
9
10
11
12
13
14
15
16
17
18
19
20
21
kAP
1.24
1.17
1.11
1.06
1.01
0.97
0.94
0.91
0.88
0.85
0.83
0.81
0.79
0.77
Superheat Adjustment Guidelines When TI Valves TI/TIE/TIS/TISE/TILE-NW, Designed For R407C Are Used In Applications With R407F
Evaporating temperature °C
Standard charge
(refrigerant)
Alternative
refrigerant
-40
-30
-20
-10
0
Number of turns
NW (R407C)
R407F
- 3/4
-1
-1 1/2
-2 1/4
-3
Minus means counter clockwise
207
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Thermo™-Expansion Valve Series ZZ
for Low Evaporating Temperatures between -45 and -120°C
Features
•
Modular design for economical logistics and easy assembly
and servicing
•
Very good stability is attained because of the large forces
generated by the large diaphragm diameter
•
High quality materials and processes for high reliability and
long lifetime
•
Capillary tube length 3 m
•
PS: 31 bar. TS: -120 ... +65°C
•
No CE marking according art. 3.3 PED 97/23 EC
ZZC E
XC 726
ZZC E 1 1/2 H W 35 WL 10x16
Type Code
J
A ▲ AAA A
Power Assembly
Refrigerant Code
Charge Code
MOP Code
Capillary Tube Length
External Equalization
External Equalizer-----Capacity Code
-----Refrigerant Code -----Charge Code
MOP Code
-----Flange Style
-----WL=Angle Style
DL=Straight through
Connection
------
Available upon special request:
R22
•
Power assembly with solder connection for external
pressure equalization
•
Non-standard MOPs
•
Non-standard charges
•
Non-standard connection sizes (Selection see page 217)
Connection StandardFlange, Angle
Solder/ODF
R404A / R507
Type
3/4 HW
1.8
2 BG
1.9
1 1/2 HW
3.8
6 BG
4.0
Type
ZZCE
R23
Nominal
Capacity
kW
Series
H W 35 - 2 B
A
Nominal
Capacity
kW
Nominal
Capacity
kW
Orifice
2/4 SW
1 .2
X 10-B01
1 1/2 SW
2.6
X 10-B02
Type
2 1/2 HW
6.4
8 BG
6.8
2 1/2 SW
4.4
X 10-B03
4 HW
1 0 .2
12 BG
10 .8
3 1/2 SW
7.0
X 10-B04
6 HW
15.4
17 BG
16.3
5 SW
10 .6
X 10-B05
8 HW
20.5
25 BG
21.7
8 SW
14.1
X 10-B06
10 HW
25.6
31 BG
27.1
9 SW
17.6
X 10-B07
mm
inch
C501 - 5mm
10 X 16
C501- 5
3/8” X 5/8”
C501 - 7mm
12 X 16
1 /2 ” X 5/8”
A 576mm
16 X 22
(22 X 28
ODM)
A 576
5/8” X 7/8”
(7/8” X 1
1/8” ODM)
Power As­
sembly
C501- 7
XC726... 2B
Attention: To withstand stress at extremely low temperatures, thermo expansion valves series ZZ feature bronze bolts.
Nominal capacity (Qn) is based on the following conditions:
Preffered MOPs
MOP
Code
MOP
35
2.4
-11°C
40
2.8
-14°c
R23
Condensing
temperature
Subcooling
R22, R23,
R404A,R507
+4°C
+38°C
1K
-100 ... -71
Valve selection at other operating conditions see page 209
-75 ... -18
-7°C
-48°C
-100 ... -51
125
8.6
-32°C
-100 ... -35
0
3.8
4.1
5
-7
55
60
208
R404A/R507
5
-66 °C
0
1.4
R22
-7
Tmax
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Evaporating
temperature
Evaporating Temperature Range °C
bar
20
Refrigerant
Spare Parts
Gasket Set for T Series Valves
Service Tool for T Series
Steel screws for following flange types:
C501, 9761, 6346, A576
9148, 9149, 9152, 9153, 10331, 10332
Type
Part No.
X 13455 -1
027579
X 99999
800005
Screw ST 32
Screw ST 48
803 575
803 576
Correction Tables for Series ZZ
V a lv e s e le c tio n fo r o p e ra tin g c o n d itio n s o th e r th a n sp e c ifie d on
pag e 2 0 8 :
Qn = Qox K x Kip
Q n:
Q o:
N o m in a l v a lv e c a p a c ity
R e q u ire d co o lin g c a p a c ity
Kf :
C o rre c tio n fa c to r fo r e v a p o ra tin g and liquid
te m p e ra tu re
K i p: C o rre c tio n fa c to r fo r p re ssu re d ro p a t v a lve
Liquid
Temperature
entering Valve
°C
Correction Factor kt
Evaporating Temperature (°C)
-45
-50
-55
-60
-65
-70
+10
1 .0 2
1 .2 1
1.42
1.6 6
1.97
2.30
R22
0
0.94
1 .1 2
1.30
1.53
1.75
2.0 2
-1 0
0.88
1.04
1 .2 1
1.42
1.61
1.83
-2 0
0.82
0.98
1.13
1.32
1.50
1.71
-30
0.77
0.92
1.05
1.23
1.39
1.56
0.86
1.0 0
1.15
1.30
1.47
-40
-50
1.09
1.25
1.42
Correction Factor kAp
Ap (bar)
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
4.5
5.0
6.0
7.0
KAp
4.40
3.10
2.50
2 .2 0
2.0 0
1.80
1.70
1.60
1.50
1.40
1.30
1 .2 0
Ap (bar)
8.0
9.0
10 .0
1 1 .0
1 2 .0
13.0
14.0
15.0
16.0
17.0
18.0
19.0
KAp
1 .1 0
1.04
0.98
0.94
0.90
0.87
0.83
0.81
0.78
0.76
0.74
0.72
-90
-95
-1 0 0
Liquid
Temperature
entering Valve
°C
-45
Correction Factor kt
Evaporating Temperature (°C)
R23
-50
-55
-60
-65
-70
-75
-80
-85
-1 0
1.18
1.18
1.19
1 .2 1
1.28
1.48
1.8 6
2 .2 1
2.73
3.36
4.15
5.06
-15
1 .1 1
1 .1 1
1 .1 2
1.13
1 .2 0
1.39
1.74
2.07
2.56
3.14
3.88
4.72
-2 0
1.04
1.05
1.06
1.07
1.13
1.31
1.64
1.95
2.41
2.95
3.64
4.43
-25
0.99
0.99
1.0 0
1.0 1
1.07
1.24
1.55
1.84
2.27
2.78
3.43
4.17
-30
0.94
0.94
0.95
0.96
1 .0 2
1.17
1.47
1.75
2.15
2.63
3.24
3.94
-35
0.89
0.90
0.91
0.91
0.97
1 .1 2
1.40
1.6 6
2.04
2.50
3.08
3.74
-40
0.85
0.86
0.86
0.87
0.92
1.06
1.33
1.58
1.94
2.38
2.92
3.55
0.82
0.83
0.83
0 .88
1.0 2
1.27
1.51
1.85
2.27
2.79
3.38
0.79
0.80
0.84
0.97
1 .2 2
1.44
1.77
2.17
2.86
3.23
0.76
0.81
0.93
1.17
1.38
1.70
2.07
2.55
3.09
0.78
0.90
1 .1 2
1.33
1.63
1.99
2.44
2.96
0.86
1.08
1.27
1.57
1.91
2.35
2.84
1.23
1.51
-45
-50
-55
-60
-65
-70
1.04
-75
1.18
-80
1.40
1.84
1.45
2.26
1.77
2.73
2.18
2.63
2 .1 0
2.54
5.0
6.0
7.0
1 .1 2
1.71
Correction Factor kAp
Ap (bar)
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
4.5
KAp
4.20
2.97
2.43
2 .1 0
1.8 8
1.72
1.59
1.49
1.40
1.33
1 .2 1
Ap (bar)
8.0
9.0
10 .0
1 1 .0
1 2 .0
13.0
14.0
15.0
16.0
17.0
18.0
19.0
KAp
1.05
0.99
0.94
0.90
0.86
0.82
0.79
0.77
0.74
0.72
0.70
0.68
209
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Liquid
Temperature
entering Valve
°C
Correction Factor kt
Evaporating Temperature (°C)
R404A
-40
-45
-50
-55
-60
-65
-70
+40
1.40
1.76
+35
1.24
1.55
+30
1 .1 2
1.39
-75
2 .2 1
2.77
3.56
4.30
4.87
5.61
1.94
2.42
3.09
3.71
4.17
4.77
1.73
2.15
2.74
3.27
3.66
4.17
+25
1 .0 2
1.26
1.57
1.94
2.46
2.93
3.27
3.70
+20
0.94
1.16
1.44
1.77
2.24
2.66
2.96
3.34
+15
0.87
1.07
1.33
1.63
2.06
2.44
2.71
3.05
+10
0.81
1.0 0
1.23
1.52
1.91
2.26
2.49
2.80
+5
0.76
0.94
1.15
1.42
1.78
2 .1 0
2.32
2.60
0
0.71
0.88
1.08
1.33
1.67
1.97
2.17
2.43
-5
0.68
0.83
1 .0 2
1.25
1.57
1.85
2.04
2.28
-1 0
0.64
0.79
0.97
1.19
1.49
1.75
1.92
2.14
-15
0.61
0.75
0.92
1.13
1.41
1.6 6
1.82
2.03
-2 0
0.58
0.72
0.88
1.07
1.34
1.57
1.73
1.92
-25
0.56
0.69
0.84
1.03
1.28
1.50
1.65
1.83
-30
0.54
0.66
0.80
0.98
1 .2 2
1.43
1.57
1.75
-35
0.51
0.63
0.77
0.94
1.17
1.36
1.49
1.6 6
0.60
0.74
0.90
1 .1 2
1.31
1.43
1.59
0.71
0 .86
1.07
1.25
1.37
1.52
0.83
1.03
1 .2 1
1.32
1.46
-40
-45
-50
Correction Factor kAp
Ap (bar)
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
4.5
5.0
6.0
7.0
KAp
4.73
3.34
2.73
2.36
2 .1 1
1.93
1.79
1.67
1.58
1.50
1.37
1.26
Ap (bar)
8.0
9.0
10 .0
1 1 .0
12 .0
13.0
14.0
15.0
16.0
17.0
18.0
19.0
KAp
1.18
1 .1 1
1.06
1.0 1
0.97
0.93
0.89
0.86
0.84
0.80
0.79
0.77
For the proper sizing of thermo expansion valves in cases of subcooling
of more than 15K please use additionally the correction factors on page
188 of this brochure.
Correction Factor kt
Evaporating Temperature (°C)
Liquid
Temperature
entering Valve
°C
-45
-50
-55
-60
-65
-70
+30
1.26
1.67
2 .1 0
2.68
3.48
4.58
R507
+ 20
1.07
1.41
1.77
2.25
2.89
3.78
+10
0.94
1 .2 2
1.52
1.92
2.46
3.23
0
0.83
1.08
1.33
1.6 8
2.16
2.82
-10
0.75
0.95
1.19
1.49
1.92
2.48
-2 0
0.67
0.86
1.07
1.34
1.70
2 .2 0
-30
0.61
0.78
0.96
1 .2 1
1.54
2.00
-40
0.55
0.71
0.86
1.08
1.38
1.79
0.79
0.99
1.24
1.62
-50
Correction Factor kAp
Ap (bar)
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
4.5
5.0
6.0
7.0
KAp
4.77
3.37
2.75
2.38
2.13
1.95
1.80
1.69
1.59
1.51
1.38
1.27
Ap (bar)
8.0
9.0
10 .0
1 1 .0
1 2 .0
13.0
14.0
15.0
16.0
17.0
18.0
19.0
KAp
1.19
1 .1 2
1.07
1.0 2
0.97
0.94
0.90
0.87
0.84
0.82
0.79
0.77
For the proper sizing of thermo expansion valves in cases of subcooling
of more than 15K please use additionally the correction factors on page
188 of this brochure.
210
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Liquid Injection Valve Series L
Exchangeable Power Assemblies and Orifices
Features
•
Applications for Series L valves include superheat control (de­
superheating of suction gas i.e., in hotgas bypass systems and
interstage cooling in multiple stage compressors)
•
Modular design for economical logistics and easy assembly
and servicing
•
Very good stability is attained because of the large forces
generated by the large diaphragm diameter
•
High quality materials and processes for high reliability and
long lifetime
•
Superior partial load performance due to seat orifice design
(LJRE, LERE & LIRE)
•
Capillary tube length 3 m
•
PS: 31 bar. TS: -45 ... +65°C
•
No CE marking according art. 3.3 PED 97/23 EC
Type Code
XB1019 CL -_2
LCLE
Valve Series
_____
External Equalizer
Capacity Code
_____
Charge Code
Flange Style
WL=Angle Style
DL=Straight through
Connection
B
Power Assembly ___
Charge Code
__________
Capillary Tube Length (3 m)
External Equalization
Nominal Capacity Qn
kW
n
Series
R134a
LCLE
LJRE
LERE
LIRE
R22
R404A
R407C
R507
mm
1*
1.5
1.9
1.3
2.1
1.3
X 22440-B1B
2.9
3.7
2.6
4.0
2.6
X 22440-B2B
3*
6.1
7.9
5.6
8.5
5.6
X 22440-B3B
3.5 *
9.3
11.9
8.4
12.9
8.4
X 22440-B3.5B
4*
13.5
17.3
12.2
18.7
12.2
X 22440-B4B
6*
17.3
22.2
15.7
24.0
15.7
X 22440-B5B
7*
23.6
30.4
21.5
32.9
21.5
X 22440-B6B
9*
32.0
41.1
29.0
44.4
29.0
X 22440-B7B
10 *
37.2
47.8
33.8
51.7
33.8
X 22440-B8B
11 *
45
58
40
62
40
X 11873-B4B
57
74
51
13 *
14 *
71
91
81
104
15 *
112
16 *
17 *
Connections
Standard Flange. Angle
Solder/ODF
Orifice
2*
12 *
LCL E 4 CL WL 10x16
Type Code
80
51
X 11873-B5B
63
99
63
X 9117-B6B
72
112
72
X 9117-B7B
143
99
155
99
X 9117-B8B
135
174
120
188
120
X 9117-B9B
174
223
154
241
154
X 9166-B10B
Power
Assembly
inch
C 501 - 5 mm
10 x16
C 501 - 7 mm
12 x 16
XB1019...2B
A 576 mm
16 x 22
(22 x 28 ODM)
A 576
5/8x 7/8
(7/8 x 1 1/8 ODM)
10331
22 x 22
10331
7/8x 7/8
(1 1/8 x 1 1/8 ODM)
9153 mm
22 x 22
9153
7/8x 7/8
(1 1/8 x 1 1/8 ODM)
XC726...2B
Nominal capacity (Qn) is based on the following conditions:
Superheat selection
* Charge
Code
Refrigerant
R134a
R22
R404A
R407C
15 K
22 K
13 K
22 K
35 K
25 K
35 K
CL
-
GL
15 K
30 K
UL
30 K
45 K
40 K
* Please indicate designation character for desired superheat
Refrigerant
Evaporating
temperature
Condensing
temperature
Sub­
cooling
R407C
+4°C dew
point
+38°C
bubble point
+43°C dew
point
1K
R22, R134a,
R404A, R507
+4°C
+38°C
1K
R507
Valve selection for other operating conditions see page 204
211
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Available upon special request
•
Power assembly with solder connection for external
•
Non-standard connection sizes see page 217
pressure equalization
Spare Parts
Gasket Set for L Series Valves
Service Tool for L Series
Steel screws for following flange types:
C501, 9761, 6346, A576
9148, 9149, 9152, 9153, 10331, 10332
Type
Part No.
X 13455 -1
027579
X 99999
800005
Screw ST 32
Screw ST 48
803 573
803 574
Correction Tables for Series L
Valve selection for desuperheating of
suction gas:
Valve selection for desuperheating of suction gas in conjunc­
tion w ith hotgas-bypass regulation:
The required desuperheating capacity Qdes has to be multiplied
with the correction factors on page 204.
The required bypass capacity QByp has to be multiplied with cor­
rection factor Kti per table below.
Qdes x Kt x KA p = Qn
Qn
^■Byp x Kti = Q
Qdes:
Kt :
KAp :
Qn :
QByp:
Required bypass capacity
Kti :
Correction factor for evaporating
temperature
Qn :
Nominal valve capacity
Required desuperheating capacity
Correction factor for evaporating and
liquid temperature
Correction factor for pressure drop at valve
Nominal valve capacity
Condensing Temperature
Bubble point
°C
+50
(R407C: + 54 dew point)
+40
(R407C: +45 dew point)
+30
(R407C: + 35 dew point)
+ 20
(R407C: + 26 dew point)
Correction Factor kt
Evaporating Temperature (°C)
Refrigerant
+ 10
+5
0
-1 0
-2 0
-30
-40
-50
R22
0.33
0.36
0.40
0.47
0.56
0.66
0.78
0.93
R407C
0.41
0.45
0.49
0.58
0.69
R134a
0.38
0.42
0.44
0.54
0.64
R507/R404A
0.50
0.54
0.59
0.70
0.83
0.98
1.18
1.38
R22
0.26
0.29
0.32
0.38
0.46
0.55
0.66
0.78
R407C
0.32
0.35
0.39
0.46
0.55
R134a
0.31
0.33
0.36
0.44
0.52
R507/R404A
0.38
0.42
0.45
0.54
0.64
0.76
0.90
1.08
0.46
0.55
0.66
R22
0 .20
0 .2 2
0.25
0.31
0.38
R407C
0.25
0.28
0.31
0.37
0.45
R134a
0.24
0.26
0.29
0.35
0.43
R507/R404A
0.29
0.32
0.35
0.42
0.51
0.60
0.72
0.86
R22
0.15
0.17
0.19
0.25
0.31
0.38
0.46
0.56
R407C
0.19
0 .2 1
0.24
0.30
0.37
R134a
0.18
0 .2 0
0 .2 2
0.28
0.35
R507/R404A
0 .2 2
0.25
0.27
0.33
0.40
0.48
0.58
0.70
Correction factors based on 20K superheat suction gas at the inlet of
compressor, discharge temperature 28K above isentropic compression
and 1K subcooling.
212
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—
Liquid Injection Valves Series 935
Exchangeable Power Assemblies and Orifices
Applications
•
Series 935 valves are applied as temperature controls.
Applications include:
- Desuperheating of discharge gas on com ­
pressors. In this case bulbs are mounted on
the high pressure outlet of the compressor
- Control of compressor oil temperatures
•
Series 935 valves shall not be used to control superheat
Features
•
Modular design for economical logistics and easy assembly
and servicing
•
Very good stability because of the large forces generated by
the large diaphragm diameter
•
High quality materials and processes for high reliability and
long lifetime
•
Combinations of different charges with various orifice springs
cover a very large application range
•
PS: 31 bar. TS: -45 ... +65°C
•
No CE marking according art. 3.3 PED 97/23 EC
•
Non-standard connection sizes see page 217
^
Valve Series
Temperature Code
Capacity Code
Flange Style
WL=Angle Style
DL=Straight through
Connection Size
R134a
i
L
A A A
YL -2A
▲ ▲
Power Assembly
Charge Code
Capillary Tube Length (3m)
R22
R404A
Standard Flange. Angle
Solder/ODF
Orifice
R407C
R507
mm
A
4.0
5.2
3.8
5.6
3.8
X10-*01
B
7.8
10.1
7.4
10.9
7.4
X10-*02
C
11.1
14.2
10.3
15.4
10.3
X10-*03
D
16.3
21.1
15.6
22.8
15.6
X10-*04
E
22.5
28.9
21.0
31.2
21.0
X10-*05
G
32.0
41.2
29.9
44.5
29.9
X10-*06
X
46.6
60.0
43.5
64.9
43.5
X10-*07
-*
---------- 1---------* = Spring Code
* = Temperature Code
XB1019
A
Nominal Capacity Qn
kW
"
Series
935- * -
Type Code
935 - 7 - B W L 10x16
Temperature Range °C
3
-1 / +17
B
inch
C 501 - 5 mm
10 x 16
C 501 - 5
3/8x 5/8
C 501 - 7 mm
12 x 16
C 501 - 7
1/2 x 5/8
A 576 mm
16 x 22
(22 x 28 ODM)
A 576
5/8x 7/8
(7/8 x 1-1/8 ODM)
Power Assem­
bly
i
XB1019
2
A
Type Code
935
* = Charge Code
UL
6
+14/+38
C
KL
105
+44/+70
C
YL
106
+6 6 /+94
C
JL
100
+94/+121
C
LL
Nominal capacity (Qn) is based on the following conditions:
Refrigerant
Evaporating temperature
Condensing temperature
Subcooling
R407C
+4°C dew
point
+38°C bubble point
+43°C dew point
1K
R22, R134a,
R404A,R507
+4°C
+38°C
1K
Valve selection for other operating condi­
tions see page 214.
213
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Spare Parts
Description
Gasket Set for 935 Series Valves
Type
Part No.
X 13455 -1
027579
X 99999
800005
Screw ST 32
803 573
Service Tool for 935 Series
Steel screws for following flange types:
C501, 9761, 6346, A576
Correction Tables for Series 935
Valve selection for operating conditions other than nominal
conditions:
Q n = Q o x Kt x K p
Qn: Nominal valve capacity
Qo: Required cooling or desuperheating capacity
Kt: Correction factor for evaporating and liquid temperature
Kp: Correction factor for pressure drop at valve
Liquid
Temperature
entering Valve
°C
Correction Factor kt
Evaporating Temperature (°C)
R134a
+30
+25
+ 20
+15
+ 10
+5
0
-5
-1 0
-15
-2 0
-25
-30
+60
1 .2 2
1.25
1.27
1.30
1.33
1.36
1.40
1.44
1.48
1.51
1.56
1.61
1.67
+55
1.14
1.16
1.18
1 .2 1
1.23
1.26
1.29
1.33
1.36
1.39
1.43
1.47
1.52
+50
1.07
1.08
1 .1 0
1.13
1.15
1.17
1 .2 0
1.23
1.26
1.28
1.32
1.36
1.39
+45
1.0 0
1 .0 2
1.04
1.06
1.08
1 .1 0
1 .1 2
1.15
1.17
1.19
1 .2 2
1.26
1.29
+40
0.93
0.96
0.98
0.99
1.0 1
1.03
1.05
1.08
1 .1 0
1 .1 2
1.14
1.17
1.2 0
+35
0.90
0.91
0.92
0.94
0.96
0.97
0.99
1 .0 1
1.03
1.05
1.07
1 .1 0
1 .1 2
+30
0.85
0 .86
0.88
0.89
0.91
0.92
0.94
0.96
0.98
0.99
1.0 1
1.03
1.06
0.82
0.83
0.85
0.86
0.87
0.89
0.91
0.92
0.94
0.95
0.97
1.0 0
0.80
0.81
0.82
0.83
0.85
0.89
0.88
0.89
0.91
0.92
0.94
0.77
0.78
0.79
0.81
0.82
0.84
0.84
0.86
0.88
0.89
0.75
0.76
0.77
0.78
0.80
0.81
0.82
0.84
0.85
0.73
0.74
0.75
0.76
0.77
0.78
0.80
0.81
0.71
0.72
0.73
0.74
0.75
0.76
0.78
+25
+20
+15
+1 0
+5
0
-5
0.69
-1 0
0.70
0.68
0.71
0.68
0.72
0.69
0.73
0.70
0.74
0.71
Correction Factor kAp
Ap (bar)
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
4.5
5.0
5.5
6.0
6.5
7.0
7.5
8.0
KAp
3.50
2.48
2 .0 2
1.75
1.57
1.43
1.32
1.24
1.17
1 .1 1
1.06
1 .0 1
0.97
0.94
0.90
0.88
Ap (bar)
8.5
9.0
9.5
10 .0
10.5
1 1 .0
11.5
12 .0
13.0
14.0
15.0
16.0
17.0
18.0
19.0
20.0
KAp
0.85
0.83
0.80
0.78
0.76
0.75
0.73
0.72
0.69
0.66
0.64
0.62
0.60
0.58
0.57
0.55
214
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—
Liquid
Temperature
entering Valve
°C
Correction Factor kt
Evaporating Temperature (°C)
+30
+25
+ 20
+60
1 .2 2
1.23
+55
1.15
1.16
+50
1.08
1.09
R22
+15
+ 10
+5
0
1.24
1.25
1.27
1.28
1.30
1.17
1.18
1.19
1 .2 0
1 .2 2
1 .1 0
1 .1 1
1 .1 2
1.14
1.15
-5
-1 0
-15
-2 0
-25
1.32
1.34
1.24
1.25
1.36
1.38
1.41
1.27
1.29
1.32
1.16
1.18
1 .2 0
1 .2 2
1.24
-30
-35
-40
-45
1.44
1.47
1.50
1.53
1.34
1.37
1.39
1.42
1.26
1.28
1.30
1.33
1.25
+45
1.03
1.04
1.04
1.05
1.06
1.07
1.09
1 .1 0
1 .1 2
1.13
1.15
1.17
1.18
1 .2 0
1.23
+40
0.98
0.99
0.99
1.0 0
1.0 1
1 .0 2
1.03
1.04
1.06
1.07
1.09
1 .1 0
1 .1 2
1.14
1.16
1.18
+35
0.93
0.94
0.95
0.95
0.96
0.97
0.98
0.99
1.0 1
1.0 2
1.03
1.05
1.06
1.08
1 .1 0
1 .1 2
+30
0.89
0.90
0.90
0.91
0.92
0.93
0.94
0.95
0.96
0.97
0.98
1.0 0
1.0 1
1.03
1.04
1.06
0.86
0.87
0.87
0.88
0.89
0.90
0.91
0.92
0.93
0.94
0.95
0.96
0.98
0.99
1 .0 1
0.83
0.84
0.84
0.85
0 .86
0.87
0.88
0.89
0.90
0.91
0.92
0.93
0.95
0.96
0.80
0.81
0.82
0.82
0.83
0.84
0.85
0.86
0.87
0.88
0.89
0.91
0.92
0.78
0.79
0.79
0.80
0.81
0.82
0.83
0.84
0.85
0.86
0.87
0.88
0.76
0.76
0.77
0.78
0.79
0.79
0.80
0.81
0.82
0.83
0.85
0.80
0.81
+25
+ 20
+15
+10
+5
0.74
0
-5
0.74
0.72
0.75
0.72
0.76
0.73
0.77
0.74
0.77
0.75
0.78
0.75
0.79
0.76
0.77
0.78
0.70
0.71
0.71
0.72
0.73
0.71
0.74
0.75
4.0
4.5
5.0
5.5
6.0
6.5
7.0
8.0
9.0
1.0 0
-1 0
Correction Factor kAp
Ap (bar)
0.5
1.0
1.5
2.0
2.5
3.0
3.5
KAp
4.25
3.00
2.46
2.13
1.90
1.74
1.61
1.50
1.42
1.35
1.28
1.23
1.18
1.14
1.06
Ap (bar)
10 .0
1 1 .0
1 2 .0
13.0
14.0
15.0
16.0
17.0
18.0
19.0
20.0
2 1 .0
22 .0
23.0
24.0
25.0
KAp
0.95
0.91
0.87
0.83
0.80
0.78
0.75
0.73
0.71
0.69
0.67
0 .66
0.64
0.63
0.61
0.60
-35
-40
-45
Correction Factor kt
Evaporating Temperature (°C)
Liquid
Temperature
entering Valve
°C
+30
+25
+ 20
+15
+60
1.56
1.59
1.64
+55
1.32
1.35
1.38
+50
1.16
1.18
1.2 0
R404A
+ 10
+5
0
-5
-1 0
-15
-2 0
-25
-30
1.69
1.74
1.42
1.46
1.81
1.8 8
1.96
2.06
2.16
2.28
2.42
2.57
2.75
2.95
3.19
1.50
1.55
1.61
1.6 8
1.75
1.83
1.92
2.0 1
2.13
2.25
1.23
2.39
1.26
1.30
1.34
1.38
1.43
1.48
1.54
1.61
1.6 8
1.75
1.84
1.94
1.64
+45
1.04
1.05
1.07
1 .1 0
1 .1 2
1.15
1.18
1 .2 2
1.26
1.30
1.34
1.39
1.45
1.51
1.57
+40
0.94
0.96
0.97
0.99
1 .0 2
1.04
1.07
1.09
1.13
1.16
1 .2 0
1.24
1.28
1.33
1.38
1.43
+35
0.87
0.88
0.90
0.91
0.93
0.95
0.97
1.0 0
1.0 2
1.05
1.08
1 .1 1
1.15
1.19
1.23
1.27
+30
0.81
0.82
0.83
0.84
0.86
0.88
0.90
0.92
0.94
0.96
0.99
1.0 2
1.05
1.08
1 .1 1
1.15
0.76
0.77
0.79
0.80
0.82
0.83
0.85
0.87
0.89
0.92
0.94
0.97
0.99
1.0 2
1.05
0.73
0.74
0.75
0.77
0.78
0.80
0.81
0.83
0.85
0.87
0.90
0.92
0.95
0.97
0.71
0.72
0.73
0.75
0.76
0.78
0.80
0.82
0.84
0.86
0.88
0.90
0.67
0.68
0.69
0.71
0.72
0.74
0.75
0.77
0.79
0.81
0.83
0.85
0.65
0.66
0.67
0.68
0.70
0.71
0.73
0.74
0.76
0.78
0.80
0.68
0.69
0.71
0.72
0.74
0.75
0.66
0.67
0.69
0.70
0.72
+25
+ 20
+15
0.70
+10
+5
0.63
0
-5
0.64
0.61
0.65
0.62
0.66
0.63
0.65
0.60
0.61
0.62
0.63
0.64
0.65
0.67
0.68
4.0
4.5
5.0
5.5
6.0
6.5
7.0
8.0
9.0
1.07
-1 0
Correction Factor kAp
Ap (bar)
0.5
1.0
1.5
2.0
2.5
3.0
3.5
KAp
4.55
3.21
2.62
2.27
2.03
1.8 6
1.72
1.61
1.52
1.44
1.37
1.31
1.26
1 .2 1
1.14
Ap (bar)
10 .0
1 1 .0
1 2 .0
13.0
14.0
15.0
16.0
17.0
18.0
19.0
20.0
2 1 .0
22 .0
23.0
24.0
25.0
KAp
1.0 2
0.97
0.93
0.89
0.86
0.83
0.80
0.78
0.76
0.74
0.72
0.70
0.69
0.67
0.66
0.64
215
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Liquid
Temperature
entering Valve
°C
Correction Factor kt
Evaporating Temperature (°C)
+30
+25
+ 20
+15
+55
1.2 0
1 .2 1
1.23
1.26
+50
1 .1 0
1 .1 1
1.13
1.15
+45
1.0 2
1.03
1.05
1.06
1.08
+40
0.95
0.96
0.98
0.99
1.0 1
1.0 2
+35
0.89
0.90
0.92
0.93
0.94
0.96
+30
0.85
0.85
0.87
0.88
0.89
0.90
0.92
0.81
0.82
0.83
0.84
0.85
0.87
0.88
0.90
0.78
0.79
0.80
0.81
0.82
0.84
0.85
0.75
0.76
0.77
0.78
0.80
0.81
R407C
+25
+ 20
+15
+10
+5
0
-5
-1 0
1.28
1.31
1.34
1.37
1.17
1.19
1 .2 2
1.24
1 .1 0
1 .1 2
+ 10
0.73
+5
-15
-2 0
-25
1.40
1.44
1.48
1.52
1.27
1.30
1.33
1.37
1.14
1.17
1.19
1 .2 2
1.25
1.04
1.06
1.08
1 .1 1
1.13
1.16
0.98
0.99
1.0 1
1.03
1.05
1.07
0.93
0.95
0.97
0.99
1.0 1
0.91
0.93
0.95
0.86
0.88
0.90
0.82
0.84
0.85
0.74
0.75
0.76
0.77
0.78
0.80
0.81
0.71
0.72
0.73
0.74
0.75
0.76
0.77
0.69
0.70
0.71
0.72
0.73
0.74
0 .68
0.69
0.70
0.71
0.65
0.66
0.67
0.68
0
-5
0.67
-1 0
Correction Factor kAp
Ap (bar)
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
4.5
5.0
5.5
6.0
6.5
7.0
8.0
9.0
KAp
4.78
3.33
2.72
2.36
2 .11
1.92
1.78
1.67
1.57
1.49
1.42
1.36
1.31
1.26
1.18
1 .1 1
Ap (bar)
10 .0
1 1 .0
12 .0
13.0
14.0
15.0
16.0
17.0
18.0
19.0
20 .0
2 1 .0
22 .0
23.0
24.0
25.0
KAp
1.05
1.0 1
0.96
0.92
0.89
0.86
0.83
0.81
0.79
0.76
0.75
0.73
0.71
0.70
0.68
0.67
-40
-45
Note: See page 188 for determining of conditions for systems with R407C.
Liquid
Temperature
entering Valve
°C
Correction Factor kt
Evaporating Temperature (°C)
R507
+30
+25
+ 20
+15
+ 10
+5
0
+60
1.54
1.57
1.61
1.65
+55
1.30
1.33
1.36
1.39
1.71
1.76
1.83
1.43
1.47
1.52
+50
1.15
1.17
1.19
1 .2 2
1.24
1.28
1.31
-5
-1 0
-15
-2 0
-25
-30
-35
1.90
1.98
2.08
2.18
2.30
2.43
2.58
2.75
2.95
1.57
1.62
1.69
1.76
1.83
1.92
2.0 2
2 .1 2
2.25
1.35
1.40
1.44
1.49
1.55
1.61
1.6 8
1.76
1.84
1.58
+45
1.03
1.05
1.07
1.09
1 .1 1
1.14
1.17
1 .2 0
1.23
1.27
1.31
1.36
1.40
1.46
1.52
+40
0.94
0.96
0.97
0.99
1.0 1
1.03
1.06
1.08
1 .1 1
1.14
1.17
1 .2 1
1.25
1.29
1.34
1.39
+35
0.87
0.88
0.90
0.91
0.93
0.95
0.97
0.99
1.0 1
1.04
1.07
1 .1 0
1.13
1.16
1.2 0
1.24
+30
0.81
0.82
0.83
0.85
0.86
0.88
0.89
0.91
0.93
0.96
0.98
1 .0 1
1.03
1.06
1.09
1.13
0.77
0.78
0.79
0.80
0.82
0.83
0.85
0.87
0.89
0.91
0.93
0.95
0.98
1.0 1
1.03
0.73
0.74
0.75
0.77
0.78
0.79
0.81
0.83
0.85
0.87
0.89
0.91
0.93
0.96
0.70
0.71
0.72
0.73
0.75
0.76
0.78
0.79
0.81
0.83
0.85
0.87
0.89
0.67
0.68
0.69
0.70
0.72
0.73
0.74
0.76
0.78
0.79
0.81
0.83
0.64
0.65
0.67
0.68
0.69
0.70
0.72
0.73
0.75
0.76
0.78
0.73
+25
+ 20
+15
+10
+5
0.62
0
-5
0.63
0.60
0.64
0.61
-1 0
0.65
0.62
0.66
0.63
0.68
0.64
0.69
0.65
0.70
0.72
0.66
0.68
0.69
0.58
0.59
0.60
0.61
0.62
0.63
0.64
0.65
4.5
5.0
5.5
6.0
6.5
7.0
8.0
9.0
Correction Factor kAp
Ap (bar)
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
KAp
4.63
3.27
2.67
2.31
2.07
1.89
1.75
1.64
1.54
1.46
1.40
1.34
1.28
1.24
1.16
1.09
Ap (bar)
10 .0
1 1 .0
12 .0
13.0
14.0
15.0
16.0
17.0
18.0
19.0
20 .0
2 1 .0
2 2 .0
23.0
24.0
25.0
KAp
1.03
0.99
0.94
0.91
0.87
0.85
0.82
0.79
0.77
0.75
0.73
0.71
0.70
0.68
0.67
0.65
216
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Angle Style
Type
Straight Through
Part No.
Type
Part No.
Connections
mm
for Valve
Series
inch
Solder ODF
Solder ODM
Solder ODF
Solder ODM
C 501 - 5
803 232
9761 - 3
803 240
-
-
3/8x 5/8
-
TCLE
C 501 - 5 MM
803 233
9761 - 3 MM
803 241
10 x 16
-
-
-
ZZCE
-
1/2 x 5/8
-
LCLE
C 501 - 7
803 234
9761 - 4
803350
-
C 501 - 7 MM
803 235
9761 - 4 MM
803 243
12 x 16
-
-
-
935 A-X
-
-
6346 - 17
803 330
16 x 22
-
5/8x 7/8
-
CPHE 1
CPHE 2
A 576
803 238
-
-
-
-
5/8x 7/8
7/8x 1-1/8
A 576 - MM
803 239
-
-
16 x 22
22 x 28
-
-
10331
803 338
10332
803 324
22 x 22
-
7/8x 7/8
1-1/8 x 1-1/8
TJRE
LJRE
CPHE 3
1-1/8 x 1-1/8
TERE
TIRE
LERE
LIRE
CPHE 3.5
CPHE 4
CPHE 5
1-1/8 x 1-1/8
THRE
CPHE 6
9153
9153 MM
803 244
803 245
9152
9152 MM
803 286
803 287
22 x 22
28 x 28
7/8x 7/8
9149
803 284
9148
803 283
22 x 22
-
7/8x 7/8
217
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218
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__—
Solenoid Valves
http://holodko.ru/
2-Way-Solenoid Valves
Basic Terms and Technical Information
Operating principles
Therefore the decisive factor for proper solenoid valve sizing is
the respective capacity of the valve and not its connection size.
Directly actuated: The magnetic field of the solenoid coil forces
a movement of the plunger and thus causes the opening of the
valve seat.
Formula for calculating the actual pressure drop of a solenoid valve:
A p, = A p2x (Q n,/Q n2) 2
Servo actuated: The magnetic field of the solenoid coil is only uti­
lized for the opening of the pilot valve seat. The necessary energy
to actuate the piston or diaphragm of the main valve seat is pro­
vided by the refrigerant flow and results in a certain pressure drop.
A p1:
A p2:
Q n1:
Q n2:
Minimum Pressure Drop
Directly actuated solenoid valves do not require a minimum pres­
sure drop for proper operation.
Maximum Operating Pressure Differential (MOPD)
MOPD is the maximum pressure differential between inlet and
outlet of the solenoid valve which permits proper opening of the
valve. When used with Alco AC solenoid coils all Alco solenoid valves
employ 25 bar MOPD.
Servo operated solenoid valves require a m inim um pressure
drop of approximately 0.05 bar to remain fully open. In case of
insufficent refrigerant flow, this value will not be reached and
the solenoid valve may close unintentionally. These closures may
lead to malfunctions and oscillations in the refrigeration circuit.
Improper sizing of solenoid valves (i.e., use of excessively large
solenoid valves) is the main cause of this effect. This is particularly
im portant in capacity controlled refrigeration circuits.
Actual pressure drop
Nominal pressure drop at Q n1
Calculated nominal capacity
Nominal capacity of selected valve
Operation in conjunction with DC solenoid coils lead to reduced
MOPD values depending on valve type and size. The DS2 Chopper
Plugs allow the use of 24VAC coils with 24VDC by converting the
DC in an AC voltage. Please contact Emerson Climate Technologies
application engineering for additional details.
Selection Guide for Solenoid Valves
Series
240 RA
Selection Criteria
110 RB
200 RB
+
+
2-Way
540 RA
8/9/12/16T9
16T11/20
8/9/12/16
20
+
+
+
+
+
+
+
+
M36
+
3-Way
Normally Closed (NC)
Normally Open (NO)
Min. Pressure Differential (bar)
MWP (bar)
Media Temp. Range (°C)
+
+
0.00
0.05
0.05
0.05
0.05
0.05
31
31
31
31
31
28
35
-40 / +120
-40 / +120
-40/+120
-40/+120
-40/+120
-40 / +120
-40 / +120
Coil Type
ASC
ASC
ASC
ASC
ASC
ASC
ASC
Catalogue Page
222
222
222
222
223
223
227
Type Code
200 RB
Model
Series
Seat diameter
in multiples of
'//16” * i e 3/18 ”
220
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—
6 T 4
T Solder
F Flare
Tube connection in
multiple of 7 S” . i.e. V2”
or nearest mm equivalent
Coils ASC
Standards
•
Alco® ASC Coils and cable assemblies conform to Low Voltage
Directive
A SC
Type
Part No.
ASC 230V / 50Hz
801 064
ASC 120V / 50Hz
801 063
ASC 24V / 50Hz
801 062
ASC 24V DC
DS2-N15 +ASC 24VAC
Voltage
Power Input
Electr. Connection
Protection
8W
without plug. see cable as­
semblies
IP65
with plug / cable assembly
with plug and cable assembly
IP65
801 974
DC
15 W
804 620 + 801 062
DC
3W
Note: Coils are delivered with mounting clip.
Please order cable assemblies separately.
ASC-N15
Cable Assemblies for ASC Coils
Type
Part No.
ASC-N15
804570
ASC-N60
804572
Temperature Range
-50 .. +80°C
ASC-N30
for stationary use only
Cable length
Wire diameter
Connector Type
1.5m
804 5713 x 0.75 mm2
loose wires
6.0m
♦
EM ERSON
Cable Assembly w ith 24V DC Chopper Plug
•
Enables standard 24V AC Coil to be used for DC applications
•
Low power assumption (3W only)
•
No MOPD degradation
DS2-N15
ASC 24V / 50Hz
Type
Part No.
Temperature Range
Cable length
Wire diameter
Connector Type
DS2-N15
804 620
-25 .. +80°C
1.5 m
2 x 0.75 mm2
loose wires
O ther Accessories for Solenoid Valves
Type
Part No.
Description
X 11981-1
027 451
Service tool for 110RB. 240RA. 540RA. 3031
X 13740 -1
027600
Clip for coil
PG9 Plug
801 012
Plug according to DIN 43650 with cable gland PG 9
PG11 Plug
801 013
Plug according to DIN 43650 with cable gland PG 11
221
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3.0m
2-Way Solenoid Valves Series 110,
Normally Closed
Features
•
Compact size
•
Snap-on clip for attaching solenoid coils
•
No disassembly necessary for soldering
Standards
•
240 RA 16T11 and 20 are CE marked per PED
2 40 RA
Capacity Data
Nominal Capcity Qn(kW)
Liquid
Type
110RB2
R134a
R22
R404A
R507
3.5
3.8
2.5
Hot Gas
Suction Gas
kv-value
m3/h
Ap min
bar
2.1
0.2
0
R22
R404A
R507
R407C
1.6
2.0
1.7
R407C
R407F
R134a
3.6
4.2
R134a
R22
R507
R407C
200 RB 3
6.6
7.1
4.6
6.8
7.9
3.0
3.7
3.2
3.9
0.4
0.05
200 RB 4
15.5
16.8
10.9
16.1
18.8
7.1
8.8
7.5
9.2
0.9
0.05
200 RB 6
27.3
29.5
18.9
28.0
33.0
12.5
15.4
13.1
16.1
240 RA 8
36.3
39.3
25.2
37.3
43.9
16.7
20.5
17.4
21.4
240 RA 9
76.2
82.5
52.9
78.4
92.2
35.1
43.1
36.5
240 RA 12
85.7
92.8
59.5
88.1
103.7
39.4
48.4
41.1
240 RA 16
139.1
150.5
96.5
142.9
168.2
64.0
78.5
240 RA 20
202.6
219.3
140.7
208.3
245.2
93.2
114.4
1.6
0.05
4.6
5.2
2.3
0.05
11.7
9.7
10.9
4.8
0.05
13.1
10.9
12.3
5.4
0.05
16.0
21.3
17.7
19.9
8.8
0.05
33.0
31.0
25.7
29.0
12.8
0.05
4.2
5.6
44.9
8.8
50.5
9.9
66.6
81.9
97.1
119.3
Nominal capacities at +38°C condensing temperature. +4°C evaporating temperature. 0.15 bar pressure drop between valve inlet and outlet in liquid applications (for hot gas
applications 1 bar pressure drop and +18 °C suction gas temperature); subcooling 1 K. Correction tables for other operating conditions see page 227
Selection Guide
Type
110RB2
200 RB 3
200 RB 4
200 RB 6
240 RA 8
240 RA 9
240 RA 12
240 RA 16
240 RA 20
222
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Part No.
Connection Solder / ODF
mm
Inch
T2
801 217
T2
801 210
T3
801 209
10
3/8
T3
801 239
10
3/8
T3
801 176
10
T3
801 190
Special Versions:
• Manual stems available upon request for
Series 240 RA 8 to 240 RA 16 (Type M).
6
1/4
3/8
T4
801 178
T4
801179
12
T4
801 182
T4
801 183
T5
801 186
T5
801 160
T7
801 143
22
7/8
T5
801 161
16
5/8
T7
801 162
22
7/8
T9
801 142
T9
801 163
T11
801 144
1-1/8
T9
801 164
1-1/8
1/2
12
1/2
16
5/8
5/8
1-1/8
22
7/8
T11
801 166
35
1-3/8
T11-M
801 172
35
1-3/8
T13-M
801 224
42
T13-M
801 173
T17-M
801 174
1-5/8
54
2-1/8
Manual stems standard on Series
240 RA 20.
Options:
• Actuation coils available for various
voltages. see page 221
2-Way Solenoid Valves Series 540
Normally Open
Features
•
Compact size
•
Snap-on clip for attaching solenoid coils
•
No disassembly necessary for soldering
5 40 RA
Capacity Data
Nominal Capcity Qn(kW)
Liquid
Type
Hot Gas
R134a
R22
R404A
R507
R407C
540 RA 8
36.3
39.3
25.2
37.3
16.7
20.5
540 RA 9
76.2
82.5
52.9
78.4
35.1
43.1
R134a
R22
R404A
R507
Suction Gas
R407C
R134a
17.4
21.4
36.5
44.9
R407C
kvvalue
m3/h
Ap min
bar
R22
R507
4.2
5.6
4.6
5.2
2.3
0.05
8.8
11.7
9.7
10.9
4.8
0.05
540 RA 12
85.7
92.8
59.5
88.1
39.4
48.4
41.1
50.5
9.9
13.1
10.9
12.3
5.4
0.05
540 RA 16
139.1
150.5
96.5
142.9
64.0
78.5
66.6
81.9
16.0
21.3
17.7
19.9
8.8
0.05
540 RA 20
202.6
219.3
140.7
208.3
93.2
114.4
97.1
119.3
23.3
31.0
25.7
29.0
12.8
0.05
Nominal capacities at +38°C condensing temperature. +4°C evaporating temperature. 0.15 bar pressure drop between valve inlet and outlet in liquid applications (for hot gas
applications 1 bar pressure drop and +18 °C suction gas temperature); subcooling 1 K. Correction tables for other operating conditions see page 227.
Selection Guide
Type
540 RA 8
540 RA 9
Part No.
Connection Solder / ODF
mm
Inch
T5
046 265
5/8
T5
046 266
5/8
T7
046 268
22
7/8
540 RA 12
T7
046 269
22
7/8
540 RA 16
T9
046270
540 RA 20
T11
047 953
Options:
• Actuation coils available for various
voltages, see page 221
1-1/8
35
1-3/8
Accessories and spare parts for solenoid valves
Description
Service tool for 110
RB, 240 RA, 540 RA
Type
X 11981 - 1
Part No.
027 451
Gasket kits
Description
Type
Part No.
110RB
KS 30040-1
801 206
200RB
KS30039/
KS30109
801 205
110RB
KS 30040-2
801 232
200RB
KS 30039-1
801 233
240RA8
KS30061
801 262
240RA8
KS 30061-1
801 234
240RA9
KS 30062
801 263
240RA9/12
KS 30062-1
801 235
240RA12
KS 30063
801 264
240RA16
KS 30065-1
801 236
240RA16
KS 30065
801 200
240RA20
KS 30097-1
801 237
240RA20
KS 30097
801 216
223
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Correction Tables for the Selection of Solenoid Valves
For use w ith 110 RB, 200 RB, 240 RA and 540 RA Series
Valve selection for operating conditions other than nominal:
The pressure drop can be calculated with the
following formula:
Q n = Q o x Kt x K a p
Qn:
Kt:
Kap :
Qo:
Q 2
A P =AP * _ _
0
n j-w 2
Qn
Nominal valve capacity
Correction factor for evaporating and liquid temperature
Correction factor for pressure drop at valve
Required cooling capacity
A Pn = 0.15 bar
A Pn: Pressure drop under nominal conditions
1. Suction Gas Application
Correction Factor kt
Condensing Temperature (°C)
Evaporating
Temperature
°C
+60
+55
+50
+45
+40
+35
+30
+25
+ 20
+10
1.03
0.97
0.92
0.88
0.84
0.80
0.76
0.74
0.71
0
1.40
1.32
1.25
1 .2 0
1.14
1 .1 0
1.04
1.0 1
0.96
-1 0
1.71
1.62
1.53
1.47
1.40
1.34
1.27
1.23
1.18
-2 0
2 .2 0
2.08
1.97
1.8 8
1.80
1.72
1.64
1.58
1.51
-30
2.79
2.63
2.50
2.39
2.27
2.19
2.07
2.0 1
1.92
-40
3.68
3.47
3.29
3.15
3.00
2.89
2.73
2.65
2.53
Correction Factor kAp
Ap (bar)
0.05
0 .10
0.15
0 .20
0.25
0.30
0.35
0.40
0.45
0.50
0.55
KAp
1.73
1 .2 2
1.0 0
0.87
0.77
0.71
0.65
0.61
0.48
0.55
0.52
2. Liquid Application
Correction Factor kt
Evaporating Temperature (°C)
Liquid
Temperature
entering valve
°C
+ 10
0
-1 0
-2 0
-30
+10
0
-1 0
-2 0
-30
-40
+60
1.33
1.40
1.48
1.56
1.67
1.26
1.30
1.38
1.38
1.44
1.50
+55
1.23
1.29
1.36
1.43
1.52
1.19
1 .2 2
1.29
1.29
1.34
1.39
+50
1.15
1.2 0
1.26
1.32
1.39
1 .1 2
1.15
1 .2 1
1 .2 2
1.26
1.30
+45
1.08
1 .1 2
1.17
1 .2 2
1.29
1.06
1.08
1.15
1.15
1.18
1.23
R134a
R22
+40
1.0 1
1.05
1 .1 0
1.14
1.2 0
1.0 1
1.03
1.09
1.09
1 .1 2
1.16
+35
0.96
0.99
1.03
1.07
1 .1 2
0.96
0.98
1.03
1.03
1.06
1 .1 0
+30
0.91
0.94
0.98
1.0 1
1.06
0.92
0.94
0.99
0.98
1.0 1
1.04
0.99
+25
0.86
0.89
0.92
0.95
1.0 0
0.88
0.89
0.94
0.94
0.96
+20
0.82
0.85
0.88
0.91
0.94
0.84
0.86
0.90
0.90
0.92
0.95
+15
0.78
0.81
0.84
0.86
0.89
0.81
0.82
0.87
0.86
0.88
0.91
+10
0.75
0.79
0.77
0.80
0.82
0.85
0.78
0.83
0.83
0.85
0.87
+5
0.74
0.76
0.78
0.81
0.76
0.80
0.79
0.81
0.83
0
0.71
0.73
0.75
0.78
0.73
0.77
0.77
0.78
0.80
-5
0.70
0.72
0.74
0.74
0.74
0.75
0.77
-10
0.68
0.69
0.71
0.72
0.71
0.73
0.74
Correction Factor kAp
Ap (bar)
0.05
0 .10
0.15
0 .2 0
0.25
0.30
0.35
0.40
0.45
0.50
0.55
0.60
0.65
0.70
0.75
KAp
1.73
1 .2 2
1.0 0
0.87
0.77
0.71
0.65
0.61
0.58
0.55
0.52
0.50
0.48
0.46
0.45
224
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2. Liquid Application
Liquid
Temperature
entering valve
°C
Correction Factor kt
Evaporating Temperature (°C)
+10
0
-1 0
-2 0
+60
1.74
1.8 8
2.06
2.28
2.57
2.95
1.71
+55
1.46
1.55
1.6 8
1.83
2.0 1
2.25
1.43
+50
1.26
1.34
1.43
1.54
1.6 8
1.84
1.24
R404A
-30
-40
+10
R507
-1 0
-2 0
-30
-40
1.83
1.98
2.18
2.43
2.75
1.52
1.62
1.76
1.92
2 .1 2
1.31
1.40
1.49
1.61
1.76
0
+45
1 .1 2
1.18
1.26
1.34
1.45
1.57
1 .1 1
1.17
1.23
1.31
1.40
1.52
+40
1.0 2
1.07
1.13
1.2 0
1.28
1.38
1 .0 1
1.06
1 .1 1
1.17
1.25
1.34
+35
0.93
0.97
1.0 2
1.08
1.15
1.23
0.93
0.97
1.0 1
1.07
1.13
1 .2 0
+30
0.86
0.90
0.94
0.99
1.05
1 .1 1
0.86
0.89
0.93
0.98
1.03
1.09
+25
0.80
0.83
0.87
0.92
0.97
1.0 2
0.80
0.83
0.87
0.91
0.95
1.0 1
+20
0.75
0.78
0.81
0.85
0.90
0.95
0.75
0.78
0.81
0.85
0.89
0.93
+15
0.71
0.73
0.76
0.80
0.84
0.88
0.71
0.73
0.76
0.79
0.83
0.87
+10
0.67
0.69
0.72
0.75
0.79
0.83
0.67
0.69
0.72
0.74
0.78
0.81
+5
0.66
0.68
0.71
0.74
0.78
0.65
0.68
0.70
0.73
0.76
0
0.63
0.65
0.68
0.71
0.74
0.62
0.64
0.66
0.69
0.72
-5
0.62
0.65
0.67
0.70
0.61
0.63
0.65
0.68
-1 0
0.60
0.62
0.64
0.67
0.58
0.60
0.62
0.64
Liquid
Temperature
entering valve
°C
Correction Factor kt
Evaporating Temperature (°C)
R407C
+10
0
-1 0
+55
1.28
1.34
1.40
1.48
+50
1.17
1 .2 2
1.27
1.33
+45
1.08
1 .1 2
1.17
1 .2 2
+40
1.0 1
1.04
1.08
1.13
+35
0.94
0.98
1.0 1
1.05
+30
0.89
0.92
0.95
0.99
+25
0.84
0.87
0.90
0.93
+ 20
0.80
0.82
0.85
0.88
+15
0.76
0.78
0.81
0.84
+10
0.73
0.75
0.77
0.80
-2 0
+60
+5
0.72
0.74
0.76
0
0.69
0.71
0.73
-5
0.68
0.70
-1 0
0.65
0.67
Correction Factor kAp
Ap (bar)
0.05
0 .10
0.15
0 .2 0
0.25
0.30
0.35
0.40
0.45
0.50
0.55
0.60
0.65
0.70
0.75
KAp
1.73
1 .2 2
1.0 0
0.87
0.77
0.71
0.65
0.61
0.58
0.55
0.52
0.50
0.48
0.46
0.45
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For Liquid Line Applications The Following Correction Factors (kt) Related To Evaporating And Condensing Temperatures Apply
R407F
Correction factors for solenoid valves
Evaporating temperature °C
Liquid
Temperature
°C
20
15
10
5
0
-5
-1 0
-15
-2 0
-25
-30
-35
-40
-45
+65
1.51
1.53
1.55
1.58
1.61
1.64
1.6 8
1.71
1.75
1.80
1.85
1.90
1.96
2 .0 2
+60
1.35
1.37
1.39
1.41
1.43
1.46
1.49
1.52
1.55
1.59
1.63
1.67
1.71
1.76
+55
1.23
1.25
1.26
1.28
1.30
1.32
1.35
1.37
1.40
1.43
1.46
1.50
1.53
1.57
+50
1.14
1.15
1.16
1.18
1 .2 0
1 .2 2
1.24
1.26
1.28
1.31
1.33
1.36
1.39
1.43
+45
1.06
1.07
1.08
1 .1 0
1 .1 1
1.13
1.14
1.16
1.18
1.2 0
1.23
1.25
1.28
1.31
+40
0.99
1.0 0
1.0 1
1 .0 2
1.04
1.05
1.07
1.08
1 .1 0
1 .1 2
1.14
1.16
1.18
1 .2 1
+35
0.93
0.94
0.95
0.96
0.97
0.99
1.0 0
1.0 1
1.03
1.05
1.06
1.08
1 .1 0
1.13
+30
0.88
0.89
0.90
0.91
0.92
0.93
0.94
0.95
0.97
0.98
1.0 0
1 .0 2
1.03
1.05
+25
0.83
0.84
0.85
0.86
0.87
0.88
0.89
0.90
0.91
0.93
0.94
0.96
0.97
0.99
+ 20
0.79
0.80
0.81
0.82
0.82
0.83
0.84
0.85
0.87
0.88
0.89
0.91
0.92
0.94
+15
0.76
0.76
0.77
0.78
0.78
0.79
0.80
0.81
0.82
0.83
0.85
0.86
0.87
0.89
+10
0.72
0.73
0.74
0.74
0.75
0.76
0.77
0.77
0.78
0.79
0.81
0.82
0.83
0.84
+5
0.69
0.70
0.70
0.71
0.72
0.72
0.73
0.74
0.75
0.76
0.77
0.78
0.79
0.80
0.77
0
0.66
0.67
0.68
0.68
0.69
0.69
0.70
0.71
0.72
0.73
0.73
0.74
0.75
-5
0.64
0.64
0.65
0.65
0.66
0.67
0.67
0.68
0.69
0.70
0.70
0.71
0.72
0.73
-1 0
0.62
0.62
0.62
0.63
0.63
0.64
0.65
0.65
0.66
0.67
0.68
0.68
0.69
0.70
For Liquid Line Applications The Following Correction Factors ( kAp) Related To The Pressure Drop At Valve Apply
Correction factors for solenoid valves
AP (bar)
0.05
0.1
0.15
0 .2
0.25
0.3
0.35
0.4
0.45
0.5
0.55
0.6
0.65
0.7
0.75
kAP
1.73
1 .2 2
1
0.87
0.77
0.71
0.65
0.61
0.58
0.55
0.52
0.5
0.48
0.46
0.45
3. Hot Gas Application
Correction Factor kt
Evaporating Temperature (°C)
+ 10
+5
0
-5
-1 0
-15
-2 0
-25
-30
-35
-40
Kt
0.96
1.0 0
1.03
1.06
1 .1 0
1.13
1.17
1.2 0
1.24
1.29
1.33
Ap (bar)
0.35
0.50
0.70
1.0 0
1.50
2.00
2.50
3.00
4.00
KAp
1.72
1.49
1 .2 2
1.0 0
0.86
0.78
0.73
0.70
0.65
Correction Factor kAp
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3-Way Solenoid Valves Series M36
Features
•
For heat reclaim application
•
Pilot connection to suction line required. no minimum
•
Compact size
•
Snap-on clip for attaching solenoid coils
•
No disassembly necessary for brazing
•
Max. allowable pressure PS: 35 bar
pressure drop
Options:
• Actuation coil and cable assemblies available for
various voltages, see page 221
M36-118
M36-078 with ASC Coil
and DS2 Chopper Plug
Capacity Data
Type
Part No.
M36-078
801 420
M36-118
801 421
Connection Solder/ODF
mm
Nominal Capacity Qn(kW)
inch
22
7/8
1-1/8
R134a
R22
R404A / R507
kv-Value
m3/h
Coil Type
28.9
35.1
31.3
6.7
ASC
(Page 221)
Nominal capacities at +38°C condensing temperature. +4°C evaporating temperature (saturated pressures / dew point). 0.15 bar pressure drop between valve inlet and outlet.
Qo:
Kt:
Ka p :
Qn:
Required cooling capacity For other operating conditions multiply required capacity Qowith
Correction factor for evaporating and liquid
correction factors Kt and Ka p .
temperature
Correction factor for pressure drop at valve
Qox Kt x Ka p = Qn
Nominal valve capacity
Correction Tables
Correction Factor K
Evaporating Temperature (°C)
Kt
10
5
0
-5
-10
-15
-20
-25
-30
-35
-40
0.96
1.00
1.03
1.06
1.10
1.13
1.17
1.20
1.24
1.29
1.33
Correction Factor KAp
Pressure drop across Valve (bar)
KAp
0.10
0.14
0.20
0.30
0.40
0.50
0.60
0.70
0.80
0.90
1.00
1.22
1.00
0.87
0.71
0.61
0.55
0.50
0.46
0.43
0.41
0.39
Accessories and spare parts for series M36
Description
Part No.
Repair Kit for M36-UNF (O-Ring Gasket & pilot assembly)
801 440
Conversion Table 3031 Series to M36
3031 Series has been replaced by M36 Series
former type
Part No.
Replacement
Part No.
3031 RC 12S7
05 5939
M36-078
801 420
3031 RC 12S9
055 940
M36-118
801 421
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228
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__—
Mechanical Pressure Regulators
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Basic Terms and Technical Information
Capacity Regulators
Regulator series ACP and CPHE are hot gas bypass regulators and
serve the purpose of compensating excess compressor capacity.
Thus they prevent the generation of evaporator pressures below
predetermined levels.
In case of hot gas in je ctio n into the su ctio n lin e , a liquid
injection valve in conjunction with a solenoid valve is required to
desuperheat the excessively hot suction gas. The capacity should
not be reduced below 60% of maximum in this application to avoid
oil return problems.
Crankcase Pressure Regulators
Series PRC regulators serve the purpose of preventing exces­
sively high suction pressures to protect compressor motors from
overloading.
Excessively high suction pressures can occur at start-up of a
refrigeration circu it in case of high loads and after defrost.
Crankcase regulators are adjusted to the m axim um allowed
suction pressure rating of the com p ressors as given by the
compressor manufacturers.
With hot gas injection at the evaporator inlet, no liquid injection
valve is necessary. The injection m ust be such that the incre­
mental gas volume is taken into account. No problems with oil
return should be expected even when regulating 100% of capacity.
Evaporator Pressure Regulators
Series PRE regulators serve the purpose of maintaining evaporator
pressure above certain predetermined levels. The most important
application is the use of several evaporators w ith d ifferent
evaporating temperatures in conjunction with a common suction
line.
The freezing of water in water chillers and air conditioning systems
can be safely prevented if evaporating temperatures are kept above
0°C, even when loads are greatly reduced.
Selection Guide for Pressure Regulators
Selection Criteria
Capacity Regulator
Series
ACP
CPHE
+
+
PRE
+
Evaporator Pressure Regulator
+
Crankcase Pressure Regulator
Catalogue Page
230
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—
PRC
231
232
234
235
Hot Gas Bypass Regulators Series ACP
Features
•
High quality materials and processes for high reliability and
long lifetime
•
Internal equalization
•
Compact size
Technical Data
Adjustment Range
0 ... 5 bar
Factory Setting
2.7 bar
Max. allowable Pressure PS
Medium Temperature Range TS
31 bar
-40°C ... 120°C
Ambient Temperature Range
-40 ... 50°C
Transport Temperature Range
-40 ... 70°C
Capacity Data
Type
Part No.
ACP 1
047 680
ACP 3
047 283
ACP 5
053374
Connection. Angle
Solder/ODF
inch
Nominal Bypass Capacity* Qn
R134a
R22
R407C
R404A / R507
V4 x V
0.21
0.35
0.41
0.30
V4x V
0.50
0.77
0.89
0.68
3/8x V
1.18
1.83
2.12
1.59
* Nominal capacities at +38°C condensing temperature. +4°C evaporating temperature (saturated temperatures / dew point) and 1 K liquid subcooling at the inlet of the
expansion valve.
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Hot Gas Bypass Regulators Series CPHE
Features
•
High quality materials and processes for high reliability and
long lifetime
•
Superior partial load performance due to double seat orifice
design (CPHE3 to CPHE6)
•
Modular design for economical logistics and easy assembly
and servicing
•
External equalization
Specific connection sizes and flanges available on request.
For selection see page 217
Technical Data
Adjustm ent Range
CPHE
-0.4 ... 5 bar
Factory Setting
1.4 bar
Max. allowable Pressure PS
35 bar
Medium Temperature Range TS
-40°C ... 120°C
Am bient Temperature Range
-40 ... 50°C
Transport Temperature Range
-40 ... 70°C
Capacity Data CPHE
Nominal Bypass Capacity Qn
Type
Orifice
Standard Flange
Power
Solder/ODF
Assembly
kW
R134a
CPHE- 1X
3.5
R22
5
R407C
5.8
R404A / R507
mm
inch
4.5
X 22440-B5B
C 501 - 7 mm
12 x 16
C 501 - 7
1/2x 5/8
A 576
5/8x 7/8
(7/8x 1-1/8
ODM)
CPHE- 2X
6.4
9
10.4
8.1
X 22440-B8B
A 576 mm
16 x 22
(22 x 28O
ODM)
CPHE- 3X
12
17
20
15
X 11873-B5B
10331
22 x 22
10331
7/8x 7/8
(1-1/8x 1-1/8
ODM)
CPHE - 3.5X
13
19
22
17
X 9117-B7B
CPHE- 4X
16
23
27
21
X 9117-B9B
9153 mm
22 x 22
9153
7/8x 7/8
CPHE- 5X
21
29
34
26
X 9166-B10B
CPHE - 6X
35
50
58
45
X 9144-B13B
9149
22 x 22
9149
7/8x 7/8
X7818 - 1
Nominal capacities at +38°C condensing temperature, +4°C evaporating temperature (saturated temperatures / dew point) and 1 K liquid subcooling at the inlet of the
expansion valve.
Specific connection sizes and flanges available on request. For selection, see page 217.
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—
Correction Tables for Series ACP and CPHE
For other evaporating temperatures the bypass capacity QByp shall
be multiplied with the correction factor KByp.
Q Byp x K Byp _ Q n
QByp:
KByp:
Qn:
Required bypass capacity
Correction factor for evaporating
temperature
Nominal valve capacity
Refrigerant
R134a
R22
R407C
R404A / R507
Correction Factor K_
'Byp
Evaporating Temperature °C
Condensing
Temperature
°C
+10
0
-10
-20
50
0.78
0.77
0.78
0.80
40
0.99
0.94
0.93
0.94
-30
-40
30
1.35
1.21
1.15
1.14
50
0.80
0.77
0.77
0.77
0.79
0.82
40
1.00
0.93
0.91
0.91
0.92
0.95
30
1.34
1.19
1.12
1.10
1.09
1.12
50
0.83
0.82
0.83
0.86
40
0.99
0.95
0.95
0.97
30
1.26
1.17
1.13
1.13
50
0.86
0.85
0.87
0.91
0.97
1.06
40
0.99
0.95
0.94
0.96
1.00
1.05
30
1.26
1.13
1.09
1.08
1.10
1.14
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Evaporator and Crankcase Pressure Regulator Series PRE and PRC
Features
•
Compact design permits minimal space requirements
•
Schrader valve on inlet for ease of setting
•
Direct operated regulator
•
Balanced port design provides accurate pressure control
•
Copper tubes for easy soldering
Technical Data
Refrigerants
HFC. HCFC
Oil compatibility
Mineral, Alkyl Benzene and PolyolEster (POE) lubricants
Max. allowable pressure PS
Max. test pressure PT
Pressure change per turn:
Valve size 1
Valve size 2
0.6 bar
0.4 bar
25 bar
30 bar
Pressure range
Factory setting
0.5 to 6.9 bar
2 bar
Material. housing
CW509L (EN12420)
Temperature range
Storage
-30°C to 80°C
Medium TS -30°C to 80°C
Ambient
-30°C to 80°C
Weight:
PRC/PRE-1..
PRC/PRE-2..
0.6 kg
1.3 kg
Evaporator Pressure Regulator Series PRE
Selection
Tube Connection
ODF
Type
Part No.
PRE - 11A
800 380
16 mm - 5/8”
PRE - 11B
800381
22 mm - 7/8”
PRE - 21C
800382
28 mm
PRE - 21D
800 383
1 -78”
Nominal Capacity* Qn (kW)
R134a
R404A / R507
R407C
R22
3.0
4.5
4.5
4.8
7.4
11.1
11.1
11.9
-30
*Nominal capacities are based on evaporating Temperature +4°C, condensing temperature +38°C and a pressure drop of 1K.
Correction Table
Selection for operating conditions other than +38°C/+4°C and 1 K liquid subcooling
at the inlet of the valve: Qn = Q0 x Kt
Refrigerant
R404A /
R507
R407C
R134a
R22
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Condensing
Temperature
°C
Qn: Nominal valve capacity
Qo: Required cooling capacity
Correction Factor K
Evaporating Temperature °C
10
0
-10
-20
60
1.35
1.91
2.77
4.18
6.53
50
1.05
1.46
2.07
3.05
4.62
40
0.88
1.22
1.71
2.48
3.69
30
0.77
1.06
1.48
2.12
3.13
55
1.02
1.42
2.04
50
0.94
1.31
1.87
40
0.84
1.17
1.66
30
0.77
1.06
1.50
60
1.04
1.51
2.17
50
0.92
1.34
1.91
40
0.83
1.20
1.71
30
0.76
1.10
1.55
60
1.02
1.37
1.87
2.67
3.91
50
0.93
1.25
1.70
2.42
3.53
40
0.86
1.15
1.57
2.22
3.23
30
0.80
1.07
1.45
2.05
2.98
Crankcase Pressure Regulator Series PRC
Selection
Type
Part No.
Tube Connection
ODF
PRC - 11A
800384
16 mm - 5/8”
PRC - 11B
800 385
22 mm - 7/8”
PRC - 21C
800386
28 mm
PRC - 21D
800 387
PRC - 21C
800388
1 J /8”
35 mm - 1-3/8”
Nominal Capacity* Qn (kW)
R134a
R404A / R507
R407C
R22
3.0
4.5
4.5
4.8
7.4
11.1
11.1
11.9
*Nominal capacities are based on evaporating temperature +4°C and condensing temperature +38°C and a pressure drop of 1 K.
Capacity Table
Selection for operating conditions other than +38°C / +4°C and 1 K liquid
subcooling at the inlet of the valve: (capacities are based on a pressure
drop of 0.07 bar).
Refrigerant
Capacity (kW) Valve setting °C
Evaporating
Temperature
°C
-20
-15
-10
-5
0
-29
2.3
3.4
4.4
4.8
4.9
2.4
4.1
5.4
5.8
2.7
4.9
6.2
3.5
5.3
3.1
4.8
Valve Size 1: PRC-11x
-21
R22
-14
-8
-3
R407 C
R134 a
-1
2.9
-6
2.1
1
7
R404A /
R507
-20
-14
-10
5
10
-20
-15
-10
-5
0
5.8
8.8
10.0
10.0
10.0
6.5
12.1
12.1
12.1
8.1
13.8
13.8
9.0
15.4
7.9
13.9
3.1
-6
-27
Valve Size 2: PRC-21x
2.9
3.7
3.9
1.9
3.5
4.5
2.2
4.5
3.1
10
10.3
12.9
6.1
12.2
9.9
9.2
3.9
5.3
2.4
4.7
5.2
3.3
1.6
5
8.1
4.8
8.2
8.2
8.2
5.7
9.8
9.8
6.8
11.6
8.1
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236
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__—
Pressure Controls and Thermostats
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Pressure Controls
Basic Terms and Technical Information
Characteristics
The formula is:
Pressure controls serve various functions, which may be divided
into control and protection fu n ctio n s. Exam ples for control
functions are compressor cycling, pump-down or defrost control.
Protection functions include pressure limiting and cut out against
excessive pressures, against loss of charge or for freeze protection.
These functions are performed by operating a set of electrical
contacts when exceeding a preset lower or upper pressure limit.
Depending on whether they are type tested (TUV approved) or
not they may be referred to by the following terms:
w ithout TUV approval:
with TUV approval:
Upper switching point - Differential =
Lower switching point
Pm ax — A p = Pmin
Function of contacts SPDT
On pressure rise above setting 1-2 opens and 1-4 closes. On
pressure drop below setting 1 -2 closes and 1 -4 opens.
Pressure Control
Pressure Limiter,
Pressure Cut Out or
Safety Pressure Cut Out
0— 4
1—0 ^
Pressure controls with TUV approval are tested according to EN
12263 as required by DIN 8901 and EN 378.
1. Pressure controls (without TUV approval)
Pressure controls w ithout type approval may either be of
the autom atic or manual reset type. Manual reset versions
are available for decreasing (manual reset m in.) or increasing
pressure (manual reset m ax.).
SPDT with manual reset max.
On pressure rise above setting 1-2 opens and 1-4 closes and
latches. The device can be manually reset when the pressure has
dropped below setting.
0— 4
1—0 ^
2. Pressure limiters PSL/PSH
Pressure limiters are of the automatic reset type. Limiters for
high pressure applications have a double bellows design to act
as fail-safe controls.
3. Pressure cut outs PZH/PZL
Pressure cut outs are of the manual reset type where reset is
possible from the outside of the control w ithout the need for
a tool (external reset). Cut outs for high pressure applications
have a double bellows design to act as fail-safe controls.
SPDT with manual reset min.
On pressure drop below setting 1-2 closes, 1-4 opens and latches.
The device can be m anually reset when the pressure has risen
above setting.
4. Safety pressure cut outs PZHH/PZLL
Pressure cut outs are of the manual reset type where the reset
requires the use of a tool. Typically, the removal of a cover is
required in order to press the reset button (internal reset).
Cut outs for high pressure applications have a double bellows
design to act as fail-safe controls.
4
m t:
Unit of pressure
Adjustment of switching points
A pressure gauge should always be used for comparison when
adjusting the switching points on pressure controls. The setting
scale on the device is intended to serve for orientation, showing the
setting range of the upper switching point pmax in bar/psig and the
value of the pressure differential Ap as difference between upper
switching point pmax and the lower switching point pmin. The upper
switching point pmax has to be adjusted on the scale, whereas the
lower switching point pmin is given by adjustment of the desired
switching differential Ap.
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All pressures are given in gauge pressure
Pabsolute
. l t = Pgauge + 1bar
1 bar = 100 kPa
1 bar = 14.5 psi
Pulsation damping
All high pressure controls with A-connection (7/16-20UNF. %” SAE
male) are equipped with a snubber to protect the pressure element
from pulsations.
Standards and Regulations
BGV D4 (VBG20)
Accident prevention regulations
for refrigeration plant.
DIN 8901
Heat pumps with fluorocarbon
refrigerants. Protection of soil,
underground and surface water.
EN 60947-1/
EN 60947-5-1
Specifications for low-voltage
switchgear.
EN 378
Refrigerating systems and heat
pumps - Safety and environmental
requirements.
EN 12263:
Refrigerating systems and heat
pumps - Safety switching devices
for limiting the pressure requirements
and tests.
Selection Guide for Pressure Controls
Selection Criteria
Design
Number of
Contacts (SPDT)
Adjustable
Protection
DIN 40050
IEC 529
PS1
Standard Model
1
yes
PS2
Dual Pressure
Switch
1+1
PS3
Pressure Switch
Standard-Types
Series
Rated Operational Current
at 230 V AC
Catalogue Page
Inductive Amp.
AC 15
Motor Rating
UL
IP 44
10 A
24 A
240
yes
IP 44
10 A
24 A
242
1
Factory set to
fixed values
IP 30 / IP 65
3A
6A
244
PS3
Pressure Switch
OEM-Types
1
Fixed values acc.
to customer
spec. depending
on volume
IP 30 / IP 65
3A
6A
246
FD 113
Differential
Pressure Switch
1
yes
pressure diff. +
time delay
IP 30
3A/ 6A
-
247
239
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Pressure Controls Series PS1 / PS2
Features
•
Adjustable pressure range
•
Automatic and manual reset versions
•
Flare and solder connections
•
Shatter resistant contacts
•
High operational current, locked rotor max. 144 Amps
(LRA)
•
Standard SPDT with same operational current rating for
both contacts
•
Dual pressostat with two separate SPDT for high and low
pressure side
•
Including sealable blocking plate and mounting screws
PS2
per Low Voltage Directive
•
f
£
•
Manufactured and tested to
our own responsibility
•
c© u s usted
•
German Lloyd for use on ships, when equipped
with marine-type cable gland
Options
•
Convertible reset to reduce stock
•
Further pressure connections
•
Factory set to customer specification
PS1
Standards
per PED Directive 97/23 EG. TUV appr.
versions only
standards on
Underwriter Laboratories
Technical Data PS1 / PS2
Type of Contacts
1 SPDT for PS1
2 separate SPDT for PS2
Inductive Amp. (AC15)
Inductive Amp. (DC13)
10 A / 230V AC
0.1 A / 230V DC
Motor Rating, Full Load Amp.
Motor Rating, Locked Rotor Amp.
24 A / 120/240V AC
144 A / 120/240V AC
Protection acc. DIN 40050 / IEC 529
IP 44
Ambient Temperature Range
Max. Temperature at Pressure Connection
-50°C .. +70°C
+70°C
Vibration Resistance (10 to 1000 Hz)
4g
Cable Entry
Grommet PG 16
Locking Device
Blocking Plate
Mounting Screws
M4 / UNC 8-32
Single Pressure Controls PS1
Adjustment Range
Type
Part No.
Upper
Setpoint
bar
Differential
bar
Lowest
Setpoint
bar
Factory
Setting
bar
Leakage Test
Pressure
bar
Pressure
Connection
Low Pressure Controls
PS1-A3K
4 370 600
capillary/nut
PS1-A3L
4 714 945
5
V - 2 0 UNF
LQ
o
4 370 700
LQ
o
PS1-A3A
-0.9
3.5 / 4.5
24
cap./solder
PS1-A3U
4 712 201
solder 6 mm
PS1-A3X
4 713 430
solder 1/4“
PS1-R3A
4350100
LQ
o
external
reset
approx. 1 bar
above
setpoint
PS1-R3K
4 713 431
V - 2 0 UNF
-0.9
3.5
24
capillary nut
High Pressure Controls
PS1-A5L
4715136
PS1-A5U
4713325
PS1-A5X
4 713 434
PS1-R5A
4 350 700
PS1-R5K
4 370 300
PS1-R5X
4 713 436
3
16 / 20
35
cap./solder
solder 6 mm
solder 1/4“
31
6
240
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5
capillary nut
2
V - 2 0 UNF
31
4 350 500
4 370 400
6
PS1-A5A
PS1-A5K
ext. manual
reset low
approx. 3 bar
under setpoint
V - 2 0 UNF
-
20
35
capillary nut
solder 1/4“
Single Pressure Controls Series PS1 TUV / EN 12 2 6 3
Adjustment Range
Type
Part No.
Upper Setpoint
bar
Differential
bar
Lowest
Setpoint
bar
Factory
Setting
bar
Leakage Test
Pressure
bar
Pressure
Connection
Pressure Limiter for Low Pressure Protection PSL - Automatic Reset
4713437
5
4 321 400
PS1-W3U
5
0
..
PS1-W3K
7/16”-20 UNF
7
4 368 300
5
.
-0
.
PS1-W3A
-0.9
3.5 / 4.5
24
capillary/nut
solder 6 mm
Pressure Cut Out for Low Pressure Protection PZL - External Reset
PS1-B3U
4 715 141
7/,6”-20 UNF
7
4 470 400
5
.
-0
.
PS1-B3A
approx. 1 bar
above setpoint
-0.9
3.5
24
solder 6 mm
Pressure Limiter for High Pressure Protection PSH - Automatic Reset
PS1-W5A
4 353 200
PS1-W5K
4359100
PS1-W5L
4 715 143
PS1-W5U
4 713 439
7/,6”-20 UNF
6 ... 31
2 ... 15
3
16 / 20
35
capillary/nut
cap./solder
solder 6 mm
Pressure Cut Out for High Pressure Protection PZH - External Manual Reset
PS1-B5A
4 353 300
PS1-B5L
4 715 144
PS1-B5U
4712332
PS1-B5X
4 713 441
7/,6”-20 UNF
6 ... 31
external reset
approx. 3 bar
under setpoint
20
35
cap./solder
solder 6 mm
solder 1/4“
Safety Pressure Cut Out for High Pressure Protection PZHH - Internal Manual Reset
PS1-S5A
4 368 400
PS1-S5L
4 715 145
PS1-S5U
4711 591
PS1-S5X
4 713 442
7/,6”-20 UNF
6 ... 31
internal reset
approx. 3 bar
under setpoint
21
35
cap./solder
solder 6 mm
solder 1/4“
241
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Dual Pressure Controls Series PS2
PS2
Adjustment Range
Type
Leakage Test
Pressure
Upper Setpoint
Part No.
left bar
right bar
Factory Setting
left bar
right bar
Pressure
Connection
left bar
left bar
right bar
right bar
Combined Low and High Pressure Controls
4713565
PS2-A7U
4 713 415
solder 6 mm
PS2-A7X
4 713 416
solder 1/4”
PS2-L7A
4 351 100
PS2-L7K
4 370 500
PS2-L7U
4 713 417
PS2-L7X
4 713 418
6 ... 31
5
4 713 419
6 ... 31
LO0
.
PS2-R7U
7
4 713 421
7
PS2-R7K
5
.
-0
.
4 351 300
5
.
-0
.
PS2-R7A
6 ... 31
5
PS2-A7L
LH0
.
V - 2 0 UNF
capillary/nut
7
4 353 400
4 350 900
5
.
-0
.
PS2-A7A
PS2-A7K
ca. 4 fix
external
reset
approx. 4
bar under
setpoint
external
reset
approx. 1
bar above
setpoint
3.5 / 4.5
20
24
35
cap./solder
7/16”-20 UNF
3.5 / 4.5
20
24
35
capillary/nut
solder 6 mm
solder 1/4”
V -20 UNF
3.5
20
24
35
capillary/nut
solder 6 mm
Dual Pressure Controls Series PS2 TUV / EN 12263
Combined Pressure Limiter for Low Pressure / High Pressure Protection
PSL / PSH - automatic / automatic
V -20 UNF
4 450 200
capillary/nut
PS2-W7L
4 450 300
7
4360100
PS2-W7K
5
.
-0
.
PS2-W7A
6 ... 31
0.5a) ... 5
ca. 4 fix
3.5 / 4.5
20
24
35
cap./solder
PS2-W7U
4 712 436
solder 6 mm
PS2-W7X
4 713 429
solder 1/4”
Combined Pressure Limiter / Pressure Cut Out for Low Pressure / High Pressure Protection
PSL / PZH - automatic / external manual reset
PS2-C7A
4 353 500
PS2-C7K
4 348 400
4 713 422
PS2-C7X
4 713 423
7
5 715 131
PS2-C7U
5
.
-0
.
PS2-C7L
V -20 UNF
6 ... 31
0.5a) ... 5
external
reset
approx. 4
bar under
setpoint
capillary/nut
3.5 / 4.5
20
24
35
cap./solder
solder 6 mm
solder 1/4”
Combined Low and High Pressure Controls. High Side Convertible From Automatic to Manual Reset
PS2-M7A
4 361300
-0.5 .. 7
6 ... 31
0.5a ... 5
-
3,5 / 4,5
21
24
35
V -20 UNF
24
35
7/16”-20 UNF
Combined Pressure Limiter Safety Pressure Cut Out for low pressure / high pressure protection
EN 12263 PSL / PZHH (automatic / automatic convertible to external manual reset)
PS2-N7A
4 715 756
-0.5 .. 7
a) lowest possible setpoint: -0.9 bar
242
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—
6 ... 31
0.5a ... 5
-
3,5 / 4,5
21
Dual Pressure Controls PS2 TUV / EN 12263
Adjustment Range
Type
Leakage Test
Pressure
Upper Setpoint
Part No.
left bar
right bar
Factory Setting
left bar
right bar
left bar
Pressure
Connection
left bar
right bar
24
35
right bar
Combined Pressure Limiter / Safety Pressure Cut Out for Low Pressure / High Pressure Protection
PSL / PZHH - automatic / internal manual reset
PS2-T7A
4 368 500
-0.5 . 7
PS2-T7U
6 . 31
0.5a) ... 5
4 713 424
external
reset
approx. 4
bar under
setpoint
V - 2 0 UNF
3.5 / 4.5
20
solder 6 mm
Combined Pressure Cut Out for Low Pressure / High Pressure Protection
PZL / PZH external manual reset / external manual reset
PS2-B7L
4 446 700
PS2-B7U
4 449 400
6 ... 31
7
4 360 200
4 446 600
LJ1-0
.
PS2-B7A
PS2-B7K
external
reset
approx. 1
bar above
setpoint
V -20 UNF
external
reset
approx. 4
bar under
setpoint
3.5
20
24
35
capillary/nut
cap./solder
solder 6 mm
Combined Pressure Cut Out / Safety Pressure Cut Out for High Pressure Protection
PZH / PZHH external manual reset / internal manual reset
PS2-G8A
4 368 600
PS2-G8K
4 445 500
PS2-G8U
4 713 427
PS2-G8X
4 713 428
6 ... 31
6 ... 31
external
reset
approx. 4
bar under
setpoint
V -20 UNF
external
reset
approx. 4
bar under
setpoint
20
21
35
35
capillary/nut
solder 6 mm
solder 1/4”
a) lowest possible setpoint: -0.9 bar
Accessories
12,5
04,5
M4
<0
Mounting
bracket angle
Mounting plate for
units with hood
Extension bracket
Part No.: 803 799
Part No.: 803 801
Part No.: 803 800
65
41
7/i 6”-20 UNF -
=H=C t
Universal
mounting
bracket
Part No.: 803 798
Capillary Tube with two
flare nuts 7/16”-20 UNF. R 1/4"
Copper Gasket Set for R 1/4 ‘
(7/16”-20 UNF. female)
1.5m
Part No.: 803 804
100 pcs package
Part No.: 803 780
243
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Pressure Controls Series PS3 / Standard types
Compact Pressure Switch with fixed switch-point settings
Features
•
Maximum allowable pressure up to 43 bar / test
pressure up to 48 bar
•
Standard factory settings from stock in small volumes
•
High and low pressure switches
•
High temperature version with snubber for direct
compressor mounting (range 6)
•
Direct mounting reduces the number of joints and thus
avoiding potential leakage
•
Precise setting and repeatability
•
IP 65 protection if used with PS3-Nxx cables with plug
(acc. EN 175301-803), no additional gasket required
(molded into plug)
•
Cables with plug to be ordered separately
Standards
• C €
per Low Voltage Directive
• C C
per PED Directive 97/23 EG, TUV appr.
versions only
•
Manufactured and tested to
on our own responsibility
standards
•
c^Oususrai Underwriter Laboratories (File No. E85974)
Technical Data
Protection according to
DIN 40050 / IEC 529
Inductive Amp. (AC)
IP 00
IP 30 with terminal cover
IP 65 with PS3-Nxx/-Lxx
cables with plug or
Plug DIN 43650
3A/ 230V AC
Inductive Amp. (DC)
0.1A / 230V DC
Motor rating. full load Amp.
6A / 120/240V AC
Motor rating. locked rotor Amp.
36A / 120/240V AC
Temperature range TS *
ambient. storage and
transportation medium
-40 °C .. 70 °C
-40 °C .. 70 °C (150°C range 6)
Pressure Range PS
- 0.6 .. 43 bar
Vibration resistance (10..1000 Hz)
4g
Type of contacts
1 SPDT
Medium compatibility
HFC, HCFC
Maximum Ambient Temperature (oC)
*Note: For high temperature applications, i. e., medium temperatures between
70 °C and 150 °C, the maximum ambient temperature must be derated as per drawing.
E.g.: on medium temperature 120 °C the ambient temperature of 55 °C around the
switch housing should not be exceeded.
244
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Pressure Controls Series PS3 / Standard types
Fixed setting
Pressure
Control Type
Part No.
Cut out
bar
Max. Temperature
Cut out
bar
Reset
Ambient
°C
Pressure
Connection
°C
Leakage Test
Pressure
bar
Pressure
Connection
48
7/,6”-20UNF
female thread
with
Schrader
opener
30
7/,6”-20UNF
female thread
with
Schrader
opener
48
7/,6”-20UNF
female thread
with
Schrader
opener and
snubber
48
7/,6”-20UNF
female thread
with
Schrader
opener and
snubber
High Pressure Controls
PS3-A6S
0715603
16.0
11.0
PS3-A6S
0715604
19.0
15.0
PS3-A6S
0715600
26.5
22.5
auto
+70
+150
Low Pressure Controls / Pressure Limiter for low pressure protection
PSL TUV / EN 12263
PS3-W1S
0714760
-0.3
1.2
PS3-W1S
0 714 761
0.3
1.8
PS3-W1S
0 714 762
2.0
3.5
auto
+70
+70
Pressure Limiter for high pressure protection
PSH TUV / EN 12263
PS3-W6S
0 715 831
14.0
10.0
PS3-W6S
0715556
21.0
16.0
PS3-W6S
0715555
25.0
20.0
PS3-W6S
0715567
29.0
23.0
PS3-W6S
0715550
33.5
27.5
PS3-W6S
0715553
40.0
33.0
auto
+70
+150
Pressure Cut Out for high pressure protection
PZH with snubber for direct compressor mounting TUV / EN 12263
PS3-B6S
0715568
19.2
PS3-B6S
0715564
22.7
PS3-B6S
0715563
27.3
PS3-B6S
0715569
29.5
PS3-B6S
0715560
36.0
approx. 5 bar
below cut-out
external
manual reset
+70
+150
Selection Chart Cable Assemblies
Temperature Range
-50 to 80°C / no UL
Type
Length (mtr.)
Leads
Part No.
PS3-N15
804 580
1.5
PS3-N30
804 581
3.0
PS3-N60
804 582
6.0
3 x 0.75 mm2
E
o
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Pressure Controls Series PS3 / Special Types
For OEM use with settings according to customer’s specification,
minimum order quantity 100 pcs.
Features
• Maximum allowable pressure up to 43 bar / test pressure up
to 48 bar
• For direct mounting on a pressure connection (free standing)
or with a capillary tube
• Direct mounting reduces the number of joints and thus
avoiding potential leakage
• Direct mounting saves cost for flexible hose and additional
fittings
• Precise setting and repeatability
• High temperature version with snubber, for direct compressor
mounting (range 6)
• Micro switch for narrow pressure differentials
• Gold plated contacts for low voltage / current applications
Standards
• Worldwide approvals
• C €
• Easy mounting
• C C
Options
per Low Voltage Directive
per PED Directive 97/23 EG. TUV appr.
versions only
• Low pressure switch with automatic or manual reset
• High pressure switch with automatic or manual reset,
standard or high temperature version
•
Manufactured and tested to
our own responsibility
•
c ( 5 l ) u s usteo
• Pressure limiter PSH - standard or high temperature version
• Pressure cut-out PZH - external reset, standard or high
temperature version
standards on
Underwriter Laboratories (File No. E85974)
• Safety pressure cut-out PZHH - internal reset, standard or
high temperature version
Pressure connections
Electrical connections (optional)
• A: 7/16”- 20UNF, 1/4” SAE male
• Cables with plug in lengths of 1.5m , 3.0m and 6.0m available.
No additional gasket required.
• U: 6 mm solder. 80 mm length. ODF
• Appliance socket DIN 43650
• K: 1 m capillary tube with 1/4” SAE flare nut and Schrader opener
• S: 7/ 16” -20UNF, fem ale w ith Schrader opener and snubber
(snubber only with high temperature diphragm)
• X : 1/4” solder. 80 mm length. ODF
• L: 1 m capillary tube and 1/4” ODM solder connector
Type of contacts (optional)
• Standard (SPDT)
Installation
• Micro switch (SPDT)
• Depending on pressure co nnectio n, free-standing or w ith
console.
• Gold plated contacts upon request
Technical Data
Protection according to
DIN 40050 / IEC 529
IP 00
IP 30 with terminal cover
IP 65 with PS3-Nxx cables with
plug or Plug DIN 43650
Temperature range TS
Ambient. storage and transportation
Medium
-40°C ... 70°C
-40°C ... 70°C (150°C range 6)
Pressure Range PS
- 0.6 .. 43 bar
Inductive Amp. (AC15)
3 A / 230V AC
1.5 A with microswitch standard
0.1 A with gold plated contacts
Vibration resistance (10..1000 Hz)
4 g (10 to 1000 Hz)
Type of contacts
1 SPDT
0.1 A / 230V DC
Medium compatibility
HFC, HCFC
Motor rating, full load Amp.
6 A / 120/240V AC
2.5 A with microswitch
Available approvals
TUV, UL
Weight (approx.)
0.1 kg
Motor rating, locked rotor Amp.
36 A / 120/240V AC
15 A with microswitch
Inductive Amp. (DC)
For more information see datasheet PS3_e35003.
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Differential Pressure Controls Series FD 113
Features
• Immediate reset (no cooling down period)
• Precise timing
• Adjustable tim e delay from 20 to 150 sec (ZU types)
• Separate output signals for operation and alarm
• Suitable for supply voltage 24 to 240 V AC / DC
• Pressure connection: Flare 7/16“-20 UNF, : /4“ SAE male
Standards
per Low Voltage Directive
•
r
yO.
Manufactured and tested t o / o _ r \ standards on our
own responsibility
•
C 0 U S LISTED
1
I
F D 1 1 3
File No. E85974
Time Delay
Differential
Pressure
Controls Type
Part No.
Cut out
Max.
Differential
Pressure
Max. Proof
Pressure
bar
bar
bar
bar
0.7
0.2 above
cut- out
-0.8 ... 12
25
Adjustable
Adjusting
Range Ap
Factory
Setting
Sec.
Sec.
bar
0.3 ... 4.5
FD 113
0710173
-
-
FD 113 ZU
3 465 300
20 ... 150
120
FD 113 ZU
(A22-057)
Copeland®
brand
products
Cut in Fixed
Setting
Factory
Setting
0711 195
-
115 fix
0.63 fix
-
appr. 0.9
Technical Data
Inductive Amp. (AC)
3.0 A / 230 V AC
Ambient Temperature Range
-20°C to +70°C
Inductive Amp. (DC)
0.1 A / 230 V DC
Max. Temperature at Pressure Connection
+70°C
Protection acc. to EN 60 529
IP 30
Nominal Voltage FD 113 ZU
24 ... 240V AC / DC
Vibration resistance (10 to 1000 Hz)
4g
Accessories
Mounting
bracket angle
Mounting plate for
units with hood
Extension bracket
Part No.: 803 799
Part No.: 803 801
Part No.: 803 800
7/ie”-20 UNF -
=H ==C t
Capillary Tube with two
flare nuts 7/16”-20 UNF. R 1/4“
Copper Gasket Set for R 1/4“
(7/16”-20 UNF. female)
1.5m
Part No.: 803 804
100 pcs package
Part No.: 803 780
247
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Thermostats
Basic Terms and Technical Information
Characteristics
Alco® therm ostats are electric circuit control devices which open
or close an electric contact depending on temperature changes
at the bulb.
Description of bulb charges
The application range of therm ostats is mainly determined by the
charge. Accordingly various bulb shapes and sizes are necessary.
•
A therm om eter should always be used for comparison when
adjusting the switching points on temperature controls. The setting
scale on the device is intended to serve for orientation, showing
the setting range of the upper switching point t max in °C and °F
and the value of the temperature differential A t in K as difference
between the upper switching point t max and the lower switching
point t min. The upper switching point t max has to be adjusted on the
scale, whereas the lower switching point t min is given by adjustment
of the desired switching differential A t. The formula is:
Vapor charge, bulb type A. E. P
The thermosystem is filled with a medium in vapor phase. A
therm ostat with vapor charge operates in accordance with
temperature changes at the bulb as long as the bulb is the
coldest part in the w hole system (bellow s, capillary tube,
bulb). Alco® therm ostats are equipped with a bellows heater
(82 k Ohm, 230 V) to avoid such conditions. On applications
with low current the bellows heater has to be removed. Max.
bulb temperature is 150°C (70°C for bulb type E). Response
time is very fast.
•
Adjustment of switching points
Adsorption charge, bulb type F
This charge only reacts on temperature changes at the bulb.
Max. bulb temperature is 100°C. Response time is slow but
perfectly suitable for common refrigeration systems.
Upper switching point - Differential =
Lower switching point
t max —A t = t min
Important!
The differential At mentioned on the differential scale and in the
technical data refers to the upper part of the setting range and the
upper switching point.
In the lower part of the setting range an increase of the differential At
can be expected. The lowest possible lower switching point t min is
mentioned in the selection tables and is helpful to select switching
points w ith large differentials At in the lower temperature range.
Bulb Sizes
A
E
P
F
k
1
f
2
2,5
09
Vapor
2m, capillary with bulb
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Vapor
coil, 0m
Vapor
2m, capillary with
function C and D 6m
0 9,5
Adsorption
2m, capillary with bulb
Function of Contacts
0— 4
0— 4
H t:
1_0^0^2
H i!
SPDT
SPDT with manual reset min.
SPDT with manual reset max.
- On temperature rise above setting
1 -2 opens and 1 -4 closes.
- On temperature drop below setting
1 -2 closes and 1 -4 opens.
- On temperature drop below setting
1 -2 closes. 1 -4 opens and latches.
- The device can be manually reset when
the tem perature has risen at least 2K
above setting.
- On temperature rise above setting
1 -2 opens and 1 -4 closes and latches.
- The device can be manually reset when
the temperature has dropped 2K below
setting.
0— 4
O
-- —
4
—2
E ll
SPDT w ith off sw itch
AUTO m a tic - STOP
SPDT w ith bellow s heat er
inclu des a 82 k O h m , 230 V A C /D C
resisto r
Standards and regulations
Important for the installation of thermostats:
EN 60730-2-9
Specification for temperature controls and
temperature cut-outs.
EN 60947-1/
EN 60947-5-1
Specifications for low-voltage
switchgear.
EN 378:
Refrigerating systems and heat pumps. Safety
and environmental requirements.
249
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Thermostats Series TS1
Features
•
Adjustable temperatures and differentials
•
Shatter resistant contacts
•
High operational current, locked rotor max. 144 Amps (LRA)
•
Standard SPDT with same operational current rating for both
contacts
•
Captive terminal and cover screws
•
Range and differential individually lockable
TS1 Flush M ou n ted
Technical Data
Type of Contacts
<“ >
1 SPDT
Inductive Amp. (AC15)
10 A / 230 V AC
Inductive Amp. (DC13)
0.1 A / 230 V DC
Heating load (AC1)
24 A / 230 V AC
Motor Rating, Full Load Amp.
24 A / 120/240V AC
TS1 Top O perated
Motor Rating, Locked Rotor Amp.
144 A / 120/240V AC
Ambient Temperature Range
-50°C to +70°C
Standards
Vibration Resistance
(10 to 1000 Hz)
4g
Cable Entry
Grommet PG 16
Protection acc. to
DIN 40050 / IEC 529
IP 44
(IP 30 with Selector Switch)
Bellows Heater at Vapor Charge
82 K Ohm. 230 V AC / DC
(12 and 24 V DC upon request)
Adjustment Range
Type
Part No.
TS1 Front O perated
Lowest
Setpoint
•
( €
per Low Voltage Directive
•
Manufactured and tested to
our own responsibility
•
c (^ u s
listed Underwriter
Factory
Setting
Upper
Setpoint
Differential
Setpoint AT
°C
K
°C
°C
standards on
Laboratories
Max. Bulb
Temp.
Temperature Sensor
Charge
Cap. tube
length
+150
Vapor
2m capillary
+150
Vapor
°C
Thermostats Top Operated
Thermostats without Off-Switch
TS1-A2P
4 530 400
-30 ... +15
1.5 ... 16
-36
-1 / -6
TS1-A3P
4 356 700
-10 ... +35
1.5 ... 16
-23
+3 / -2
TS1-A1A
4 351 500
-45 ...-10
1.5 ... 16
-55
-18 / -20
TS1-A2A
4 351 600
-30 ... +15
1.5 ... 16
-36
-1 / -6
TS1-A3A
4 352 500
-10 ... +35
1.5 ... 16
-23
+3 / -2
2m capillary
and bulb
TS1-A4F
Defrost- and
Universal
Th erm o stat
4 351 800
-30 ... +35
2.8 ... 20
-35
+5 / 0
TS1-A5F
4 458 400
+20 ... +60
3 ... 10
+10
+35/+30
-18 / -20
+100
Adsorption
+150
Vapor
+100
Adsorption
+150
Vapor
Thermostats with Off-Switch
TS1-B1A
4 366 700
-45 ...-10
1.5 ... 16
-55
TS1-B2A
4 366 800
-30 ... +15
1.5 ... 16
-36
-1 / -6
TS1-B3A
4 366 900
-10 ... +35
1.5 ... 16
-23
+3 / -2
TS1-B4F
4 367 000
-30 ... +35
2.8 ... 20
-35
+5 / 0
+4.5 ... +20
2.5 fix
+2
4.5 / +2
+4.5 ... +20
man. reset
ca. 2.5 fix
+2
+2
2m capillary
and bulb
Frost Monitors Top Operated
Frost Monitors without Off-Switch
TS1-C0P
TS1-D0P
Low tem p . c u t out
250
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4352100
4 352 200
6m capillary
Adjustment Range
Type
Part No.
Upper
Setpoint
Differential
Setpoint AT
°C
K
Lowest
Setpoint
Factory
Setting
°C
°C
-55
-18 / -20
-36
+4 / +2
-23
+20/+18
Max. Bulb
Temp.
Temperature Sensor
Charge
Cap. tube
length
+70
Vapor
0m
coil
+70
Vapor
0m
coil
+150
Vapor
°C
Room Thermostats Top Operated
Room Thermostats without Off-Switch, including insulation console
4 362 800
5
-4
TS1-A2E
4 355 200
-30 ... +15
TS1-A3E
4 355 300
-10 ... +35
0
TS1-A1E
1.5 ... 16
Room Thermostats with Off-Switch, including insulation console
TS1-B2E
4 344 400
-30 ... +15
TS1-B3E
4 344 500
-10 ... +35
-36
+4 / +2
-23
+20/+18
2 ... 16
-55
-18 / -20
1.5 ... 16
Thermostats Front Operated
Thermostats without Off-Switch
5
4
-
TS1-E2A
4 356 200
-30 ... +10
1.5 ... 15
-36
+4 / +2
TS1-E3A
4 365 200
-10 ... +25
1.5 ... 15
-23
+3 / -2
Defrost- and uni­
versal the rm o stat
4 367 500
-25 ... +30
2
.
-30
+5 / 0
TS1-E5F
4338100
+20 ... +60
3 ... 10
+10
+35/+30
4 367 600
+0 ... +10
2.5 fix
-2.5
+5.5 / +3
TS1-E4F
M ilk and beer
co oler the rm o stat
0
2
TS1-E7F
00
4 361 000
0
TS1-E1A
2m capillary
and bulb
+100
Adsorption
+150
Vapor
2m capillary
and bulb
+70
Vapor
0m
coil
+70
Vapor
0m
coil
+150
Vapor
Thermostats with Off-Switch
4367100
5
-4
2 ... 16
-55
-18 / -20
TS1-F2A
4 367 200
-30 ... +10
1.5 ... 15
-36
-1 / -6
TS1-F3A
4 367 400
-10 ... +25
1.5 ... 15
-23
+3 / -2
2 ... 16
-55
-18 / -20
0
TS1-F1A
Room Thermostats Front Operated
Room Thermostats without Off-Switch, including insulation console
4 365 300
5
4
-
TS1-E2E
4 356 800
-30 ... +10
1.5 ... 15
-36
+4 / +2
TS1-E3E
4 356 900
-10 ... +25
1.5 ... 15
-23
+20/+18
2 ... 16
-55
-18 / -20
0
TS1-E1E
Room Thermostats with Off-Switch, including insulation console
4 368 000
5
4
-
TS1-F2E
4368100
-30 ... +10
1.5 ... 15
-36
+4 / +2
TS1-F3E
4 368 200
-10 ... +25
1.5 ... 15
-23
+20/+18
0
TS1-F1E
Thermostats for Flush Mounting
Thermostats for Flush Mounting without Off-Switch
4 355 400
-30 ... +15
1.5 ... 15
-36
+4 / +2
TS1-G3A
4 364 800
-10 ... +35
1.5 ... 15
-23
+20/+18
4 355 600
-30 ... +35
-35
+5 / 0
4 356 000
0 ... +10
2.5 fix
-2.5
+5.5 / +3
-55
-18 / -20
TS1-G4F
M ilk and beer
co oler the rm o stat
0
2
TS1-G7F
2
.
Defrost- and uni­
versal the rm o stat
00
TS1-G2A
2m capillary
and bulb
+100
Adsorption
+150
Vapor
Thermostats for Flush Mounting with Off-Switch
4 364 600
5
-4
0
1.5 ... 15
TS1-H2A
4 355 500
-30 ... +15
1.5 ... 15
-36
-1 / -6
TS1-H3A
4 367 900
-10 ... +35
1.5 ... 15
-23
+3 / +2
TS1-H4F
4 355 800
-30 ... +35
-35
+5 / 0
4 365 500
0 ... +10
-2.5
+5.5 / 3
0
2
M ilk and beer
co oler the rm o stat
2
.
TS1-H7F
00
TS1-H1A
2.5 fix
2m capillary
and bulb
+100
Adsorption
Thermostats for flush mounting are delivered with mounting angle Order No. 803 805.
251
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Accessories & Spare Parts
Insulation Console
for room therm ostats standard
Part No.: 803 777
Capillary Tube Holder
for frost monitors standard
Part No.: 803 778
12,5^
04 ,5 '
M4"
Mounting Bracket Angle
Mounting Plate
Extension Bracket
Part No.: 803 799
for units with hood
Part No.: 803 801
Part No.: 803 800
65
41
SW27
G VS'
1Q
07
12C
Capillary Tube Gland. Brass
Universal Mounting Bracket
for bulb style A / C
Part No.: 803 807
Part No.: 803 798
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System Protectors and Moisture Indicators
http://holodko.ru/
Filter Driers
Basic Terminology and Technical Information
Function
Flow capacity
The purpose of filter driers is to keep the refrigeration circuit clean
of water, acid and solid contaminants. In case of contamination,
corrosion and ice building can occur, as well as malfunction of the
compressor.
Flow capacity refers to ARI-Standard 710-86 and DIN 8949 and is
based on a pressure drop of 0.07 bar, +30°C liquid temperature
and -15°C evaporating temperature for common refrigerants.
The flow capacities are given at two levels of pressure drop: 0.07
and 0.14 bar.
Property of desiccants
For Filter drier selection under other operating conditions, use the
correction factors on page 263.
Molecular sieves
This kind of desiccant has a very good drying effect independent
of the oil content of the refrigerant. Molecular sieve is a fast acting
desiccant and will remove moisture even when the water content
of the refrigerant is low and when the temperature of the liquid
refrigerant is high.
Water capacity
The water capacity for R22 refers to ARI 710-86 and DIN8948 is
based on a liquid temperature of 24/52°C and an equilibrium point
dryness (E p D) of 60 PPM water in refrigerant. The EPD for other
refrigerants according to DIN 8949 is as follows:
Activated alumina
Activated alumina incorporate an excellent acid capacity.
By selecting a specific mixture of both desiccants, an optimum
effect can be achieved to cover the requirements of all kinds of
applications. Liquid filter driers are specially designed for a high water
capacity, whereas suction line filter driers feature a high acid and
filtration capacity.
Refrigerant
EPD (PPM)
R134a
50
R407C
50
R404A
50
R507
50
R410A
50
Selection Guide for Filter and Filter Driers
Series
Selection criteria
Hermetic design
ADKS/FDH with core
BFK
ADK
FDB
+
+
+
For exchangeable cores
F48
S24
F24
+
+
+
+
+
Quick cap flange
Filter drier
+
+
+
+
For liquid service
+
+
+
+
Max. allowable pressure PS
Catalogue page
*dependent on medium temperature
254
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ASD
+
+
+
+
+
AF
AF-D
+
+
+
+
+
+
+
For suction service
For Heat Pumps (Bi-Flow)
BTAS with core
ASF
+
+
Filter
Shell material
FDS-24 with core
H/S/W48
+
+
+
+
Steel
Steel
+
+
+
Steel
Steel
Steel
Steel
Steel
45 bar
45 bar
45 bar
34.5*7 46.0* bar
34.5* bar
255
256
258
260/261
262
27.5 bar
266
266
Brass
24 bar
267
Bi-flow Filter Driers Series BFK
H erm etic Design for Liquid Refrigerants
Features
•
Solid block style
•
Integrated check valves ensure Bi-flow capability, eliminate the need
for external check valves and reduce the external piping
•
ODF Copper fittings for easy soldering
•
Pattern flow for non-turbulent performance
•
High water, acid adsorption capacity
•
Temperature range TS: -40°C to +65°C
•
Max. allowable pressure PS: 45 bar
•
No CE marking according art. 3.3 PED 97/23 EC
•
HP marking according to German Pressorized Vessel Directive
Underwriter Laboratories
Nominal Flow Capacity (KW)
Type
Part No.
Connection size
& type
at 0.07 bar pressure drop
at 0.14 bar pressure drop
R134a
R22
R407C
R404A
R507
R410A
R134a
R22
R407C
R404A
R507
R410A
BFK-052
007 343
1/4 “(6mm)SAE
5.2
5.7
5.4
3.7
5.6
8.0
8.8
8.4
5.7
8.7
BFK-052S
007 344
1/4”ODF
6.8
7.3
7.0
4.8
7.2
10.1
11.1
10.6
7.2
10.9
BFK-083
007 345
3/8 “(10mm)SAE
10.6
11.5
11.0
7.5
11.4
16.9
18.4
17.6
12.0
18.2
BFK-083S
007 346
3/8”ODF
12.0
13.1
12.5
8.5
12.9
20.6
22.5
21.5
14.7
22.2
BFK-084
007 347
1/2 “(12mm)SAE
15.2
16.6
15.8
10.8
16.4
25.8
28.1
26.8
18.3
27.8
BFK-084S
007 348
1/2”ODF
15.6
17.0
16.2
11.1
16.8
28.7
31.3
29.9
20.4
30.9
BFK-163
007 349
3/8 “(10mm)SAE
13.6
14.9
14.2
9.7
14.7
21.0
22.9
21.8
14.9
22.6
BFK-163S
007350
3/8”ODF
15.5
16.9
16.1
11.0
16.7
23.8
26.0
24.8
17.0
25.7
BFK-164
007 351
1/2 “(12mm)SAE
20.3
22.1
21.1
14.4
21.9
27.5
30.0
28.6
19.6
29.6
BFK-164S
007352
1/2”ODF
24.3
26.5
25.3
17.3
26.1
34.4
37.6
35.9
24.5
37.1
BFK-165
007353
5/8 “(16mm)SAE
25.1
27.4
26.2
17.9
27.1
35.3
38.5
36.8
25.1
38.0
BFK-165S
007354
5/8”ODF
25.6
28.0
26.7
18.3
27.6
37.0
40.4
38.5
26.3
39.9
BFK-305S
007356
5/8”(16mm) ODF
34.1
37.3
35.6
24.3
36.8
52.8
57.7
55.0
37.6
56.9
BFK-307S
007357
7/8”(22mm) ODF
40.6
44.3
42.3
28.9
43.7
65.7
71.7
68.4
46.8
70.8
BFK-309S
007358
1 1/8”ODF
47.0
51.3
49.0
33.5
50.7
79.9
87.2
83.2
56.9
86.1
The rated flow capacities are in accordance with ARI standard 710-86 and
DIN 8949 at +30°C liquid temperature and -15°C evaporating temperature.
Selection method for other conditions:
1. Determine the correction factor (page 263) based on type of
refrigerant, liquid and evaporating temperature.
2. Multiply the correction factor by cooling capacity or heating capac­
ity whatever is more.
3. Select the filter drier according to determined capacity
corresponding to flow capacity at 0.07 bar pressure drop.
W ater and Acid Adsorption Capacity
Water adsorption capacity (gram)
Liquid Temperature 24 °C
Type
BFK-05...
Liquid Temperature 52 °C
Acid
Adsorption
Capacity (g)
R134a
R22
R404A/R507
R407C
R410A
R134a
R22
R404A/R507
R407C
R410A
4.4
4.1
4.5
3.4
2.8
4.1
3.8
4.3
2.8
2.2
0.3
BFK-08...
9.6
9.0
9.9
7.5
6.2
8.9
8.2
9.4
6.0
4.7
0.6
BFK-16...
18.9
17.7
19.5
14.8
12.2
17.5
16.2
18.5
11.9
9.3
1.2
BFK-30...
34.5
32.3
35.6
27.1
22.4
31.9
29.6
33.7
21.7
17.0
2.0
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Filter Driers Series ADK
H erm etic Design for Liquid Refrigerants
Features
Robust block with optimum blend of molecular sieve and activated
alumina
ODF Copper fittings for easy soldering
High water and acid capacity
Filtration down to 20 micron
Temperature range TS: -40°C to +65°C
Max. allowable pressure PS: 45 bar
No CE marking according art. 3.3 PED 97/23 EC
ADK
HP marking according to German Pressorized Vessel Directive
u s lb t fd
Underwriter Laboratories
Nominal Flow Capacity (kW)
Type
Part No.
nom. Conditions see next page
at 0.07 bar pressure drop
at 0.14 bar pressure drop
R407C
R407F
R404A
R507
R407C
R407F
R410A
7.0
10 .2
10.5
15.4
1 1 .8
17.4
12.7
18.8
R22
R134a
R404A
R507
ADK-032
003 595
7.3
6.7
4.8
7.0
ADK-036MMS
003 597
8.0
7.3
5.2
7.6
ADK-032S
003 596
8.8
8.1
5.7
8.4
ADK-052
003 598
7.6
6.9
4.9
7.2
ADK-056MMS
003 600
10 .0
9.2
6.5
9.5
ADK-052S
003 599
10 .8
9.9
7.0
10.3
10.4
13.6
R410A
R744
R22
R134a
7.2
10 .6
10 .6
9.7
6.9
10 .1
7.9
1 1 .6
1 2 .0
1 1 .0
7.8
11.4
8.5
8.7
1 2 .8
12.9
1 1 .8
8.4
12.3
12.4
7.3
7.5
1 1 .0
1 1 .0
10 .1
7.2
10.5
10 .6
9.9
14.5
15.0
13.7
9.8
14.3
10.7
15.7
17.1
15.6
1 1 .1
16.3
ADK-053
003 601
14.2
13.0
9.2
13.5
ADK-0510MMS
003 603
16.4
15.0
10.7
15.6
ADK-053S
003 602
16.4
15.0
10.7
15.6
15.8
ADK-082
003 604
7.8
7.1
5.1
7.4
7.5
ADK-086MMS
003 606
10.7
9.8
7.0
10 .2
ADK-082S
003 605
11.9
10.9
7.8
11.4
11.5
1 1 .8
17.4
ADK-083
003 607
16.4
15.0
10.7
15.6
16.0
16.2
23.8
ADK-0810MMS
003 609
16.4
15.0
10.7
15.6
16.2
23.8
24.1
ADK-083S
003 608
16.4
15.0
10.7
15.7
15.8
16.2
23.9
24.1
2 2 .1
15.7
23.0
ADK-084
003 610
25.7
23.5
16.7
24.5
24.7
25.3
37.3
39.1
35.8
25.5
37.3
ADK-0812MMS
003 612
26.3
24.1
17.2
25.1
26.0
38.3
39.5
36.2
25.8
37.7
R744
10.9
16.0
14.8
2 1 .8
16.5
16.9
24.8
20.5
2 1 .0
31.0
23.8
35.1
35.1
14.0
20 .6
21.3
19.5
13.9
20.3
16.1
23.8
24.1
2 2 .1
15.7
23.0
16.1
23.8
24.1
2 2 .1
15.7
23.0
24.8
23.8
7.7
11.3
11.3
10.4
7.4
10 .8
10.9
1 1 .2
16.4
10.5
15.5
16.0
14.7
10.4
15.3
15.8
23.3
17.3
15.9
11.3
16.5
16.7
17.1
25.2
23.9
21.9
15.6
2 2 .8
23.1
23.6
34.8
2 2 .1
15.7
23.0
23.8
35.0
23.3
23.8
35.1
37.7
38.6
56.9
39.0
57.4
58.7
ADK-084S
003 611
26.8
24.5
17.5
25.6
25.8
26.4
39.0
40.4
37.0
26.3
38.5
38.9
39.8
ADK-162
003 613
8.0
7.3
5.2
7.6
7.7
7.8
1 1 .6
11.5
10.5
7.5
10.9
1 1 .0
11.3
16.7
ADK-163
003 614
16.8
15.4
10.9
16.0
16.2
16.5
24.4
24.1
2 2 .1
15.7
23.0
23.3
23.8
35.1
ADK-1610MMS
003 616
18.7
17.1
12 .2
17.8
18.5
27.2
26.8
24.5
17.5
25.6
26.5
39.0
ADK-163S
003 615
18.7
17.2
12 .2
17.9
18.1
18.5
27.2
26.8
24.5
17.5
25.6
25.8
26.5
39.0
ADK-164
003 617
31.3
28.7
20.4
29.9
34.1
30.9
45.5
47.1
43.2
30.7
45.0
47.2
46.5
68.6
47.9
70.5
ADK-1612MMS
003 619
32.3
29.6
2 1.1
30.8
31.9
47.0
48.5
44.4
31.6
46.3
ADK-164S
003 618
36.0
33.0
23.5
34.3
35.1
35.5
52.3
49.9
45.7
32.6
47.6
48.1
49.3
72.6
ADK-165
003 620
44.8
41.1
29.2
42.8
43.2
44.3
65.2
66.5
60.9
43.4
63.5
64.1
65.7
96.7
ADK-165S
003 621
49.7
45.6
32.4
47.4
47.9
49.1
72.3
72.4
66.3
47.2
69.1
69.8
71.5
105.3
ADK-303
003 622
17.7
16.2
11.5
16.9
17.1
17.5
25.7
25.4
23.2
16.5
24.2
24.5
25.0
36.9
ADK-304
003 623
31.3
28.7
20.4
29.9
30.2
30.9
45.5
47.1
43.2
30.7
45.0
45.5
46.5
68.6
ADK-304S
003 624
36.0
33.0
23.5
34.4
34.7
35.6
52.4
51.6
47.2
33.6
49.2
49.7
50.9
75.0
ADK-305
003 626
52.6
48.2
34.3
50.2
50.7
52.0
76.6
72.1
66.0
47.0
68.7
69.5
71.1
104.8
ADK-305S
003 627
52.8
48.4
34.4
50.4
46.4
52.1
76.8
72.9
66.8
47.6
69.6
70.3
72.0
106.1
ADK-307S
003 628
66.3
60.7
43.2
63.2
63.9
65.4
96.4
104.6
95.8
68.2
99.8
10 0 .8
103.2
152.1
ADK-414
003 629
36.8
33.7
24.0
35.1
36.3
53.5
55.2
50.6
36.0
52.7
54.5
80.3
ADK-415
003 632
58.6
53.7
38.2
55.9
57.8
85.2
87.9
80.5
57.3
83.9
86.8
127.8
ADK-415S
003 633
63.0
57.7
41.1
60.1
62.2
91.6
94.5
86.6
61.6
90.2
93.3
137.4
ADK-417S
003 634
77.9
71.4
50.8
74.3
80.0
76.9
113.3
116.9
107.1
76.2
111.5
121.7
115.4
170.0
ADK-757S
003 635
105.5
96.7
68.8
100.7
1 2 2 .8
104.2
153.5
158.3
145.0
103.2
151.0
163.8
156.2
230.2
ADK-759S
003 636
117.2
107.4
76.4
1 1 1 .8
133.9
115.7
170.4
175.8
161.0
114.6
167.7
173.2
173.5
255.6
256
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Water and Acid Capacity
Water adsorption capacity (gram)
R134a
R22
R404A/R507
R407C
R410A
R134a
R22
R404A/R507
R407C
R410A
Acid
Adsorption
Capacity
(gram)
ADK-03
4.9
4.5
4.9
3.4
2.8
4.4
4.0
4.6
2.9
2.4
0.8
ADK-05
1 1 .8
10 .8
1 1 .8
8.2
6.8
10 .6
9.6
10.9
7.0
5.8
2.3
ADK-08
17.9
16.4
18.0
12.4
10.3
16.2
14.6
16.6
10.7
8.8
3.3
ADK-16
23.0
2 1 .0
23.1
16.0
13.2
20 .8
18.8
21.3
13.8
11.4
4.5
ADK-30
51.8
48.6
53.5
36.9
30.6
47.4
43.3
49.3
31.8
26.3
11.3
ADK-41
81.7
76.6
84.3
58.2
48.3
74.8
68.3
77.8
50.2
41.4
16.8
ADK-75
143.5
134.5
148.1
10 2 .1
84.8
131.4
1 2 0 .0
136.6
88.1
72.8
29.9
Liquid Temperature 24 °C
Size
Liquid Temperature 52 °C
The water capacities are according to ARI-Standard 710 for R22 and are based on a equilibrium point dryness (EPD) of 60 PPM water in refrigerant. The
EPD for all other mentioned refrigerants according to DIN 8949 is 50 PPM.
Nominal Operating Conditions
Connections
Nominal capacity is based on the following conditions:
Connection
Type
Part No.
Solder/ODF
mm
inch
Flare/SAE
mm
inch
6
1/4
ADK-032
003 595
ADK-036MMS
003 597
ADK-032S
003 596
ADK-052
003 598
ADK-056MMS
003 600
ADK-052S
003 599
ADK-053
003 601
ADK-0510MMS
003 603
ADK-053S
003 602
ADK-082
003 604
ADK-086MMS
003 606
ADK-082S
003 605
ADK-083
003 607
ADK-0810MMS
003 609
ADK-083S
003 608
ADK-084
003 610
ADK-0812MMS
003 612
ADK-084S
003 611
ADK-162
003 613
6
1/4
ADK-163
003 614
10
3/8
ADK-1610MMS
003 616
ADK-163S
003 615
ADK-164
003 617
12
1 /2
ADK-1612MMS
003 619
ADK-164S
003 618
ADK-165
003 620
16
5/8
ADK-165S
003 621
6
1/4
6
1/4
10
3/8
6
1/4
10
3/8
12
1 /2
Refrigerant
R744
R22, R134a,
R404A,R407C, R407F
R410A,R507
Evaporating
tem perature
Liquid
temperature
-40°C
-10°C
-15°C
+30°C
Correction factors for other than the nominal conditions see page 263.
6
1/4
10
3/8
6
1/4
10
3/8
12
1 /2
10
3/8
12
1 /2
5/8
ADK-303
003 622
10
3/8
ADK-304
003 623
12
1 /2
ADK-304S
003 624
ADK-305
003 626
16
5/8
ADK-305S
003 627
ADK-307S
003 628
ADK-414
003 629
12
1 /2
ADK-415
003 632
16
5/8
ADK-415S
003 633
ADK-417S
003 634
22
ADK-757S
003 635
22
ADK-759S
003 636
1 /2
5/8
22
7/8
5/8
7/8
7/8
1 -1 /8
257
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Filter Driers Series FDB
H erm etic Design,Bead Style for Liquid Refrigerants
Features
Compacted bead style (spring loaded)
Optimum blend of m olecular sieve and activated alumina
combined with high filtration capacity
Final filtration 20 micron
Filtration first for more effective use of surface area of desiccant
High water and acid capacity
Cushioned flow for non-turbulent performance
ODF Copper fittings for easy soldering
Rugged steel shells
Corrosion resistant epoxy paint
Temperature range TS: -40°C to +65°C
Max. allowable pressure PS: 45 bar
FDB
No CE marking according art. 3.3 PED 97/23 EC
HP marking according to German Pressorized
Vessel Directive
c ©
US LISTED
Underwriter Laboratories
Nominal Flow Capacity (kW)
Type
Part No.
nom. Conditions see next page
at 0.07 bar pressure drop
at 0.14 bar pressure drop
R134a
R22
R407C
R404A/R507
R410A
R134a
R22
R407C
R404A/R507
R410A
4.5
6.8
8.9
9.7
9.3
6.3
9.6
FDB-032
059 305
6.3
6.9
6.6
FDB-032S
059 306
9.7
10 .6
10 .1
6.9
10.5
13.7
15.0
14.3
9.8
14.8
FDB-052
059 307
6.5
7.1
6.8
4.6
7.0
9.3
1 0 .2
9.7
6.7
10 .1
FDB-052S
059 309
9.7
10 .6
10 .1
6.9
10.5
13.7
15.0
14.3
9.8
14.8
FDB-053
059 308
15.5
16.9
16.1
1 1 .0
16.7
2 2 .2
24.2
23.1
15.8
23.9
FDB-053S
059 310
19.3
2 1 .1
20 .1
13.8
20 .8
27.6
30.1
28.7
19.6
29.7
FDB-082
059 311
6.8
7.4
7.1
4.8
7.3
9.8
10.7
10 .2
7.0
10 .6
FDB-082S
059 314
9.9
10 .8
10.3
7.0
10.7
14.2
15.5
14.8
10 .1
15.3
FDB-083
059 312
15.8
17.2
16.4
1 1 .2
17.0
22 .6
24.7
23.6
16.1
24.4
FDB-083S
059 315
19.8
2 1 .6
20 .6
14.1
21.3
28.4
31.0
29.6
2 0 .2
30.6
FDB-084
059 313
26.4
28.8
27.5
18.8
28.4
37.7
41.2
39.3
26.9
40.7
FDB-084S
059 316
28.3
30.9
29.5
20 .1
30.5
40.4
44.1
42.1
28.8
43.5
FDB-162
059 317
6.8
7.4
7.1
4.8
7.3
9.8
10.7
10 .2
7.0
10 .6
FDB-163
059 318
16.2
17.7
16.9
11.5
17.5
23.1
25.2
24.0
16.4
24.9
FDB-163S
059 321
23.0
25.1
23.9
16.4
24.8
32.9
35.9
34.2
23.4
35.4
FDB-164
059 319
27.9
30.5
29.1
19.9
30.1
39.9
43.6
41.6
28.4
43.0
FDB-164S
059 322
36.0
39.3
37.5
25.6
38.8
51.5
56.2
53.6
36.6
55.5
FDB-165
059 320
36.6
40.0
38.2
26.1
39.5
52.4
57.2
54.6
37.3
56.5
FDB-165S
059 323
48.8
53.3
50.8
34.8
52.6
69.7
76.1
72.6
49.6
75.1
FDB-303
059 324
18.0
19.7
18.8
1 2 .8
19.4
25.7
28.1
26.8
18.3
27.7
FDB-304
059325
31.8
34.7
33.1
22 .6
34.2
45.3
49.5
47.2
32.3
48.9
FDB-304S
003 667
38.0
41.5
39.6
27.1
41.0
54.2
59.2
56.5
38.6
58.4
FDB-305
059 326
40.3
44.0
42.0
28.7
43.4
57.7
63.0
60.1
41.1
62.2
FDB-305S
059 327
53.8
58.7
56.0
38.3
57.9
76.9
83.9
80.0
54.7
82.8
FDB-307S
059 328
60.5
66.1
63.1
43.1
65.2
86.6
94.5
90.2
61.6
93.3
FDB-415
059 329
49.7
54.3
51.8
35.4
53.6
71.1
77.6
74.0
50.6
76.6
FDB-417S
059 330
77.2
84.3
80.4
55.0
83.2
110.3
120.4
114.9
78.5
118.8
258
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Water Adsorption Capacity
Water adsorption capacity (net) in grams
Type
Unit Size
25 °C liquid refrigerant
52 °C liquid refrigerant
R134a
R22
R407C
R404A/R507
R134a
R22
R407C
R404A/R507
FDB-03...
3
1.9
2.0
1.7
1.9
1.8
1.7
1.6
1.9
FDB-05...
5
5.5
5.8
5.0
5.5
5.2
4.9
4.5
5.3
FDB-08...
8
8.8
9.3
8.0
8.8
8.4
7.9
7.2
8.5
FDB-16...
16
17.7
18.5
15.9
17.6
16.8
15.7
14.5
17.1
FDB-30...
30
31.7
33.0
28.5
31.6
30.1
28.2
26.0
30.5
FDB-41...
41
44.2
46.2
39.9
44.1
42.1
39.4
36.3
42.7
The water capacities are according to ARI-Standard 710 for R22
and are based on a equilibrium point dryness (EPD) of 60 PPM
water in refrigerant. The EPD for all other mentioned refrigerants
according to DIN 8949 is 50 PPM.
Nominal Operating Conditions
Connections
Nominal capacity is based on the following conditions:
Connection
Type
Part No.
Refrigerant
Solder/ODF or Flare/SAE
inch
mm
6mm SAE
FDB-032
059 305
1/4”SAE
FDB-032S
059306
1/4”ODF
FDB-052
059 307
1/4”SAE
FDB-052S
059309
1/4”ODF
FDB-053
059 308
3/8”SAE
FDB-053S
059310
3/8”ODF
FDB-082
059311
1/4”SAE
R22, R134a,
R404A,R407C,
R410A, R507
Evaporating
temperature
Liquid
temperature
-15°C
+30°C
Correction factors for other than the nominal conditions, see page 263.
6mm SAE
10mm SAE
6mm SAE
FDB-082S
059314
1/4”ODF
FDB-083
059312
3/8”SAE
FDB-083S
059315
3/8”ODF
FDB-084
059313
1/2”SAE
FDB-084S
059316
1/2”ODF
FDB-162
059317
1/4”SAE
6mm SAE
FDB-163
059318
3/8”SAE
10mm SAE
FDB-163S
059 321
3/8”ODF
FDB-164
059319
1/2”SAE
FDB-164S
059322
1/2”ODF
FDB-165
059320
5/8”SAE
FDB-165S
059323
5/8”ODF
FDB-303
059324
3/8”SAE
10mm SAE
FDB-304
059325
1/2”SAE
12mm SAE
FDB-304S
003667
1/2”ODF
FDB-305
059326
5/8”SAE
FDB-305S
059 327
5/8”ODF
FDB-307S
059 328
7/8”ODF
FDB-415
059 329
5/8”SAE
FDB-417S
059 330
7/8”ODF
10mm SAE
12mm SAE
12mm SAE
16mm SAE
16mm SAE
16mm SAE
259
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Filter Drier Shells Series ADKS-Plus
For Liquid- and Suction Applications with Replaceable Cores
Features
•
Rustproof Aluminum flange cover with notch hole for ease of
mounting
•
ODF Copper fittings for easy soldering
•
Rigid core holder from steel (no plastic)
•
Service friendly core holder and flange cover
•
Optimum flow capacity at low pressure drop
•
Temperature range TS: -45°C to +65°C
•
Max. allowable pressure PS:
34,5
bar (-10°C to +65°C)
25,9
bar (-45°C to -10°C)
•
CE marking according PED 97/23 EC
•
c (5 l)u s l b t id
Type
ADKS-Plus
ADKS-Plus
Underwriter Laboratories
Nominal Flow Capacity (kW)
Connection
Solder/ODF
Pressure Drop 0.07 bar
Part No.
mm
inch
R22
R134a
R404A
R507
R407C
Pressure Drop 0.14 bar
R410A
R22
R134a
R404A
R507
R407C
R410A
Number
of Blocks
S48, H48
W 48, F48
Conformity assessment cat. I, procedure module A
485T
883 551
16
5/8”
78
72
51
75
77
10 0
92
65
95
99
487T
883 552
22
7/8”
145
133
95
138
143
182
167
119
174
180
489T
883 553
1 1 /8 ”
204
187
133
195
20 2
262
240
171
250
258
4811T
883 554
35
1 3/8”
285
261
186
272
281
355
325
231
338
350
4813T MM
883 836
42
310
284
20 2
196
306
390
357
254
372
385
4817
882 603
54
2 1 /8 ”
967T
883 555
22
7/8”
159
146
104
152
157
199
182
129
189
196
969T
883 556
1 1 /8 ”
250
229
163
239
247
300
275
196
286
296
9611T
883 557
1 3/8”
305
279
199
291
301
402
369
262
384
397
9613T
883 558
1 5/8”
350
321
228
334
345
470
431
306
448
464
9613T MM
883 559
42
355
325
231
339
350
480
440
313
458
474
9617
887 215
54
464
1449T
883 560
14411T
883 561
14413T
883 562
14413T MM
883 563
42
14417T
883 564
54
35
35
Primary for suction line applications
350
321
228
334
345
470
431
306
448
1 1 /8 ”
252
231
165
241
249
313
287
204
299
309
1 3/8”
351
322
229
335
347
438
401
285
417
432
1 5/8”
2 1 /8 ”
1
354
325
231
338
350
482
441
314
460
476
360
330
235
343
355
490
449
319
467
484
420
385
274
401
415
560
513
365
534
553
328
233
342
353
440
403
287
419
434
2
3
Conformity assessment cat. II, procedure module D1
19211T
883 565
35
19213T
883 566
19213T MM
883 567
42
19217T
883 568
54
1 3/8”
1 5/8”
2 1 /8 ”
358
395
362
258
377
390
506
464
330
483
500
400
366
261
382
395
510
467
333
487
503
430
394
281
411
425
567
519
370
541
560
Correction factors for other than the nominal conditions see page 263
Cores see page 261
Nominal Operating Conditions
Nominal capacity (Qn) is based on the following conditions:
Refrigerant
R744
R22, R134a,
R404A, R407C,
R410A,R507
Evaporating
temperature
-40°C
Liquid
temperature
-10°C
-15°C
+30°C
Correction factors for other than the nominal conditions see page 263
260
http://holodko.ru/
4
Filter Drier Shells Series FDH
For Liquid- and Suction Applications with Replaceable Cores
Features
•
Steel flange cover with notch hole for ease of mounting
•
Plated steel ODF connections
•
Rigid core holder from steel (no plastic)
•
Service friendly core holder and flange cover
•
Optimum flow capacity at low pressure drop
•
Temperature range TS: -45°C to +65°C
•
Max. allowable pressure PS:
46 bar (-10°C to +65°C)
25,9
bar (-45°C to -10°C)
•
CE marking according PED 97/23 EC
Nominal Flow Capacity (kW)
Connection
Solder/ODF
Type
Pressure Drop 0.07 bar
Part No.
mm
inch
R22
R404A
R507
R134a
R407C
Pressure Drop 0.14 bar
R410A
R744
R22
R134a
R404
R507
R407C
R410A
R744
Num­
ber of
Blocks
Conformity assessment cat. I, procedure module A
FDH-485
880 300
16
5/8”
78
72
51
75
77
114
10 0
92
65
95
99
146
FDH-487
880 301
22
7/8”
145
133
95
138
143
211
182
167
119
174
180
265
FDH-489
880 302
1 1 /8 ”
204
187
133
195
20 2
297
262
240
171
250
258
380
FDH-969
880 306
1 1 /8 ”
250
229
163
239
247
364
300
275
196
286
296
436
FDH-9611
880 307
1 3/8”
305
279
199
291
301
443
402
369
262
384
397
585
35
1
2
Nominal conditions see page 260
Correction factors for other than the nominal conditions see page 263
Core H48
Cores for ADKS-Plus and FDH
have to be ordered separately
Water Adsorption Capacity (gram)
Size
Liquid Temperature 24°C
Part No.
R134a
R22
R404A
R507
Liquid Temperature 52°C
R407C
R134a
R22
R404A
R507
R407C
Acid
Adsorption
capacity (g)
S48
003 508
79,7
74,7
82,3
56,7
73,0
66,7
75,9
48,9
16,3
H48
006 969
35,0
31,7
37,0
24,4
29,0
24,5
28,9
18,1
44,6
W48
006 970
24,7
2 2 ,1
26,2
17,1
19,9
16,4
19,5
1 2 ,1
39,7
F48
006 973
Filter for suction line
H100 / W100 are for use with phased-out ADKS-300/-400 only
H100
006 971
59,9
53,3
63,8
41,2
47,4
38,3
46,0
28,5
105,1
W100
006 972
52,7
47,1
56,0
36,4
42,4
34,7
41,4
25,7
85,5
261
http://holodko.ru/
Filter-Drier Shells With Quick-Cap Series FDS-24
For Liquid- and Suction Applications with Replaceable Cores
Features
•
Quick-cap flange (one bolt) design makes replacing of cores
in a matter of seconds
•
Ideal for retrofit, reducing installation / material cost
•
Ideal for refrigerant recovery / reclaim units with regular
change of filter-drier
•
Compatible with CFC, HCFC and HFC refrigerants
•
Free volume as a receiver in FDS-24... (580 cm 3)
•
ODF Copper fittings for easy soldering
•
Corrosion resistant powder painting of shell body
•
Temperature range TS: -45°C to +65°C
•
Max. allowable pressure PS:
34,5 bar (-10°C to +65°C)
FDS-24
25,9 bar (-45°C to -10°C)
•
No CE marking according art.3.3 PED 97/23 EC
•
HP marking according to German Pressorized Vessel Directive
Selection Chart Suction Application
Connection
Type
Part No.
FDS-245
FDS-247
Nominal Flow Capacity (kW)
Block Core S24
Filter F24
mm
inch
R134a
R22
R407C
R507/R404A
R134a
R22
R407C
003 573
16
5/8
22.3
30.6
28.5
26.0
24.7
33.9
31.5
28.8
003 574
22
7/8
32.2
44.1
44.1
37.5
37.8
51.8
48.2
44.0
1 -1 /8
46.0
63.0
58.6
53.6
50.7
69.4
64.5
59.0
44.2
60.5
56.3
51.4
48.6
66.9
61.9
56.6
FDS-249
003 575
FDS-249
003 576
28
R507/R404A
Selection Chart Liquid Application
Nominal Flow Capacity (KW)
Connection
Solder/ODF
Type
Pressure Drop 0.07 bar
Part No.
Pressure Drop 0.14 bar
R407C
R410A
R22
R134a
R507/
R404A
R407C
R410A
90
64
93
97
149
mm
inch
R22
R134a
R507/
R404A
5/8
75
68
49
71
74
98
7/8
112
10 2
73
107
110
151
139
99
144
1 -1 /8
113
104
74
108
112
160
147
104
153
158
114
104
74
108
112
163
150
106
156
161
FDS-245
003 573
16
FDS-247
003 574
22
FDS-249
003 575
FDS-249
003 576
28
Correction factors for other than the nominal conditions see page 263
Selection Chart Cores
Type
Part No.
Water Capacity in Grams at a Liquid
Temperature of 24°C (52°C)
Application
Acid Adsorption
capacity (g)
R134a
R22
R404A/R507
003 504
35.2
(32.3)
34.8
(29.5)
35.4 (32.1)
Liquid and suction line
8,9
W24
003 505
12.5 (9.2)
12.3 (8.9)
13.5 (10.4)
For motor burn-out (Suction)
25,6
F24
003 506
- (-)
Filter for suction line
-
S24
- (-)
- (-)
Cores have to be ordered separately. 1 piece needed for FDS24 shell.
Spare Parts
Description
Type
Part No.
ADKS, FDH
Gasket Set
Schrader Nipple 1/4” NPT
Core Holder
262
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—
Description
Type
Part No.
003 716
FDS 24
X 99961
003 710
Gasket Set
X 99967
X 11562-2
803 251
O-Ring Set
X 99968
003 717
X 99963
003 712
Core Holder
X 99969
003 718
Correction Tables for Filter Driers ADK, ADKS, BFK, FDB, FDH and FDS
Filter drier selection for operating conditions other than
-15°C/+30°C (R744: -40°C/-10°C):
Qn:
Q0:
Kt:
Nominal flow capacity
Required cooling capacity
Correction factor for evaporating and liquid temperature
Qn = Q0 x Kt
Refrigerant
R134a
Correction factor Kt
Evaporating Temperature °C
Liquid
Temperature°C
20
15
60
1.29
1.32
1.35
55
1.2 0
1 .2 2
1.25
50
1 .1 1
1.14
1.16
45
1.04
1.06
40
0.98
10
5
0
-5
-10
-15
-20
-25
-30
1.39
1.42
1.46
1.50
1.55
1.59
1.65
1.70
1.28
1.31
1.34
1.38
1.41
1.45
1.50
1.54
1.19
1 .2 1
1.24
1.27
1.30
1.34
1.38
1.42
1.09
1 .1 1
1.13
1.16
1.18
1 .2 1
1.24
1.27
1.31
1.0 0
1.0 2
1.04
1.06
1.08
1 .1 1
1.13
1.16
1.19
1 .2 2
1.14
35
0.93
0.94
0.96
0.98
1.0 0
1.0 2
1.04
1.06
1.08
1 .1 1
30
0 .88
0.90
0.91
0.93
0.94
0.96
0.98
1.0 0
1.0 2
1.04
1.07
25
0.84
0.85
0.86
0.88
0.89
0.91
0.93
0.95
0.96
0.98
1.0 1
0.81
0.82
0.84
0.85
0.87
0.88
0.90
0.92
0.93
0.95
0.79
0.80
0.81
0.83
0.84
0.85
0.87
0.89
0.90
0.76
0.78
0.79
0.80
0.82
0.83
0.84
0.86
0.76
0.77
0.78
0.79
0.81
0.82
0.73
0.74
0.75
0.76
0.77
0.79
0.71
0.72
0.73
0.74
0.75
20
15
10
5
0.74
0
-5
R404A
-45
0.69
0.70
0.71
0.72
2.39
2.54
2.70
2.89
3.12
3.39
3.70
1.74
1.81
1.90
1.99
2.09
2 .2 1
2.34
2.50
2.67
1.43
1.47
1.53
1.59
1.65
1.73
1.81
1.90
2.00
2 .11
1.25
1.29
1.33
1.38
1.43
1.48
1.54
1.61
1.6 8
1.76
1.77
1.83
1.90
1.97
2.06
2.16
55
1.48
1.52
1.56
1.62
1.67
50
1.28
1.31
1.34
1.38
45
1.13
1.16
1.18
1 .2 1
40
1.0 2
1.04
1.06
1.09
1 .1 2
1.15
1.18
1 .2 2
1.26
1.30
1.35
1.40
1.46
1.52
35
0.93
0.95
0.97
0.99
1 .0 1
1.04
1.07
1 .1 0
1.13
1.17
1 .2 0
1.25
1.29
1.34
30
0 .86
0.87
0.89
0.91
0.93
0.95
0.97
1.0 0
1.03
1.06
1.09
1 .1 2
1.16
1 .2 0
25
0.80
0.81
0.83
0.84
0.86
0.88
0.90
0.92
0.94
0.97
1.0 0
1.03
1.06
1.09
0.76
0.77
0.79
0.80
0.82
0.84
0.85
0.87
0.90
0.92
0.95
0.97
1.0 0
0.72
0.74
0.75
0.77
0.78
0.80
0.82
0.84
0.86
0.88
0.90
0.93
0.71
0.72
0.73
0.75
0.77
0.78
0.80
0.82
0.84
0.86
0.67
0.68
0.69
0.71
0.72
0.74
0.75
0.77
0.79
0.81
0.65
0.66
0.67
0.68
0.70
0.71
0.73
0.74
0.76
0.64
0.65
0.66
0.67
0.69
0.70
0.72
0.61
0.62
0.63
0.64
0.65
0.67
0.68
20
15
0.69
10
5
0
-5
0.63
-1 0
-15
0.59
0.60
0.61
0.62
0.64
0.65
0.56
0.57
0.58
0.59
0.61
60
1.6 8
1.73
1.78
1.84
1.91
1.99
2.07
2.17
2.27
2.39
2.53
2.69
2.87
3.08
55
1.43
1.46
1.50
1.54
1.59
1.65
1.71
1.77
1.85
1.93
2 .0 2
2 .1 2
2.24
2.36
50
1.25
1.28
1.31
1.34
1.38
1.42
1.47
1.52
1.57
1.63
1.70
1.77
1.85
1.94
45
1 .1 2
1.14
1.17
1.2 0
1.23
1.26
1.30
1.34
1.38
1.42
1.48
1.53
1.59
1 .6 6
-2 0
R507
-40
2.27
-1 0
60
-35
40
1.0 2
1.04
1.06
1.08
1 .1 1
1.13
1.16
1 .2 0
1.23
1.27
1.31
1.36
1.40
1.46
35
0.94
0.95
0.97
0.99
1 .0 1
1.04
1.06
1.09
1 .1 2
1.15
1.18
1 .2 2
1.26
1.30
30
0.87
0.88
0.90
0.92
0.94
0.96
0.98
1.0 0
1.0 2
1.05
1.08
1 .1 1
1.14
1.18
25
0.81
0.83
0.84
0.85
0.87
0.89
0.91
0.93
0.95
0.97
1.0 0
1.0 2
1.05
1.08
0.77
0.79
0.80
0.81
0.83
0.85
0.86
0.88
0.90
0.92
0.95
0.97
1 .0 0
0.74
0.75
0.77
0.78
0.79
0.81
0.83
0.84
0 .86
0.88
0.91
0.93
0.72
0.74
0.75
0.76
0.78
0.79
0.81
0.83
0.85
0.87
0.68
0.70
0.71
0.72
0.73
0.75
0.76
0.78
0.80
0.81
0.66
0.67
0.68
0.70
0.71
0.72
0.74
0.75
0.77
0.65
0.66
0.67
0.68
0.70
0.71
0.73
0.62
0.63
0.64
0.65
0.66
0 .68
0.69
20
15
10
5
0
-5
-1 0
-15
-2 0
0.71
0.64
0.60
0.61
0.62
0.58
0.63
0.59
0.64
0.60
0.65
0.61
0.62
263
http://holodko.ru/
Refrigerant
R22
Liquid
Temperature°C
Correction factor Kt
Evaporating Temperature °C
20
15
60
1.28
1.29
55
1.2 0
1 .2 1
50
1.13
1.14
10
5
0
-5
-10
-15
1.30
1.32
1.34
1.23
1.24
1.26
1.16
1.17
1.18
1 .2 0
-20
-25
-30
1.36
1.38
1.27
1.29
1.40
1.42
1.45
1.31
1.33
1.35
1 .2 2
1.23
1.25
1.51
1.54
1.57
1.38
1.41
1.43
1.46
1.27
1.29
1.32
1.34
1.37
1.08
1.09
1 .1 1
1 .1 2
1.13
1.15
1.16
1.18
1 .2 0
1 .2 2
1.24
1.26
1.29
1.0 2
1.03
1.04
1.05
1.06
1.08
1.09
1 .1 0
1 .1 2
1.14
1.15
1.17
1.19
1 .2 1
35
0.97
0.98
0.99
1.0 0
1.0 1
1 .0 2
1.04
1.05
1.06
1.08
1.09
1 .1 1
1.13
1.15
30
0.93
0.94
0.95
0.96
0.97
0.98
0.99
1.0 0
1.0 1
1.03
1.04
1.06
1.07
1.09
25
0.89
0.90
0.91
0.91
0.92
0.93
0.94
0.95
0.97
0.98
0.99
1 .0 1
1 .0 2
1.04
0.86
0.87
0.88
0.88
0.89
0.90
0.91
0.93
0.94
0.95
0.96
0.98
0.99
0.83
0.84
0.85
0.86
0.87
0.88
0.89
0.90
0.91
0.92
0.93
0.95
0.81
0.82
0.82
0.83
0.84
0.85
0.86
0.87
0.88
0.89
0.91
0.87
20
5
0.79
0.79
0.80
0.81
0.82
0.83
0.84
0.85
0.86
0.76
0.77
0.78
0.79
0.80
0.81
0.82
0.83
0.84
0.74
0.75
0.76
0.77
0.78
0.79
0.80
0.81
0.77
0.78
-5
0.73
-1 0
-15
0.71
0.73
0.72
-2 0
0.74
0.72
0.75
0.73
0.69
0.70
1.82
60
1.40
1.42
1.45
1.49
1.52
1.56
1.61
1.65
1.70
1.76
55
1.27
1.29
1.32
1.35
1.38
1.41
1.44
1.48
1.52
1.57
1.61
50
1.17
1.19
1 .2 1
1.23
1.26
1.28
1.31
1.35
1.38
1.42
1.46
1.33
45
1.08
1 .1 0
1 .1 2
1.14
1.16
1.18
1 .2 1
1.24
1.26
1.30
40
1.0 1
1.0 2
1.04
1.06
1.08
1 .1 0
1 .1 2
1.14
1.17
1 .2 0
1 .2 2
35
0.95
0.96
0.98
0.99
1.0 1
1.03
1.05
1.07
1.09
1 .1 1
1.14
30
0.89
0.91
0.92
0.93
0.95
0.96
0.98
1.0 0
1.0 2
1.04
1.06
25
0.85
0.86
0.87
0.88
0.90
0.91
0.93
0.94
0.96
0.98
1 .0 0
0.81
0.82
0.84
0.85
0.86
0 .88
0.89
0.91
0.92
0.94
0.79
0.80
0.81
0.82
0.83
0.85
0.86
0.88
0.89
0.76
0.77
0.78
0.79
0.81
0.82
0.83
0.85
0.75
0.76
0.77
0.78
0.79
0.81
0.72
0.73
0.74
0.75
0.76
0.77
0.70
0.71
0.72
0.73
0.74
20
15
10
5
0.74
0
-5
0.76
0.74
0.75
0.71
0.72
0.72
0.68
0.69
0.70
0.71
60
1.62
1.64
1.6 6
1.6 8
1.70
1.73
1.76
1.80
1.83
1.87
1.92
1.96
2.0 2
2.07
55
1.42
1.43
1.44
1.46
1.48
1.50
1.53
1.55
1.58
1.61
1.64
1.6 8
1.72
1.76
-1 0
50
1.27
1.28
1.29
1.31
1.32
1.34
1.36
1.38
1.40
1.43
1.45
1.48
1.51
1.55
45
1.16
1.17
1.18
1.19
1 .2 0
1 .2 2
1.24
1.25
1.27
1.29
1.31
1.34
1.36
1.39
40
1.07
1.08
1.09
1 .1 0
1 .1 1
1 .1 2
1.14
1.15
1.17
1.18
1 .2 0
1 .2 2
1.24
1.27
1.17
35
1.0 0
1.0 1
1.0 1
1 .0 2
1.03
1.04
1.06
1.07
1.08
1 .1 0
1 .1 1
1.13
1.15
30
0.94
0.94
0.95
0.96
0.97
0.98
0.99
1.0 0
1.0 1
1.03
1.04
1.06
1.07
1.09
25
0.89
0.89
0.90
0.90
0.91
0.92
0.93
0.94
0.95
0.96
0.98
0.99
1.0 0
1.0 2
0.84
0.85
0.86
0.86
0.87
0.88
0.89
0.90
0.91
0.92
0.93
0.95
0.96
0.81
0.81
0.82
0.83
0.84
0.84
0.85
0.86
0.87
0.88
0.90
0.91
0.78
0.79
0.80
0.80
0.81
0.82
0.83
0.84
0.85
0.86
0.75
0.75
0.76
0.77
0.77
0.78
0.79
0.80
0.81
0.82
0.72
0.73
0.73
0.74
0.75
0.76
0.76
0.77
0.78
0.70
0.71
0.72
0.72
0.73
0.74
0.75
0.68
0.68
0.69
0.69
0.70
0.71
0.72
20
15
10
5
0
-5
-1 0
0.78
0.70
* Do not exceed m ax. allo w ab le pressure PS: A D K/FD B/BFK: 4 3 .0 bar; A D KS/FD S: 3 4 .5 bar (-10°C ... +65°C); F D H :4 6 bar (-10°C ... +65°C)
264
1.48
1.07
0
http://holodko.ru/
-45
45
10
R410A*
-40
40
15
R407C
-35
Refrigerant
R407F
Liquid
temper­
ature °C
Correction factor kt
Evaporating temperature °C
°C
20
15
10
5
0
-5
-10
60
1.42
1.43
55
1.29
1.31
50
1.19
1 .2 1
1 .2 2
45
1 .1 1
1 .1 2
1.13
40
1.04
1.05
1.06
-15
-20
-25
1.46
1.48
1.50
1.53
1.32
1.34
1.36
1.39
1.24
1.25
1.15
1.07
-40
1.56
1.59
1.63
1.6 6
1.41
1.44
1.47
1.50
1.27
1.30
1.32
1.34
1.37
1.40
1.16
1.18
1 .2 0
1 .2 2
1.24
1.26
1.09
1 .1 0
1 .1 2
1.13
1.15
1.17
-45
1.70
1.75
1.79
1.84
1.53
1.57
1.61
1.65
1.43
1.46
1.49
1.29
1.31
1.34
1.37
1.19
1 .2 2
1.24
1.27
0.98
0.99
1.0 0
1.0 1
1.0 2
1.03
1.05
1.06
1.08
1 .1 0
1 .1 2
1.14
1.16
1.18
30
0.92
0.93
0.94
0.95
0.96
0.97
0.99
1.0 0
1.0 1
1.03
1.05
1.06
1.08
1 .1 0
25
0.87
0.88
0.89
0.90
0.91
0.92
0.93
0.94
0.96
0.97
0.99
1.0 0
1.0 2
1.04
0.84
0.85
0.85
0 .86
0.87
0.88
0.90
0.91
0.92
0.93
0.95
0.96
0.98
0.81
0.81
0.82
0.83
0.84
0.85
0.86
0.87
0.89
0.90
0.91
0.93
0.78
0.79
0.79
0.80
0.81
0.82
0.83
0.84
0.86
0.87
0.88
0.75
0.76
0.77
0.78
0.78
0.79
0.81
0.82
0.83
0.84
0.73
0.73
0.74
0.75
0.76
0.77
0.78
0.79
0.80
0.71
0.71
0.72
0.73
0.74
0.75
0.76
0.77
0.69
0.70
0.71
0.72
0.73
0.74
0.68
0.69
0.70
0.71
0.66
0.66
0.67
0.68
20
10
5
0
-5
-1 0
0.68
-15
0.67
0.67
0.65
-2 0
Correction factor Kt
Evaporating Temperature °C
Liquid
Temper­
ature °C
5
0
-5
-10
-15
-20
-25
-30
-35
-40
-45
-50
10
1.37
1.35
1.33
1.32
1.31
1.31
1.31
1.31
1.31
1.32
1.33
1.34
1.23
1 .2 2
1 .2 1
1 .2 1
1 .2 1
1 .2 1
1 .2 1
1 .2 2
1 .2 2
1.23
1.14
1.13
1.13
1 .1 2
1 .1 2
1.13
1.13
1.13
1.14
1.15
1.06
1.06
1.05
1.05
1.05
1.06
1.06
1.07
1.07
1.0 0
0.99
0.99
0.99
1 .0 0
1.0 0
1.0 0
1.0 1
0.94
0.94
0.94
0.94
0.95
0.95
0.96
0.89
0.89
0.90
0.90
0.90
0.91
0.86
0.87
5
0
-5
-10
R744*
-35
35
15
Refrigerant
-30
-15
-2 0
1.24
-25
0.85
0.85
-30
0.82
0.82
-35
0.86
0.82
0.78
-40
0.76
-45
0.73
0.83
0.79
0.79
0.76
* Do not exceed m ax. allo w ab le pressure PS: A D K/FD B/BFK: 4 3 .0 b ar; A D KS/FD S: 3 4 .5 bar (-10°C ... + 65°C ); FDH: 4 6 b ar (-10°C ... +65°C)
265
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Suction Line Filters and Filter Driers Series ASF and ASD
Hermetic Design
Features
•
Minimum pressure drop due to internal construction and
compacted bead style
•
Service friendly with 2 Schrader valves for pressure drop
measurement
•
ODF Copper fittings for easy soldering
•
Filtration down to 10 micron
•
Temperature range TS: -45°C to +50°C
•
Max. allowable pressure PS: 27,5 bar
•
No CE marking according art. 3.3 PED 97/23 EC
•
HP marking according to German Pressorized Vessel Directive
ASF, ASD
Suction Line Filters
Type
Connection
Solder/ODF
Part No.
mm
Nominal Capacity Qn
kW
inch
R134a
R22
R404A
R407C
R507
ASF-28 S3
008 965
3/8
6.0
8.4
7.7
7.8
7.7
ASF-28 S4
008 941
1 /2
9.9
14.4
13.4
13.4
13.4
ASF-35 S5
008 915
5/8
15.9
23.2
21.4
2 1 .6
21.4
ASF-15 S6
008 946
ASF-45 S7
008 904
ASF-50 S9
008 908
ASF-75 S11
008 919
ASF-175 S13
008 940
16
3/4
23.3
34.5
32.0
32.1
32.0
22
7/8
32.5
42.5
34.5
39.5
34.5
1 1 /8
46.0
67.1
55.5
62.4
55.5
35
1 3/8
60.2
85.4
70.7
79.4
70.7
1 3/8
65.4
87.5
73.1
81.4
73.1
R507
Suction Line Filter Driers
Type
Part No.
ASD-28 S3
008 909
ASD-28 S4
008 910
ASD-35 S5
008 899
ASD-15 S6
008 925
ASD-45 S7
008 896
ASD-50 S9
008 881
ASD-75 S11
008 891
ASD-175 S13
008 953
Connection
Solder/ODF
mm
Nominal Capacity Qn
kW
inch
R134a
R22
R404A
R407C
3/8
5.5
8.1
7.4
7.5
7.4
1 /2
9.1
13.4
12.7
12.5
12.7
5/8
14.3
20.4
19.0
19.0
19.0
3/4
19.1
24.6
22.5
22.9
22.5
7/8
25.0
32.3
26.4
30.0
26.4
1 1 /8
35.3
46.4
38.3
43.2
38.3
1 3/8
42.9
56.9
47.8
52.9
47.8
1 3/8
45.2
60.8
51.0
56.5
51.0
16
22
35
Nominal flow capacity at +4°C evaporating temperature (saturated
condition/dew point) and a pressure drop of 0.21 bar between inlet
and outlet of ASF/ASD. Correction factor for other evaporating
temperatures than +4°C:
Qn:
Ks:
Qo:
Nominal capacity
Correction factor for a pressure drop corresponding 1 K
saturation temperature
Required cooling capacity
Qn = Qo X Ks
Evaporating Temperature (°C)
+4
0
-5
-10
-15
-20
-25
-30
-35
-40
Correction Factor kt
1.00
1.12
1.35
1.75
2.00
2.50
3.00
3.75
5.00
6.60
Water and Acid Adsorption Capacity
Water Adsorption Capacity (gram)
Liquid Temperature 24°C
Type
R134a
R22
R404A
R507
R407C
R410A
Acid
Adsorption
Capacity
(g)
Liquid Temperature 52°C
R407C
R410A
R134a
R22
R404A
R507
ASD-28
11.8
5.7
12.2
9.1
8.0
10.0
3.6
9.7
6.7
5.6
3.0
ASD-35
14.5
7.0
15.0
11.2
9.9
12.3
4.4
12.0
8.2
6.9
3.6
ASD-45
18.0
8.8
18.6
13.9
12.3
15.3
5.5
14.9
10.2
8.6
4.5
ASD-50
21.4
10.4
22.2
16.5
14.6
18.2
6.5
17.7
12.1
10.2
5.4
ASD-75
31.5
15.4
32.6
24.3
21.5
26.7
9.6
26.0
17.8
15.0
7.9
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Suction Line Filter and Filter Drier Shells Series BTAS
for replaceable Filters and Filter Drier Cores
Features
Corrosion resistant brass body ideal for suction line applications
Extrem ely large filtration area for optimum flow capacity
Low pressure drop
Filtration down to 10 micron
It
V
Temperature range TS: -45°C ... +50°C
Max. allowable pressure PS: 24 bar
BTAS
Suction Line Shells with Filter Core (please order separately)
Type
Connection
Solder/ODF
Part No.
mm
Nominal Capacity Qn
kW
inch
R134a
R22
R404A
Filter Core
R407C
R507
Type
Part No.
A2F
009 907
A3F
009 909
A4F
009 911
A5F
009 913
No CE marking according to art. 3.3 PED 97/23. HP marking according to German pressurised vessel directive
BTAS 25
015353
BTAS 27
015354
BTAS 39
015355
BTAS 311
015356
BTAS 313
015 357
BTAS 342
015 358
42
BTAS 317
015 359
54
BTAS 417
015 360
54
22
35
5/8
12.5
17.1
13.9
15.9
13.9
7/8
22.3
29.6
24.3
27.5
24.3
1 1 /8
37.7
50.4
40.6
46.9
40.6
1 3/8
60.3
80.7
65.2
75.1
65.2
1 5/8
73.4
97.5
81.1
90.7
81.1
73.4
97.5
81.1
90.7
81.1
2 1 /8
97.6
127.7
104.8
118.8
104.8
2 1 /8
134.7
178.2
145.3
165.7
145.3
2 5/8
209.0
282.4
229.8
262.6
229.8
3 1/8
260.1
346.1BTAS 525 283.9
015
321.9
362
283.9
260.1
346.1
321.9
283.9
CE marked, Conformity assessment cat. I, procedure module A
BTAS 521
015 361
BTAS 580
015 363
80
283.9
Filter Core has to be ordered separately.
Suction Line Shells with Filter Drier Core (please order separately)
Type
Connection
Solder/ODF
Part No.
mm
Nominal Capacity Qn
kW
inch
R134a
R22
R404A
Filter Drier Core
R407C
R507
Type
Part No.
A2F-D
009 908
A3F-D
009 910
A4F-D
009 912
A5F-D
009 914
No CE marking according to art. 3.3 PED 97/23. HP marking according to German pressurised vessel directive
BTAS 25
015353
BTAS 27
015354
BTAS 39
015355
BTAS 311
015356
BTAS 313
015 357
BTAS 342
015 358
42
BTAS 317
015 359
54
BTAS 417
015 360
54
22
35
5/8
1 1 .6
15.5
1 2 .8
14.3
1 2 .8
7/8
19.1
25.2
20.6
23.4
20.6
1 1 /8
34.4
45.7
37.5
42.5
37.5
1 3/8
49.2
65.5
53.7
60.9
53.7
57.1
77.3
62.5
71.9
62.5
57.1
77.3
62.5
71.9
62.5
2 1 /8
77.1
94.1
77.7
87.5
77.7
2 1 /8
106.8
144.5
118.3
134.4
118.3
153.3
205.1
169.0
190.7
169.0
1 5/8
CE marked, Conformity assessment cat. I, procedure module A
BTAS 521
015 361
BTAS 580
015 363
2 5/8
3 1/8
80
181.2
242.0BTAS 525 199.4
015
225.1
362
199.4
181.2
242.0
225.1
199.4
199.4
Filter Drier Core has to be ordered separately.
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Nominal capacity at +4°C evaporating temperature (saturated condition/
dew point) and a pressure drop of 0.21 bar between inlet and outlet of
BTAS. Correction factor for other evaporating temperatures than +4°C:
Q =Q x K
Evaporating Temperature (°C)
Correction Factor kt
Qn: Nominal capacity
Ks: Correction factor for a pressure drop corresponding 1K saturation
temperature
Q : Required cooling capacity
+4
0
-5
-10
-15
-20
-25
-30
-35
-40
1.00
1.12
1.35
1.75
2.00
2.50
3.00
3.75
5.00
6.60
BTAS - Water and Acid Adsorption Capacity
Water Adsorption Capacity (gram)
Liquid Temperature 24°C
Core
A2F-D
Liquid Temperature 52°C
R134a
R22
R404A
R507
R407C
R134a
R22
R404A
R507
R407C
2.8
2.5
2.9
4.8
2.3
1.9
2.3
5.0
Acid
Adsorption
capacity (g)
3.7
A3F-D
7.6
6.8
8.0
13.3
6.3
5.3
6.2
13.8
10.3
A4F-D
14.8
13.3
15.7
25.9
12.2
10.3
12.2
26.9
20.1
A5F-D
21.8
19.6
23.1
38.2
18.0
15.1
17.9
39.7
29.6
Spare parts
Repair Kits with cover, screws and gaskets
Type
Part No.
Repair kit BTAS 2
KD 30519-2
065 970
Repair kit BTAS 3
KD 30519-3
065 971
Repair kit BTAS 4
KD 30519-4
065 972
Repair kit BTAS 5
KD 30519-5
065 973
268
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—
Moisture Liquid Indicators Series MIA
Features
•
Fully hermetic
•
Corrosion free stainless steel body
•
Crystal indicator element for long lifetime and reliability
•
Indication of dryness according to ASERCOM recommendation
•
Easy determination of moisture content
•
Sensitive indicator with calibrated four colours
•
Large clear viewing area
•
Lightweight (only 60g MIA-M06/014)
•
ODF extended tube configurations suitable for all commercial
applications
•
For R22, R407C, R134a, R404A, R507 and R410A together
with Mineral- and POE oils
•
Max. allowable pressure PS: 45 bar
•
UL certified for Canada, see SA 4876 (except MIA-078)
Selection Chart
Type
Part No.
for Tube Outside 0
Height A (mm)
Lenght B (mm)
Weight (g)
MIA 014
805 883
1/4”
25.7
98.0
60
MIA 038
805 884
3/8”
28.5
109.0
70
MIA 012
805 885
1 /2 ”
31.8
113.0
75
MIA 058 / MIA M16
805 886
5/8” / 16mm
31.8
108.5
85
MIA 078
805 887
7/8”
37.8
122.5
150
MIA 118
805 892
1 1 /8 ”
43.5
122.5
190
MIA M06
805 880
6 mm
25.9
98.0
60
70
MIA M10
805 881
1 0 mm
28.5
109.0
MIA M12
805 882
1 2 mm
28.5
113.0
75
MIA M28
805 891
28 mm
43.5
122.5
190
MIA M10 S Female/Male
805 888
1 0 mm
28.7
119.0
75
MIA M12 S Female/Male
805 889
1 2 mm
28.5
113.0
75
269
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Water Contents* by Indicator Color
Refrigerant
Liquid Temperature °C
R22
52
R404/R507
R134a
R407C
R410A
R744
blue: dry
purple
25
25
40
80
145
38
35
65
130
105
50
90
185
290
270
rose: Caution - wet
25
15
33
60
12 0
38
25
50
110
150
52
45
60
140
180
25
20
35
90
130
38
35
55
120
160
52
50
85
150
190
25
26
42
94
151
38
40
68
144
232
52
64
109
230
371
25
30
50
110
165
38
55
85
190
290
52
75
12 0
270
420
-40
3
5
10
16
-2 0
6
10
20
32
-1 0
8
14
29
46
0
11
19
39
63
5
13
22
46
75
20
20
34
72
116
* Water content in mg Water per kg refrigerant (ppm)
http://holodko.ru/
fushia: Caution
Moisture Liquid Indicators Series AMI
Features
First choice for R134a, R22, R404A, R407C, R507 and
polyolester lubricants
High accuracy of moisture indication according to ASERCOM
recommendation
Fused glass - no leakage
Long lifetime of indicators by utilization of crystals
Indicator with high resistance against acid and water
Wide angle view for exact distinction of vapour and liquid
Max. allowable pressure PS: 31 bar
AMI-3
Selection Chart
Part No. Type
SS 2 MM
AMI-1
AMI-2
AMI-3
805 732
Connection
mm
inch
Configuration
6
SS 2
805713
SS 3 MM
805 733
SS 3
805714
SS 4 MM
805 734
SS 4
805715
SS 5
805716
16
5/8
SS 7
805717
22
7/8
SS 9 MM
805 703
28
SS 9
805 705
TT 2 MM
805 697
TT 2
805 655
TT 3 MM
805 698
TT 3
805 654
TT 4 MM
805 699
TT 4
805 653
TT 5
805 652
16
5/8
TT 7
805 656
22
7/8
TT 9 MM
805 700
28
1/4
10
3/8
12
1/2
Female solder x female solder
ODFxODF
1 1/8
6
1/4
10
3/8
12
1/2
TT 9
805 651
MM 2
805 706
6
1/4
MM 3
805 707
10
3/8
MM 4
805 708
12
1/2
MM 5
805 709
16
5/8
FM 2
805710
6
1/4
FM 3
805 711
10
3/8
Female solder x female solder
ODFxODF
(with extended copper tubes)
1 1/8
FM 4
805712
12
1/2
S 11
805 704
35
1 3/8
S 13
805 659
42
1 5/8
S 17
805 687
54
2 1/8
S7
805 650
22
7/8
S9
805 649
28
1 1/8
S 11
805 648
35
1 3/8
Male flare x male flare
Female flare x male flare
Male solder
ODM
(for soldering into fitttings)
Saddle type
(for soldering onto the pipe)
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Water Contents* by Indicator Color
Refrigerant
R22
R404/R507
R134a
R407C
Liquid
Temperature
°C
blue:
dry
purple
fushia:
Caution
rose:
Caution - wet
25
25
40
80
145
38
35
65
130
205
52
50
90
185
290
25
15
33
60
120
38
25
50
110
150
52
45
60
140
180
25
20
35
90
130
38
35
55
120
160
52
50
85
150
190
25
26
42
94
151
38
40
68
144
232
52
64
109
230
371
* Water content in mg Water per kg refrigerant (ppm)
Accessories
Type
Part No.
Lens assembly kit
X 12978-1
805 742
O-Ring
x 99995
805 643
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Oil Management Components
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Oil Management Components
Technical Information
Refrigeration com pressors are lubricated by refrigeration oil
that circulates from the compressor crankcase or housing. As
refrigerant gas is discharged by the compressor, it will leave a fine
oil m ist that will be circulated throughout the entire system.Small
amounts of oil circulating through the system will not affect the
system performance. Too much refrigeration oil circulating in the
system will have adverse effects on the components in the system.
Circulating oil reduces the ability of the system to effectively
rem ove the heat. C o nd ensers, evap o rato rs and o ther heat
exchangers loose efficiency when coated internally with an oil film.
The refrigerant gas then passes through an outlet screen to
remove residual oil particles. The oil gathers in the bottom of the
oil separator until a float operated needle valve opens to allow
the return of oil to the compressor. Oil returns quickly to the
compressor, because of the higher pressure in the oil separator
than in the compressor crankcase. When the oil level has lowered,
the needle valve retracts to prevent refrigerant gas from returning
back to the compressor. The refrigerant gas leaves through the
outlet of the oil separator and goes to the condenser.
Refrigeration oil not returning to the compressor causes improper
lubrication and eventual compressor failure. At low temperature
application, refrigeration oil thickness becomes difficult to move,
causing oil to be trapped in the system.
Oil Level Management System Function
Refrigerant gas leaving the compressor through the discharge line
contains refrigeration oil in a vaporous mist. As this mixture enters
the oil separator, the velocity is reduced to allow oil separation to
begin.
This system provides oil level balancing as w ell as oil level
monitoring including alarm and compressor shut-down functions.
The oil level is measured inside the com pressors crankcase. By
operating an integrated solenoid valve, missing oil can be fed
from the oil receiver or from the oil separator directly into the
compressor sump. If the oil level drops to a dangerous level, the
alarm contact changes into alarm state. The alarm contact may
be used to shut down the compressor. The integrated electronics
include delay tim es in order to avoid short-cycling and nuisance
alarms.
The refrigerant gas and oil mixture enters the oil separator and
passes through an inlet screen, causing the fine particles to
combine. Larger oil particles are formed and drop to the bottom
of the oil separator.
This system applies to compressor pack applications with multiple
parallel co m p ressor arran g em en ts, but also to stand-alone
compressor applications for compressors w ithout differential oil
pressure monitoring.
Oil Separator Function
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—
Electronic Oil Level Management Systems OM3 / OM4 TraxOil
W ith Alarm Function and Compressor Shut Down
Features
OM4 series for CO2 and R410A, OM3 for HFC refrigerants
IP65 rating due to molded housing and electrical connection
with molded cable assemblies
3 Zone Level Control by using precise Hall-sensor measurement,
not prone to errors by foaming or light like optical sensors
Self contained unit with oil level sensor and integral solenoid
valve to manage oil level supply
SPDT output contact for compressor shut down or alarming,
rating 230 VAC/3A
O M 4 w ith 2 4 V su p p ly
O M 4 w ith O M -230V
Supply 24VAC or 230VAC
Alarm , status and 3 zone level indication by LEDs
Adapters suitable for various types of compressors
Easy installation by sightglass replacem ent and frontside
installation w ithout nuts
Visual inspection of oil level still possible
Recommended by leading compressor manufacturers
C€ marking under Low Voltage and EMC Directive
Product Selection (select one item of each group)
1 . B a s e U n it s (supplied without adapter and coil)
Type
Part No.
OM3-020
805133
OM3-120
805134
OM4-020
805135
Max. working
pressure
Time delay
alarm
20 sec
35 bar
120 sec
60 bar
20 sec
2 . A d a p t e r fla n g e s
OM0-CUA
805037
Flange adapter 3- / 4-hole
OM0-CBB
805038
Screw adapter 1-1/8“-18 UNEF
OM0-CCA
805039
Screw adapter 3/4“-14 NPTF
OM0-CCB
805040
Screw adapter 1-1/8“-12 UNF
OM0-CCC
805041
Flange adapter 3-hole
OM0-CCD
805042
Rotalock adapter 1-3/4”-12UNF
OM0-CCE
805043
Rotalock adapter 1-1/4”-12UNF
3 . C a b le s A la r m R e la y
OM3-N30
805141
Connection to Relay 3.0m
OM3-N60
805142
Connection to Relay 6.0m
Su p p ly vo lta g e 2 4 V
4 . S o le n o id C o il
Su p p ly vo lta g e 2 3 0 V
4 . S o le n o id C o il
Type
Part No.
ASC 24 VAC
801062
50/60 Hz, 15 VA
5 . C a b le A s s e m b ly P o w e r S u p p ly a n d S o le n o id
Type
Part No.
ASC 230 VAC
801064
50/60 Hz, 15 VA
5 . C a b le A s s e m b ly P o w e r S u p p ly a n d S o le n o id
OM3-P30
805151
24V, 3.0m
OM-230V-3
805161
230V, 3.0m
OM3-P60
805152
24V, 6.0m
OM-230V-6
805162
230V, 6.0m
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Adapter Selection Guideline
Compressor series with 0M3:
0M0-CUA PartNo. 805037
Flange adapter 3- / 4-hole
0M0-CBB PartNo. 805038
Screw adapter 1-1/8“-18 UNEF
Compressor series with 0M4:
OM4 can be incorporated in compressors designed for CO2
transcritical in conjunction with oil receivers/reservoirs up to
60bar
Arctic Circle
G2, G4, G6
Bitzer
4VC, 4TC, 4PC, 4NC, 4J, 4H, 4G, 6J,6H, 6G, 6F,
8GC, 8FC
4- VHC-10K, THC-12K, PHC-15K,
NHC-20K, VSL-15K, TSL-20K, PSL-25K, NSL-30K
Bock
HA, HG (except HG/HA-34/22, see-CBB), O-Series
HGX4/310-4, 385-4, 464-4, 555-4
Copeland
4M & 6M (except transcritical 4MTL models), D2,
D3, D4, D6, D9,4CC, 6CC, ZBH
Dorin
all KP, K sizes (except those mentioned underCBB)
SCC 250/300/350/380/500/750/1500/1900/2000/2500/ -B,
SCS 3 4 0 /3 5 1 /3 6 2 /3 7 3 /3 8 5 /3 K8 /-D
Frascold
Series A, B, D, F, S, V, W, Z
A-SK, D-SK, F-SK, Q-SK, S-SK
Bitzer
2KC, 2JC, 2HC, 2GC, 2FC, 2EC, 2DC, 2CC, 4FC,
4EC, 4DC, 4CC
2- KHC-05K/ JHC-07K/ HHC-2K/ GHC-2K/ FHC-3K/ EHC-3K/ DHC3K/ CHC-4K, MHC-05K, KSL-1K/ JSL-2K/ HSL-3K/ GSL-3K/ FSL-4K/
ESL-4K/ DSL-5K/ CSL-6K/ MSL-7K,
4- CHC-9K/ DHC-7K/ EHC-6K/ FHC-5K
MTC,KTC,JTC-10K & 15K, HTC-15K & 20K, FTC-20K & 30K
Bock
HA12/22/34, HG12/22/34
HGX12P/40-4, 50-4, 60-4,75-4
HGX22P110-4, 125-4, 160-4, 190-4
HGX34P215-4, 255-4
Copeland
4MTL
Dorin
all H, K100CC/CS, K150CC/CS, K180CC/CS,
K200CC, K230CS, K235CC, K240SB, K40CC,
K50CS, K75CC/CS-
L'Unite Herm.
TAH, TAG
Maneurop
LT, MT, SM, SZ
Bitzer
ZL, ZM
Copeland
ZB 15 to ZB45
ZB 56, 75, 92, 11 - until May 2012
ZF 06 to ZF11; ZF13 to ZF18 *
ZF 24 to ZF 48 * - until May 2012
ZS 21 to ZS 45
ZS 56 to ZS 11 - until May 2012
0M0-CCB PartNo. 805040
Screw adapter 1-1/8“-12 UNF
Copeland
DK, DL
0M0-CCC Part No. 805041
Flange adapter 3-hole
Copeland
D8D, D8S_ (except D8SJ and D8SK, installation
only on one sight glass)
0M0-CCD PartNo. 805042
Rotalock adapter
1-3/4“-12 UNF
Copeland
ZB220, ZH, ZR 90, 11, 12, 16,19
ZR250 to ZR380,
ZF 24 to ZF 48, ZS 56 to ZS 11
ZP 180, ZP 235 to ZP 485
Copeland
ZB50, 58, 66, 76, 95, 114,
ZR 94/108/125/144/160/190
ZP 90/103/120/137/154/182
0M0-CCA PartNo. 805039
Screw adapter 3/4“ -14 NPTF
0M0-CCE PartNo. 805043
Rotalock adapter 1-1/4”-12 UNF
Bitzer
ZO34, ZO45, ZO58, ZO88, ZO104
GSD60182 to 60235
GSD80182, 80235, 80295 to 80485
*) Digital o r EVI variations o f standard m odels have the sam e sig ht glass/ will use the sam e a daptor as the standard model. O ther adaptor types on request!
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Oil Management Kits including adapter and 24V Coil: cross reference
Base Unit
Part No.
Adapter
Part No.
Kit inc. Adapter
Part No.
OM3-CUA
805030
OMO-CUA
805037
OM3-CBB
805032
OMO-CBB
805038
OM3-CCA
805033
OMO-CCA
805039
OM3-CCB
805034
OMO-CCB
805040
OM3-CCC
805035
OMO-CCC
805041
OM3-CCD
805031
OMO-CCD
805042
OM3-CCE
805029
OMO-CCE
805043
OM4-CUA
805060
OMO-CUA
805037
OM4-CBB
805062
OMO-CBB
805038
OM4-CCA
805063
OMO-CCA
805039
OM4-CCB
805064
OMO-CCB
805040
OM4-CCC
805065
OMO-CCC
805041
OM4-CCD
805061
OMO-CCD
805042
OM4-CCE
805066
OMO-CCE
805043
OM3-020
O
OM4-O2O
O
805133
805135
Coil
Part No.
ASC 24 VAC
801062
ASC 24 VAC
801062
Accessories
ECT-323
804 424
Transformer 23OVAC / 24VAC, 25VA (supply of 1 pc. OM3/OM4)
ECT-623
804 421
Transformer 23OVAC / 24VAC, 6OVA (supply of 3 pcs. OM3/OM4)
ODP-33A
800 366
Differential oil check valve 3.5 bar, inlet 15/16 -18UNF female, outlet 5/8 -18UNF male, PS 35 bar, OM3 only
Technical Data
Supply voltage / total power
OM3/4 with 24VAC ASC coil.
24VAC, 5O/6OHz, +1O/-15%, 17A
Body material
Aluminum
Screw material
Stainless Steel
OM3/4 with OM-23OV-x module.
23OVAC, 5O/6O Hz, 17VA
Medium compatibility
HCFC, HFC, CO2,mineral, synthetic,
and ester lubricants
Maximum allowable pressure PS
OM3: 35 bar, OM4: 6O bar
Orientation of base unit
horizontal
Solenoid valve MOPD
OM3: 21 bar, OM4: 3O bar
Level Control
4O to 6O% of sightglass height
Medium temperature
-20 to 80°C
Protection class
IP 65 (IEC529/EN 60529)
Ambient/Storage Temperature
-20 to 50°C
Weight
850 ... 930g (dep. on adapter)
Time delay filling
Time delay alarm
10 s
2O s, OM3-12O: 12O s
Alarm contact
max. 3A, 23OVAC, SPDT dry contact
Application
Traditional low pressure oil level management system
1
2
3
4
5
6
7
8
(D
High pressure oil level management system
Co m m on Suction
Co m m on Discharge
Co nd enser
Filter D rier
Oil Separator
Differential pressure valve
Oil reservoir
C ondenser
Filter Drier
C o m m on Discharge
C o m m on Suction N orm al Temp
Suction Line Low Tem p
Oil Separator
_ r ® i,
-11X11
1111
*
--------- L
i i i i
iff
w
fr
I
I
II
1
II
*
If
©
\ /
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Electronic Oil Level Monitoring TraxOil OW4 Oi
The TraxOil OW4 is a self-contained system which provides oil
level monitoring and alarm functionality, protecting especially
compressors having no oil pump.
Features
•
Suitable for HFCs, R410A and CO2
•
IP65 rating due to molded housing and new electrical
connection with molded cable Assemblies
•
3 Zone Level Control by using precise Hall-sensor measure
m ent, not prone to errors by foaming or light like optical
sensors
•
CE marking under Low Voltage and EMC Directive
•
SPDT output contact for compressor shut down or
alarm ing, rating 230VAC / 3A
•
Easy installation by sight-glass replacem ent and front side
mounting w ithout nuts
•
Self contained unit w ith oil level sensor
•
Alarm , status and 3 zone indication by LED's
•
Supply 24V AC, 50/60Hz
Selection (select one item of each group)
1. Base Unit (supplied without adapter)
Type
Part No.
Max. working pressure
OW4-020
805116
60 bar
Time delay alarm
20 sec
2. Power Cable
Type
Part No.
Description
OW-24V-3
804672
Connection to Power Supply 24VAC
Cable length
3,0m
3. Relay Cables
OM3-N30
805141
OM3-N60
805142
3,0m
Connection to Relay
6,0m
4. Adapter flanges
OM0-CUA
805037
Flange adapter 3-/4-hole
OM0-CBB
805038
Screw adapter 1-1/8“-18 UNEF
OM0-CCA
805039
Screw adapter 3/4“-14 NPTF
OM0-CCB
805040
Screw adapter 1-1/8“-12 UNF
OM0-CCC
805041
Flange adapter 3-hole
OM0-CCD
805042
Rotalock adapter 1-3/4”-12UNF
OM0-CCE
805043
Rotalock adapter 1-1/4”-12UNF
C om pressor m odels see OM3 series.
Technical Data
Materials:
Body and Adaptor
Screws
Sight Glass
aluminum (EN AW 6060)
stainless steel (ISO 4762)
nickel-plated steel (1.05.03 DIN EN 10027)
Orientation of base unit:
Level control
horizontal, +/- 1°
40% to 60% sight glass height
-20 to 80°C
-20 to 50°C
Alarm contact:
max. 3A, 230VAC
SPDT dry contact
HCFC, HFC, CO2, mineral, synthetic
and Ester lubricants
Time Delay Alarm:
20 sec
Protection class
IP 65 (IEC529/EN 60529)
Weight
850 ... 920g incl. adapter
Max. working pressure PS
60 bar
Supply voltage / current
24VAC, 50/60Hz,
+10/-15%, 0.05A
Vibration resistance (EN60068-2-6)
max. 4g, 10....250Hz
Medium temperature
Ambient/Storage temperature
Medium compatibility
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Oil Separator Series OS
Features
•
Three different construction styles:
- Hermetic
- Top flange
- Bottom flange with support bracket
Stainless steel needle valve and floater
Permanent magnet to catch iron particles out of the
system
Corrosion resistant epoxy powder painting
ODF Copper fittings for easy soldering
Temperature range TS: -10°C ... +150°C
Max. allowable pressure PS: 31 bar
CE marking according PED 97/23 EC
OSH
O ST
Type Code
OS X -X XX
Product line Oil Separators
Construction
ODF connection
H: Hermetic
T: Top flange
B: Bottom flange with supporter
Nominal shell diameter
--------
4: approx. 10 cm
6: approx. 15 cm
Type
Part No.
Connection
04: V
05: V
(16m m )
07: 7/8 “ (22m m )
09: 1 1/8*
11:
‘ (35m m )
13: 1 5/8‘
17: 2 7 8°
Conformity
Assessment
Category
OSB
Conformity
Assessment
Procedure
Nominal capacity (kW)
R22/R407C
R134A
R404A/ R507
Volume
Lit.
OSH-404
881 598
1/2”
7.0
4.9
7.3
2.0
OSH-405
881 599
5/8”
18.7
13.1
19.4
2.4
OSH-407
881 600
7/8”
28.1
19.7
29.0
2.8
OSH-409
881 792
1 1/8”
37.4
26.2
38.7
3.0
OSH-411
881 794
1 3/8”
46.8
32.8
48.4
3.6
OSH-413
881 856
1 5/8”
65.5
45.9
67.8
3.6
OSH-611
881 940
1 3/8”
51.5
36.1
53.3
6.5
OSH-613
881 953
1 5/8”
65.5
45.9
67.8
7.9
OSH-642
889 022
42 mm
65.5
45.9
67.8
7.9
OSH-617
881 970
2 1/8”
105.3
73.8
108.9
7.9
OST-404
881 860
1/2”
7.0
4.9
7.3
1.8
OST-405
881 861
5/8”
18.7
13.1
19.4
2.6
OST-407
881 862
7/8”
28.1
19.7
29.0
3.2
OST-409
881 863
1 1/8”
37.4
26.2
38.7
3.8
OST-411
881 938
1 3/8”
46.8
32.8
48.4
3.8
OST-413
881 939
1 5/8”
65.5
45.9
67.8
3.8
65.5
45.9
67.8
7.8
105.3
73.8
108.9
7.8
OSB-613
881 971
1 5/8”
OSB-617
881 972
2 1/8”
Cat. I
Cat. II
Cat. I
Cat. II
Module D1*
Module D1
Module D1*
Module D1
* applied higher module as required
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Capacity Data For Other Than Nominal Operating Conditions
Nominal capacities at +38°C condensing tem perature (+38°C
bubble point or +43°C dew point for R407C), +4°C evaporating
temperature (saturated temperatures / dew point) and 1 K liquid
subcooling at the inlet of the expansion valve.
C o rrection facto r for o ther evaporating tem p eratures than
nominal:
Q =Q x K
Qn:
Kt:
Qo:
Nominal capacity
Correction factor for a pressure drop corresponding 1 K
saturation temperature
Required cooling capacity
Correction Factors
Refrigerant
R22
R407
Refrigerant
Condensing
Temperature °C
Refrigerant
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0
-10
-20
-30
-40
-50
1.29
1.31
1.33
1.36
1.40
1.44
1.49
30
1.16
1.17
1.20
1.23
1.27
1.31
1.36
35
1.05
1.07
1.09
1.11
1.13
1.17
1.23
40
0.95
0.96
0.98
1.00
1.03
1.07
1.12
45
0.87
0.88
0.90
0.92
0.95
0.99
1.04
50
0.81
0.83
0.85
0.87
0.89
0.93
0.99
Condensing
Temperature °C
Correction factor Kt
Evaporating Temperature °C
10
0
-10
-20
-30
1.31
1.36
1.39
1.43
1.50
30
1.18
1.21
1.24
1.28
1.35
35
1.06
1.08
1.11
1.15
1.21
40
0.95
0.98
1.01
1.05
1.10
45
0.86
0.88
0.92
0.95
1.02
50
0.80
0.81
0.85
0.89
0.97
Condensing
Temperature °C
25
R404A
R507
10
25
25
R134a
Correction factor Kt
Evaporating Temperature °C
Correction factor Kt
Evaporating Temperature °C
10
0
-10
-20
-30
-40
-50
1.22
1.25
1.30
1.33
1.43
1.53
1.63
30
1.12
1.15
1.20
1.26
1.32
1.42
1.54
35
1.03
1.06
1.11
1.16
1.24
1.34
1.46
40
0.95
0.99
1.04
1.09
1.17
1.28
1.41
45
0.90
0.92
0.97
1.03
1.14
1.26
1.39
50
0.86
0.89
0.93
1.00
1.13
1.26
1.39
Suction Accumulators, Ball Valves
and Oil Test Kit
http://holodko.ru/
Suction Accumulators
Features
•
Hermetic design
•
ODF Copper fittings for easy soldering
•
Corrosion resistant epoxy powder painting
•
Internal orifice with strainer for optimum oil return
•
Temperature range TS: -45°C to +65°C
•
Max. allowable pressure PS:
20.7 bar (-10°C to +65°C)
15.5 bar (-45°C to -10°C)
•
CE marking for certain types according PED 97/23 EC
•
HP marking for certain types according German pressurised
vessels directive
Type
Connec­
tion
“(inch)
Part No.
A 08
Nominal Capacity Qn (KW)
R22/R407
R134a
Conformity
Assessment
R404A R507
Max.
Min.
Max.
Min.
Max.
Min.
Category
Volume
Lit.
procedure
A08-304
001 973
1/2
7.0
1.1
4.2
0.6
4.6
0.7
0.73
A10-305
001 977
5/8
10.5
1.6
6.0
0.9
7.0
1.1
0.93
A12-305
001 978
5/8
10.5
1.6
6.0
0.9
7.0
1.1
1.16
A12-306
001 979
3/4
14.0
2.1
8.1
1.2
9.1
1.4
1.16
A14-305
001 980
5/8
10.5
1.6
6.0
0.9
7.0
1.1
A14-306
001 987
3/4
14.0
2.1
8.1
1.2
9.1
1.4
A06-405
001 989
5/8
10.5
1.6
6.0
0.9
7.0
1.1
0.93
A10-405
001 990
5/8
10.5
1.6
6.0
0.9
7.0
1.1
1.75
A10-406
001 994
3/4
14.0
2.1
8.1
1.2
9.1
1.4
1.75
A09-506
881 995
3/4
14.0
2.1
8.1
1.2
9.1
1.4
2.33
A09-507
882 455
7/8
25.6
3.8
14.0
2.1
16.1
2.4
2.33
A12-506
881 996
3/4
14.0
2.1
8.1
1.2
9.1
1.4
3.29
A12-507
881 998
7/8
25.6
3.8
14.0
2.1
16.1
2.4
3.29
HP Marking
(CE Marking
not required)
1.40
1.40
A13-507
882 007
7/8
25.6
3.8
14.0
2.1
16.1
2.4
3.80
A13-509
882 011
1 1/8
41.4
6.2
25.3
3.8
26.7
4.0
3.80
A17-509
882 012
1 1 /8
41.4
6.2
25.3
3.8
26.7
4.0
4.87
A17-511
882 013
1 3/8
66.0
9.9
37.6
5.6
42.8
6.4
A11-607
882 014
7/8
25.6
3.8
14.0
2.1
16.1
2.4
4.30
Cat. I
Mod. D1*
4.87
A13-607
882 015
7/8
25.6
3.8
14.0
2.1
16.1
2.4
4.98
A13-609
882 019
1 1/8
41.4
6.2
25.3
3.8
26.7
4.0
4.98
A14-611
882 020
1 3/8
66.0
9.9
37.6
5.6
42.8
6.4
5.48
A17-613
882 022
1 5/8
100.0
15.0
59.7
9.0
63.9
9.6
6.85
A17-642
889 023
42 mm
100.0
15.0
59.7
9.0
63.9
9.6
6.85
A20-613
882 021
1 5/8
100.0
15.0
59.7
9.0
63.9
9.6
8.21
A25-613
882 023
1 5/8
100.0
15.0
59.7
9.0
63.9
9.6
Cat II
Mod. D1*
10.23
* applied higher module as required
C o rre ctio n fa c to r fo r o th er e vap o rating te m p e ra tu re s than
no m inal:
Qn = Qo X K
Evaporating Temperature (°C)
Correction Factor Kt
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Q n : N om inal c a p a c ity
Kt : C o rre ctio n fa c to r fo r a p ressu re drop
c o rresp o n d in g 1 K satu ratio n te m p e ra tu re
Q : R equired co oling c a p a c ity
+4
0
-5
-10
-15
-20
-25
-30
-35
-40
1.00
1.12
1.35
1.75
2.00
2.50
3.00
3.75
5.00
6.60
Ball Valves Series BVE / BVS
Features
•
BVS version with schrader valve
•
Two threads at valve body for easy mounting
•
Hermetic design
•
Max. allowable pressure PS: 45 bar
•
Compatible for high pressure refrigerants as R410A and CO2
(sub-critical)
•
Light weight design
•
Virgin PTFE seat gaskets
•
Bi-directional flow characteristics
•
Valve cap retained by strap attached to main body
•
Pressure relief port design
•
UL approval and CE marking acc. PED 97/23 EC
•
Applied Standards EN 12284, EN 378, EN12420, PED 97/23/EC
RoHS 2002/95/EC
•
To protect valve from un-authorized use a special cap is
available as accessory (see below)
Part No.
BVE-014
BVE-M06
BVE-038
BVE-M10
BVE-012
BVE-M12
Connection size ODF
Type
BVS
Part No.
806 730
BVS-014
806 750
806 731
BVS-M06
806 751
806 732
BVS-038
806 752
806 733
BVS-M10
806 753
806 734
BVS-012
806 754
806 735
BVS-M12
806 755
BVE-058
806 736
BVS-058
806 756
BVE-034
806 737
BVS-034
806 757
/3
Type
BVE
BVE-078
806 738
BVS-078
806 758
7/8”
BVE-118
806 739
BVS-118
806 759
1 1/8”
BVE-M28
806 740
BVS-M28
806 760
BVE-138
806 741
BVS-138
806 761
1 3/8”
BVE-158
806 742
BVS-158
806 762
1 5/8”
BVE-M42
806 743
BVS-M42
806 763
BVE-218
806 744
BVS-218
806 764
2 1/8”
BVE-258
806 745
BVS-258
806 765
2 5/8”
BVE-318
806746
BVS-318
806766
3 1/8”
inch
metric
1/4”
6mm
3/8”
10mm
1/2”
12mm
5/8”
16mm
22mm
28mm
35mm
42mm
54mm
Technical Data
Max. allowable pressure PS
45 bar
Test pressure PT
49.5 bar
Medium temperature TS
-40 ... 120°C (150°C short term)
Medium compatibility
HFC, HCFC, CO2, Mineral, Synthetic and Polyol-Ester (POE)
lubricants
Special Seal Caps to protect valve from unauthorized use
BVE / BVS Valve Size
Part No.
Thread (3)
Quantity per
pack
1/4” ... 7/8” (6 ... 22mm)
806 770
M18x1
10 pcs
1-1/8” ... 1 3/8” (28 ... 35mm)
806771
M27x1
10 pcs
1-5/8 (42 mm) ... 2-5/8”
806 772
M36x1
10 pcs
283
http://holodko.ru/
Acid Test Kid Series AOK
Features
•
Quick & easy test kit
•
Universal acid test kit for use with all oils:
•
By changing the percentage of oil sample taken, the acid
number of the oil can be accurately determined
•
Phase separation of the chemicals in the kit provide a positive
colour change regardless of the colour and condition of the oil
Mineral, POE, etc.
Type
Part No.
AOK-UQ1
804166
AO K
284
http://holodko.ru/
Accessories & Spare Parts
http://holodko.ru/
PT4-M60
804 805
802 352
Cable Assembly PT5
PT5-18M
M
0
m
i_nPT5
802 351
Pressure Transmitters
7
o
i_nPT5
802 350
804 424
ECT-623
ECN-S60
804 284
PCN
804 421
ECN-N60
804 497
Controller Kit
807 654
£
804 332
ECN-H60
804 359
807 653
ECN-F60
K03-331
807 648
3
3
2
2
m Ln
1
—
1
—
er
C
C
E
E
r
m
M
­ sro
n
£ ar
804 283
K03-110
807 656
c
E
Sensors
K02-540
800 050
800 070
K09-U00
804 559
K02-211
K03-X33
0
0
5
4
1.0 r-^
rn rn
0
0
K
K
807 647
K03-X32
al
807 645
5
0
0
o
CN
0
K
807 644
Controller Kits Parts List
Superheat
EC3-D72 Ctr. Kit TCP/IP
808 042
1
1
1
EC3-D72 Ctr. Kit TCP/IP,
R410A
808 049
1
1
1
EC3-D73 Ctr. Kit
808 041
1
1
1
1
1
EC3-X32 Ctr. Kit TCP/IP
808 037
1
1
1
1
EC3-X33 Ctr. Kit
808 036
1
1
1
1
EXD-U00 Ctr. Kit
808 038
1
1
1
1
1
1
1
Display Case
EC2-211 Ctr. Kit LON
808 000
1
1
2
1
EC2-212 Ctr. Kit TCP/IP
808 001
1
1
2
1
EC2-291 Ctr. Kit LON
808 002
1
1
2
1
EC2-292 Ctr. Kit TCP/IP
808 003
1
1
2
1
EC2-312 Ctr. Kit TCP/IP
808 005
1
1
2
2
1
EC2-351 Ctr. Kit LON
808 008
1
1
1
2
1
1
1
EC2-352 Ctr. Kit TCP/IP
808 009
1
1
1
2
1
1
1
EC2-371 Ctr. Kit LON
808010
1
1
3
1
1
1
EC2-372 Ctr. Kit TCP/IP
808011
1
1
3
1
1
1
EC2-391 Ctr. Kit LON
808 006
1
1
4
1
EC2-392 Ctr. Kit TCP/IP
808 007
1
1
4
1
Cond. Unit & Condenser
EC2-512 Ctr. Kit TCP/IP
808 015
EC2-552 Ctr. Kit TCP/IP
808 019
1
1
1
1
1
1
2
1
1
2
EC2-741 Ctr. Kit LON
808 022
1
1
1
1
EC2-742 Ctr. Kit TCP/IP
808 023
1
1
1
1
Cold Room
EC3-331 Ctr. Kit LON
808 012
1
1
1
1
1
1
1
EC3-332 Ctr. Kit TCP/IP
808 013
1
1
1
1
1
1
1
Rack & Condenser
EC3-652 Ctr. Kit TCP/IP
808 046
1
EC3-672 Ctr. Kit TCP/IP
808 029
1
EC3-752 Ctr. Kit TCP/IP
808 031
EC3-812 Ctr. Kit TCP/IP
808 033
EC3-932 Ctr. Kit TCP/IP
808 044
286
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1
1
1
1
1
1
1
2
1
1
1
2
1
1
1
3
4
1
1
1
1
1
1
1
2
Accessories, Spare Parts & Appendix
Electronic controllers
Description
Type
Part No.
807790
EC 3 R e p la c e m e n t b a tte r y
Thermo - Expansion Valves
Bu lb c la m p X B 1 0 1 9
XA 1728-4
803 260
Bu lb c la m p X C 7 2 6
XA 1728-5
803261
X 99999
800 005
X 13455-1
027 579
Screw BZ 32
803 575
Screw BZ 48
803 576
Screw ST 32
803 573
Screw ST 48
803 574
S e rv ic e T o o l fo r T Se rie s
G a s k e t se ts fo r T , Z Z , L, 9 3 5 and TG S e rie s v a lv e s
B ro n z e S c re w s fo r fo llo w in g fl a n g e ty p e s : (Z Z -V a lv e s)
C500, C501, 9761, X 6346, X 6669, A 576
9 1 4 8 , 9 1 4 9 , 9 1 5 2 , 9 1 5 3 , 1 0331, 10332
Stee l S c re w s fo r fo llo w in g fl a n g e ty p e s :
C500, C501, 9761, X 6346, X 6669, A576
9 1 4 8 , 9 1 4 9 , 9 1 5 2 , 9 1 5 3 , 1 0331, 10332
Solenoid Valves
801 295
Coil clip
X 11981-1
027 451
Plug a c c . To DIN 4 3 6 5 O c a b le g la n d PG 9
GDM 2009 / PG9
801 012
Plug a c c . To DIN 4 3 6 5 O c a b le g la n d PG11
GDM 211 / PG11
801 013
1 1 0 RB
KS 30040-1
801 206
2 0 0 RB
KS 30039/
S e rv ic e to o l fo r 1 1 0 R B , 2 4 0 R A , 5 4 0 R A , M 3 6
KS30109
R e p a ir k its:
G a s k e t k its:
801 205
240RAB
KS 30061
801 262
240RA9
KS 30062
802 263
240RA12
KS 30063
803 264
240RA16
KS 30065
801 200
240RA20
KS30097
801 216
M 3 6 -O 7 8 / M 3 6 -1 1 8 / 3O31 (u p p e r a s s e m b ly in c. G a s k e t)
M36-UNF
801 440
1 1 0 RB
KS 30040-2
801 232
2 0 0 RB
KS 30039-1
802 233
240RAB
KS 30061-1
803 234
2 4 0 R A 9 /1 2
KS 30062-1
804 235
240RA16
KS 30065-1
805 236
240RA20
KS 30097-1
806 237
all 3031
KS 30177-1
807 268
Pressure Controls
M o u n tin g b ra c k e t, a n g le , in clu d in g s c re w s
803 799
U n iv e rs a l fo r P S 1 , P S 2 , F D 1 1 3
M o u n tin g b ra c k e t u n iv e rsa l
803 798
E x te n s io n b ra c k e t fo r P S 1 , PS2
803 800
M o u n tin g p la te fo r u n its w it h hood
803801
C a b le g la n d PG 9
801 012
C a b le g la n d PG11
801 013
Plug a c c . To DIN 4 3 6 5 0 fo r PS3
C a p illa ry tu b e w it h fl a re n u ts 7 / 1 6 ” - 2 0 U N F , 1 / 4 ” S A E , 1 .5 m
803804
C o p p e r g a s k e t se t (1 0 0 p cs) fo r R 1 / 4 ” (7 / 1 6 ” - 2 0 U N F , fe m a le )
803 780
Thermostats
M o u n tin g b ra c k e t a n g le
803 799
U n iv e rs a l m o u n tin g b ra c k e t
803 798
E x te n s io n b ra c k e t fo r TS1
703 800
In s u la tio n c o n s o le TS1 sta n d a rd
803 777
C a p illa ry tu b e g la n d s R “ th r e a d , fo r b u lb s t y le A /C
803 807
C a p illa ry tu b e h o ld e r (5 p cs)
803 778
C a p illa ry tu b e w it h fl a re n u ts 7 / 1 6 ” - 2 0 U N F , 1 / 4 ” S A E , 1 .5 m
803804
287
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Oil Management
Description
O M 3 / OM4
Type
F la n g e a d a p te r 3 -/4 -h o le
OM0-CUA
805 037
S c r e w a d a p te r 1 1 / 8 ” - 1 8 U N E F
OM0-CBB
805 038
S c r e w a d a p te r 3 / 4 ” - 1 4 N P T F
OM0-CCA
805 039
S c r e w a d a p te r 1 1 / 8 ” - 1 2 U N F
OM0-CCB
805 040
F la n g e a d a p te r 3 -h o le
OM0-CCC
805 041
R o ta lo c k a d a p te r 1 -3 /4 ” - 1 2 U N F
OM0-CCD
805 042
R o ta lo c k a d a p te r 1 -1 /4 ” - 1 2 U N F
OM0-CCE
805 043
F la n g e a d a p te r 4 -h o le
OM0-CCF
805 044
T ra n s fo r m e r 2 3 0 V A C / 2 4 V A C , 2 5 V A
ECT-323
804 424
T ra n s fo r m e r 2 3 0 V A C / 2 4 V A C , 6 0 V A
ECT-623
804 421
ODP-33A
800 366
OM3-K01
805 036
X 99956
007 591
D iffe re n tia l o il c h e c k v a lv e 3 .5 b a r, PS: 3 5 b a r
(in le t 5 / 8 ” - U N F fe m a le , o u tle t 5 / 8 ” - U N F m a le )
R e p a ir k it fo r all O M 3 /O M 4 ty p e s
(all n e c e s s a r y g a sk e ts , co il clip and ol a d a p te r w it h s c re e n )
OS
Part No.
G a s k e t se t fo r O S B / O S T (5 0 p cs)
Filter Driers
A ll A D K S , A D K S -P lu s
X 99961
003 710
X 11562-2
803 251
C o re h o ld e r
X 99963
003 712
O 'R in g se t
X 99962
003 711
G a s k e t se t
X 99967
003 716
O 'R in g se t
X 99968
003 717
C o re h o ld e r
X 99969
003 718
BT A S 2
KD 30519-2
065 970
BT A S 3
KD 30519-3
065 971
BT A S 4
KD 30519-4
065 972
BT A S 5
KD 30519-5
065 973
G a s k e t se t
S c h ra d e r n ip p le 1 /4 ” N PT
FD S 4 8
FD S 2 4
BTAS
R e p a ir k its w it h s c re w s , g a s k e ts , sp rin g a n d b ra ss c o v e r:
Indicators
A M I u p p e r p a rt w it h in d ic a to r
O 'R in g s 2 0 p cs
X 12978-1
805 742
X 99995
805 643
Ball Valves
B V E /B V S sp e cia l ca p to p ro te c t v a lv e fro m u n -a u th o riz e d u se (1 0 p cs)
288
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■//
1 / 4 ” - 7 / 8 ” (6 - 2 2 m m )
806 770
1 1 /8 ” - 1 3 / 8 ” (2 8 - 3 5 m m )
806 771
1 5 / 8 ” - 3 1 / 8 ” (4 2 - 5 4 m m )
806 772
Conversion Table
Power
kW / h = Kcal / h : 860
Kcal / h = kW / h x 860
kW = US ton of refrigeration : 0,284
US ton of refrigeration = kW x 0,284
kW = BTU / h : 3413
BTU / h = kW x 3413
Temperature
°C = (°F - 32) : 1,8
°F = (°C x 1,8) + 32
Pressure
bar = PSI : 14,5
1 bar = 100 000 Pascal
PSI = bar x 14.5
100 Pascal = 1 mbar
Connections
Connection Tube
SAE
Flare
Thread
SAE
inch
metric
SAE 1/4”
1/4”
6mm
7/16” - 20UNF
SAE 5/16”
5/16”
8mm
5/8” - 18UNF
SAE 3/8”
3/8”
10mm
5/8” - 18UNF
SAE 1/2”
1/2”
12mm
3/4” - 16UNF
SAE 5/8”
5/8”
16mm
7/8” - 14UNF
SAE 3/4”
3/4”
18mm
1 1/16” - 14UNF
SAE 7/8”
7/8”
22mm
1 1/4” - 12UNF
SAE 1”
1
25mm
1 1/2” - 12UNF
1 1/8”
1 3/8”
35mm
1 5/8”
2 1/8”
54mm
2 5/8”
3 1/8”
R or G
same as
BSP
Pipe thread
female
cylindrical
Male thread: R / NPT / BSP / G
WithworthPipe thread
DIN 2999 / ISO 228
R
same as
BSP
Pipe thread
male
tapering
Female thread: R / NPT / BSP / G
WithworthPipe thread
DIN 2999
G
Pipe thread
male
cylindar
Female thread: R / BSP / G
WithworthPipe thread
ISO 228
Pipe thread
female
tapering
Male thread: R / NPT / BSP
Pipe thread
male
tapering
Female thread: R / NPT / BSP / G
NPT
Standard taper
Pipe thread
ASA B 2.1
ODF
Outside
Diameter
Female
Solder
female
Given dimension is outside tube diameter.
Tube has to be pushed into ODF connection.
ODM
Outside
Diameter
Male
Solder
male
Given dimension is outside tube diameter.
Expanded tube can be pushed onto ODM connection or tube can be connected through a
sleeve with the ODM connection.
289
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Saturation Pressure Table for Refrigerants
(bar, absolute)
R410A
R134a
R22
R404A
R507
R407C
R23
A L C O -S y m b o l
T e m p e ra tu re
°C
A L C O -S y m b o l
S
Z
M
H
S
Liq u id
Vapor
T e m p e ra tu re
°C
N
B
Liq u id
Vapor
85
2 9 .2 9
4 0 .2 9
4 7 .2 4
25
80
2 6 .3 5
3 6 .5 2
4 1 .8 4
20
75
2 3 .6 5
3 3 .4 0
3 6 .9 7
15
70
2 1 .1 7
2 9 .8 3
3 3 .3 4
3 3 .0 1
3 2 .5 8
10
5
65
1 8 .8 9
2 6 .8 7
3 1 .9 5
3 1 .8 4
3 2 .9 1
2 8 .6 2
60
3 8 .4 4
1 6 .8 1
2 4 .1 5
2 8 .7 5
2 8 .6 3
2 9 .5 9
2 5 .0 4
0
55
3 4 .4 7
1 4 .9 1
2 1 .6 4
2 5 .8 0
2 5 .6 6
2 6 .5 4
2 4 .9 1
2 2 .4 8
2 1 .8 3
-5
50
3 0 .7 9
1 3 .1 7
1 9 .3 3
2 3 .0 8
2 2 .9 4
2 3 .7 3
2 2 .2 4
1 9 .8 0
1 8 .9 4
-10
45
2 7 .4 1
1 1 .5 9
1 7 .2 1
2 0 .5 8
2 0 .4 4
2 1 .1 4
1 9 .7 9
1 7 .5 2
1 6 .3 5
-15
40
2 4 .3 1
1 0 .1 6
1 5 .2 7
1 8 .2 9
1 8 .1 5
1 8 .7 8
1 7 .5 5
1 5 .3 9
1 4 .0 3
-20
35
2 1 .4 7
8 .8 7
1 3 .5 0
1 6 .2 0
1 6 .0 6
1 6 .6 2
1 5 .5 0
1 3 .4 6
1 1 .9 7
-25
30
1 8 .9 0
7 .7 0
1 1 .8 8
1 4 .2 9
1 4 .1 5
1 4 .6 5
1 3 .6 3
1 1 .7 3
1 0 .1 4
-30
25
1 6 .5 6
6 .6 5
1 0 .4 1
1 2 .5 5
1 2 .4 2
1 2 .8 6
1 1 .9 3
1 0 .1 7
8 .5 3
-35
20
1 4 .4 5
5 .7 2
9 .0 8
1 0 .9 8
1 0 .8 5
1 1 .2 4
1 0 .4 1
8 .7 8
7 .1 2
-40
15
1 2 .5 5
4 .8 8
7 .8 8
9 .5 6
9 .4 4
9 .7 8
9 .0 3
7 .5 4
5 .8 9
-45
10
1 0 .8 5
4 .1 5
6 .8 0
8 .2 8
8 .1 7
8 .4 7
7 .7 9
6 .4 4
4 .8 3
-50
8
1 0 .2 2
3 .8 8
6 .4 0
7 .8 0
7 .7 0
7 .9 8
7 .3 3
6 .0 3
4 .4 5
-52
6
9 .6 2
3 .6 2
6 .0 2
7 .3 5
7 .2 5
7 .5 2
6 .9 0
5 .6 5
4 .0 9
-5 4
4
9 .0 4
3 .3 8
5 .6 6
6 .9 2
6 .8 2
7 .0 8
6 .4 8
5 .2 8
3 .7 5
-5 6
2
8 .4 9
3 .1 5
5.31
6.51
6.41
6 .6 5
6 .0 9
4 .9 4
3 .4 4
-58
0
7 .9 7
2 .9 3
4 .9 8
6.11
6.01
6 .2 5
5.71
4 .6 1
3 .1 4
-60
-2
7 .4 8
2 .7 2
4 .6 6
5 .7 4
5 .6 4
5 .8 6
5 .3 4
4 .3 0
2 .8 7
-62
-4
7 .0 0
2 .5 3
4 .3 6
5 .3 8
5 .2 9
5 .5 0
5 .0 0
4 .0 0
2.61
-6 4
-6 6
-6
6 .5 5
2 .3 4
4 .0 8
5 .0 4
4 .9 5
5 .1 5
4 .6 8
3 .7 2
2 .3 7
-8
6 .1 2
2 .1 7
3.81
4 .7 1
4 .6 3
4 .8 2
4 .3 7
3 .4 6
2 .1 5
-68
-10
5 .7 2
2.01
3 .5 5
4 .4 0
4 .3 2
4 .5 0
4 .0 8
3 .21
1 .9 5
-70
-12
5 .3 3
1 .8 6
3.31
4 .1 1
4 .0 3
4 .2 0
3 .8 0
2 .9 7
1 .7 6
-72
-1 4
4 .9 7
1.71
3 .0 8
3 .8 3
3 .7 6
3 .9 2
3 .5 3
2 .7 5
1 .5 8
-7 4
-16
4 .6 2
1 .5 8
2 .8 6
3 .5 7
3 .5 0
3 .6 5
3 .2 9
2 .5 4
1 .4 2
-7 6
-18
4 .2 9
1 .4 5
2 .6 5
3 .3 2
3 .2 5
3 .4 0
3 .0 5
2 .3 4
1 .2 8
-78
-20
3 .9 8
1 .3 3
2 .4 6
3 .0 9
3 .0 2
3 .1 5
2 .8 3
2 .1 6
1 .1 4
-80
-22
3 .6 9
1 .2 2
2 .2 7
2 .8 6
2 .8 0
2 .9 3
2 .6 2
1 .9 9
1 .0 2
-82
-2 4
3 .4 2
1 .1 2
2 .1 0
2 .6 5
2 .5 9
2.71
2 .4 2
1 .8 2
0 .9 0
-8 4
-2 6
3 .1 6
1 .0 2
1 .9 4
2 .4 6
2 .4 0
2.51
2 .2 3
1 .6 7
0 .8 0
-8 6
-28
2 .91
0 .9 3
1 .7 8
2 .2 7
2.21
2 .3 2
2 .0 6
1 .5 3
0.71
-88
-30
2 .6 8
0 .8 5
1 .6 4
2 .1 0
2 .0 4
2 .1 4
1 .8 9
1 .4 0
0 .6 2
-90
-32
2 .4 7
0 .7 7
1.51
1 .9 3
1 .8 8
1 .9 8
1 .7 4
1 .2 8
0 .5 5
-92
-3 4
2 .2 7
0 .7 0
1 .3 8
1 .7 8
1 .7 3
1 .8 2
1 .6 0
1 .1 6
0 .4 8
-9 4
-3 6
2 .0 8
0 .6 3
1 .2 6
1 .6 3
1 .5 8
1 .6 7
1 .4 6
1 .0 5
0 .4 2
-9 6
-38
1 .9 0
0 .5 7
1 .1 6
1 .4 9
1 .4 5
1 .5 3
1 .3 4
0 .9 6
0 .3 6
-98
-40
1 .7 4
0 .5 2
1 .0 5
1 .3 7
1 .3 3
1 .4 0
1 .2 2
0 .8 7
0 .3 2
-1 0 0
-42
1 .5 8
0 .4 7
0 .9 6
1 .2 5
1.21
1 .2 8
1.11
0 .7 8
0 .2 7
-1 0 2
-4 4
1 .4 4
0 .4 2
0 .8 7
1 .1 4
1 .1 0
1 .1 7
1.01
0 .7 0
0 .2 3
-1 0 4
-4 6
1.31
0 .3 7
0 .7 9
1 .0 4
1 .0 0
1 .0 7
0 .9 2
0 .6 3
0 .2 0
-1 0 6
-48
1 .1 8
0 .3 4
0 .7 2
0 .9 4
0.91
0 .9 7
0 .8 3
0 .5 7
0 .1 7
-1 0 8
-50
1 .0 7
0 .3 0
0 .6 5
0 .8 5
0 .8 2
0 .8 8
0 .7 5
0.51
0 .1 4
-1 1 0
-52
0 .9 6
0 .2 7
0 .5 8
0 .7 7
0 .7 4
0 .8 0
0 .6 8
0 .4 5
0 .1 2
-1 1 2
-5 4
0 .8 7
0 .2 4
0 .5 2
0 .7 0
0 .6 7
0 .7 2
0.61
0 .4 0
0 .1 0
-1 1 4
-5 6
0 .7 8
0.21
0 .4 7
0 .6 3
0 .6 0
0 .6 2
0 .5 5
0 .3 6
0 .0 9
-1 1 6
-58
0 .7 0
0 .1 9
0 .4 2
0 .5 6
0 .5 4
0 .5 9
0 .4 9
0 .3 2
0 .0 7
-1 1 8
-60
0 .6 2
0 .1 6
0 .3 8
0.51
0 .4 8
0 .5 3
0 .4 4
0 .2 8
0 .0 6
-1 2 0
The pressure values required fo r selection o f R404A and R407C expansion are highlighted.
290
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CE per Pressure Vessel Directive CE 97 / 23 / EC
Filter Driers
Product
Fluid
Volume
TS
PS
Hazard
Conformity
group
(liter)
(°C)
(bar)
category
assessment
Marking
ADK-03 / 05 / 08 / 1 6 .
II
0.1 ... 0.38
45
SEP
-
HP & UL
ADK-30 / 41 / 7 5 .
II
0.4 ... 0.65
45
SEP
-
HP & UL
FDB-03 / 05 / 08 / 1 6 .
II
0.1 ... 0.38
45
SEP
-
HP & UL
FDB-30 / 4 1 .
II
0.45 ... 0.5
45
SEP
-
HP & UL
BFK-05 / 08 / 1 6 .
II
0.18 ... 0.32
45
SEP
-
HP & UL
BFK-30.
II
0.4
45
SEP
-
HP & UL
FDS-24.
II
1.0
SEP
-
HP & UL
ADKS-48.
II
2.1
ADKS-96.
II
3.8
ADKS-144.
II
5.4
ADKS-192.
II
ASD/ASF-28.../35./ 4 5 .
II
module
-40 ... +65
I
A
CE & UL
I
A
CE & UL
I
A
CE & UL
7.0
I
D1
CE0036&UL
<1.0
SEP
-
HP & UL
SEP
-
HP & UL
SEP
-
HP & UL
SEP
-
HP & UL
SEP
-
HP & UL
-10 ... +65
34.5
(-45 ... -10)
(25.9)
-45 ... +50
27.5
ASD /ASF50./75.
II
<1.4
BTAS-2.
II
0.42
BTAS-3.
II
1.1
BTAS-4.
II
1.97
BTAS-5.
II
3.19
I
A
CE & UL
OSH-4O4
II
2.0
I
A
HP & UL
OSH-4O5
II
2.4
I
A
HP & UL
OSH-4O7
II
2.8
I
A
HP & UL
OSH-4O9
II
3.0
I
A
HP & UL
OSH-411 / -413
II
3.6
I
A
HP & UL
OST-4O4
II
1.8
I
A
HP & UL
OST-4O5
II
2.6
I
A
HP & UL
OSH-4O7
II
3.2
I
A
CE & UL
OST-4O9 / -411 / -413
II
3.8
I
A
CE & UL
OSH-611
II
6.5
II
D1
CE & UL
OSH-613 / -617
II
7.9
II
D1
CE0036 & UL
OSB-613 /-617
II
7.8
D1
HP & UL
OM3
II
DN 6MM
-20 ... +80°C
35
SEP
C E u n d e r L o w V o lta g e a n d E M C D ire c tiv e
O M 4& OW4
II
DN 6MM
-20 ... +80°C
60
SEP
C E u n d e r L o w V o lta g e a n d E M C D ire c tiv e
II
0.9
-45 ... +50
24
Oil Management / Components
-40 ... +65
31
II
Suction Accumulators
A08-304
SEP
-
HP & UL
SEP
-
HP & UL
SEP
-
HP & UL
A10-305
II
1.1
A12-305 / -306
II
1.3
-10 ... +65
20.7
A14-305 / -306
II
1.6
(-45 ...10)
(15.5)
SEP
-
HP & UL
A06-404 / -405
II
1.2
SEP
-
HP & UL
A10-405 / -406
II
2.1
SEP
-
HP & UL
291
http://holodko.ru/
Suction Accumulators (continued)
Product
Fluid
Volume
group
(liter)
TS
PS
Hazard
Conformity
(°C)
(bar)
category
assessment
Marking
A09-506 / -507
II
2.7
I
A
CE & UL
A12-506 / -507
II
3.8
I
A
CE & UL
A13-507 / -509
II
4.3
I
A
CE & UL
A17-509 / -511
II
5.4
I
A
CE & UL
A11-607
II
5.1
-10 ... +65
20.7
I
A
CE & UL
A13-607 / -609
II
5.8
(-45 ... -10)
(15.5)
I
A
CE & UL
A14-611
II
6.4
I
A
CE & UL
A17-613
II
7.9
I
A
CE & UL
A20-613
II
9.4
I
A
CE & UL
A25-613
II
11.6
II
D1
C E00 36& UL
Marking
module
Pressure Switches
Product
Fluid
Volume
TS
PS
Hazard
Conformity
group
(liter)
(°C)
(bar)
category
assessment
module
PS1-B3..., PSA-B3...
6
PS1-S3..., PSA-S3...
6
PS1-W3..., PSA-W3...
6
PS1-B5..., PSA-B5...
6
PS1-S5..., PSA-S5...
6
PS1-W5..., PSA-W5...
6
All other PS1 types
6
PS2-B7..., PSB-B7...
6
PS2-C7..., PSB-C7...
6
22
-50 ... +70
32
22/32
22
IV
B, D
C E00 35& UL
IV
B, D
C E00 35& UL
IV
B, D
C E00 35& UL
IV
B, D
C E00 35& UL
IV
B, D
C E00 35& UL
IV
B, D
C E00 35& UL
Under LVD, excluded from PED
CE & UL
IV
B, D
C E00 35& UL
IV
B, D
C E00 35& UL
PS2-T7..., PSB-T7...
6
IV
B, D
C E00 35& UL
PS2-B7..., PSB-B7...
6
IV
B, D
C E00 35& UL
PS2-C7..., PSB-C7...
6
IV
B, D
C E00 35& UL
PS2-C8..., PSB-C8...
6
IV
B, D
C E00 35& UL
PS2-G8..., PSB-G8...
6
IV
B, D
C E00 35& UL
PS2-S8..., PSB-S8...
6
IV
B, D
C E00 35& UL
PS2-T7..., PSB-T7...
6
IV
B, D
C E00 35& UL
IV
B, D
C E00 35& UL
PS2-W7..., PSB-W7...
6
All other PS2 types
6
PS3-B.1...,PS3-W .1...
6
PS3-B.4...,PS3-S.4...
6
PS3-B.5...,PS3-S.5...
6
PS3-W.4...,PS3-W.5...
6
PS3-C.4...,PS3-T.4...,PS3-X.4...
6
PS3-C.5...,PS3-T.5...,PS3-X.5...
6
PS3-B6...,PSC-B6...
6
PS3-W6...,PSC-W6...
6
PS3-S6...,PSC-S6...
6
All other PS3 type
6
FD113...
6
LVD = Low Voltage Directive
292
http://holodko.ru/
—
50 ... +70
32
22/32
-40 ... +70
27
-40 ... +70
32
-40 ... +150
-40 ... +150
-40 ... +70
43
27/32
Under LVD, excluded from PED
CE
IV
B, D
C E00 35& UL
IV
B, D
C E00 35& UL
IV
B, D
C E00 35& UL
IV
B, D
C E00 35& UL
IV
B, D
C E00 35& UL
IV
B, D
C E00 35& UL
IV
B, D
C E00 35& UL
IV
B, D
C E00 35& UL
IV
B, D
C E00 35& UL
Under LVD, excluded from PED
Under LVD, excluded from PED
CE
CE & UL
Fan Speed Controllers
Product
Fluid
DN
TS
PS
Hazard
Conformity
group
(mm)
(°C)
(bar)
category
assessment
Marking
module
F S Y -4 1 .
II
6
F S Y -4 2 .
II
6
FSY-43...
II
6
PT5-07M/T
II
6
PT5-18M/T
II
6
PT5-30M/T
II
6
PT5-50M/T
II
6
27
-20 ... +70
32
43
CE
under LVD,
excluded from PED
CE
CE
Transmitters
-40 ... +80
mobile applic.:
-25 ... +80
27
SEP
-
CE
55
SEP
-
CE
60
SEP
-
CE
100
SEP
-
CE
Thermo® Expansion Valves and Electrical Control Valves
TI
II
max. 16
45
SEP
-
-
TX3
II
max. 16
45
SEP
-
-
TX6-H/M/N/S..
II
max. 22
31
SEP
-
-
TX6-Z..
II
max. 22
42
SEP
-
-
T-series
II
max. 28
31
SEP
-
-
L-series
II
max. 28
31
SEP
-
-
-45 ... +65
935-series
II
max. 28
31
SEP
-
-
ZZ-series
II
max. 28
-120 ... +65
31
SEP
-
-
EX2
II
max. 12
-40 ... +50
40
SEP
-
-
EX4/EX5/EX6
II
max. 22
45
SEP
-
-
EX7
II
35
45
I
A
CE
EX8
II
42
45
I
A
CE
110 RB 2 .
II
6....10
31
SEP
-
-
200 RB 3 / 4 / 6 .
II
10 ... 16
31
SEP
-
-
240 RA 8 / 9 / 1 2 .
II
16 ... 28
31
SEP
-
-
240 RA 16T9
II
28
31
SEP
-
-
240 RA 16T11
II
35
31
I
A
CE
240 RA 2 0 T 1 1 /1 3 /1 7 .
II
35 ... 54
31
I
A
CE
-50 ... +100
Solenoid Valves
--40 ... +120
540 RA 8 /9 /1 2 /1 6 .
II
16 ... 28
31
SEP
-
-
540 RA 20T11
II
35 ... 54
28
SEP
-
-
M36-078
II
28
M36-118
II
28
-40 ... +120
35
SEP
-
-
35
SEP
-
-
31
SEP
-
-
28
SEP
-
-
25
SEP
-
-
45
SEP
-
-
45
I
A
CE
Regulators
II
12 ... 28
PRE/PRC
II
16 ... 35
0
II
CPHE...
6
.
ACP
--40 ... +120
-30... +80
Ball valves
BVE/BVS...
II
< 28
B V E/B V S..
II
> 35
--40 ... +120
293
http://holodko.ru/
294
http://holodko.ru/
___ —
Standard Term s and Conditions Of Sale - Products & Services
Em erson Clim ate Technologies GmbH, Em erson Retail Services Europe GmbH
1. DEFINITIONS:
10.4 Buyer may set areasonableperiod of at least four (4) weeks to Seller for him toprovide subsequent performance
and, if subsequent performance fails during such period, may demand reduction of the Contract Price after expiry of
that period or, unless the defect is insignificant, may rescind the Contract. Damages may only beclaimed in line with
Clause 14.
10.5 Any claims andrights basedon defects will becometime-barred, except in thecaseof intent, after expiry of twelve
(12) months sincetaking intooperationof theGoods, however nolater thaneighteen (18) months sincedelivery. Claims
todamages basedon defectswill becometime-barred after expiry of thestatutory period if they result fromaviolation
of another's life, health or body, or fromSeller's gross negligence.
10.6 Seller assumes nowarranty for normal wear andtear, material provided by Buyer, processing of the Goods made
by Buyer, damage due to improper storage, installation or operation or due to inadequate maintenance, or damage
resulting from any modification or repair not approved beforehand by Seller in writing. Seller will not beliablewhere
any non-authorised software or non-authorised spare or replacement parts are used. Any costs incurred by Seller for
examining andremoving such defects will beborneby Buyer upon demand. Buyer will always beresponsible alonefor
thecompleteness andcorrectness of any information provided by it.
10.7 Regardingproducts or Services sourcedbySeller fromathird party (other thanaSeller Affiliate) for resaletoBuyer,
Seller assigns to Buyer all warranty rights against such third party. In addition, Seller remains obliged to assume the
guaranteeset forth theprecedingclauses towards Buyer, however, onlyunder therestriction that Buyer has beforehand
unsuccessfully tried toexecutetheassignedwarranty rights against thethird party.
In theseTerms andConditions of Sale,“Seller"means oneof thethreeEmerson companies mentionedin thetitle; “Buyer"
means theperson, firm, companyor corporation bywhomtheorder is given; “Goods" means thegoods (including any
Software andDocumentation, as defined in Clause9) described in Seller's Acknowledgement of Order form; “Services"
means the services described in Seller's Acknowledgement of Order Form; “Contract" means the written agreement
(including theseTerms and Conditions) madebetween Buyer and Seller for the supply of the Goods and/or provision
of Services; “Contract Price" means the price payableto Seller by Buyer for the Goods and/or Services and“Seller Af­
filiate" means an Emerson Group company which is an affiliatewithin the meaning of Section 15 AktG[German Stock
CorporationAct].
2. THE CONTRACT:
2.1 All orders must bein writing andareaccepted subject to theseTerms and Conditions of Sale. No terms or condi­
tions put forward by Buyer andnorepresentations, warranties, guarantees or other statements not containedin Seller's
quotation or Acknowledgement of Order nor otherwise expressly agreed inwriting by Seller shall bebinding on Seller.
2.2 The Contract shall become effective only upon the dateof acceptance of Buyer's order on Seller's Acknowledge­
ment of Order form. If thedetails of theGoods or Services describedin Seller's quotation differ fromthoseset out in the
Acknowledgement of Order Formthelatter shall apply.
2.3 No alteration or variation to the Contract shall apply unless agreedin writing by both parties. However, Seller re­
serves the right to effect minor modifications and/or improvements to the Goods before delivery provided that the
performanceof theGoods is not adversely affectedandthat neither theContract Pricenor thedelivery dateis affected.
3. VALIDITY OF QUOTATION AND PRICES:
3.1 Unless previouslywithdrawn, Seller's quotation is openfor acceptancewithin theperiod statedtherein or, when no
period is sostated, within thirty days after its date.
3.2 Prices are firm for delivery within the period stated in Seller's quotation and areexclusive of (a) ValueAddedTax
and(b) any similar andother taxes, duties, levies or other like charges arising outside Germany in connection with the
performanceof theContract.
3.3 Prices (a) arefor Goods deliveredEXW(Exworks) Seller's shipping point, exclusiveof freight, insuranceandhandling
and(b) unless otherwise statedin theSeller's quotation, areexclusiveof packing. If theGoods aretobepacked, packing
materials arenon-returnable.
4. PAYMENT:
4.1 Payment shall bemade: (a) in full without set-off, counterclaimor withholding of any kind (savewhere andto the
extent that this cannot by lawbeexcluded); and(b) in thecurrency of Seller's quotation within thirty days of receipt of
invoice unless otherwise specified by Seller's Finance Department. Goods will beinvoiced at any timeafter their readi­
ness for despatch has been notified toBuyer. Services will beinvoicedmonthly in arrears or, if earlier, upon completion.
Without prejudicetoSeller'sother rights, Seller reserves theright to: (i) chargeinterest on anyoverduesums at8%above
the baselending rateof Section 247 BGB (German Civil Code) during the period of delay; (ii) suspend performance of
the Contract (including withholding shipment) in the event that Buyer fails or in Seller's reasonableopinion it appears
that Buyer is likely tofail tomakepayment when dueunder theContract or any other contract; and(iii) under thesame
conditions requirereasonablesecurity for payment.
4.2 Customer mayset off counterclaims only if recognised or non-appealable. Aright of retention may beexercisedby
Customer only if as it concerns thesamecontractual relationship.
5. DELIVERY PERIOD:
5.1 Unless otherwisestatedin Seller's quotation, all periods statedfor delivery or completionrun fromtheEffectiveDate
andaretobetreatedas estimates only not involving anycontractual obligations.
5.2 If Seller is delayed in or prevented from performing any of its obligations under the Contract due to the acts or
omissions of Buyer or its agents (including but not limited tofailuretoprovidespecifications and/or fully dimensioned
working drawings and/or such other information as Seller reasonably requires toproceedexpeditiously with its obliga­
tions under theContract), thedelivery/completion period andtheContract Priceshall both beadjusted accordingly.
5.3 If delivery is delayedduetoanyact or omission of Buyer, or if having beennotified that theGoods arereadyfor des­
patch, Buyer fails totakedelivery or provideadequateshipping instructions, Seller shall beentitled toplacetheGoods
intoasuitablestoreat Buyer's expense. Upon placingtheGoods intothestore, deliveryshall bedeemedtobecomplete,
risk in theGoods shall pass toBuyer andBuyer shall pay Seller accordingly.
6. FORCE MAJEURE:
6.1 The Contract (other than Buyer's obligation to pay all sums dueto Seller in accordancewith the Contract) shall be
suspended, without liability, in the event and to the extent that its performance is prevented or delayed due to any
circumstancebeyond thereasonable control of the party affected, including but not limited to: Act of God, war, armed
conflict or terrorist attack, riot, fire, explosion, accident, flood, sabotage; governmental decisions or actions (including
but not limited to prohibition of exports or re-exports or the failure to grant or the revocation of applicable export
licenses), or labour trouble, strike, lockout or injunction. Seller shall havenoobligation tosupply hardware, softwareor
technology or toprovideservices in theabsenceof government permits or fulfilment of statutory conditions of exemp­
tion from such permits within the framework of import and export control (in particular, according to the regulations
applicablein theUnited States, theEuropean Union andthejurisdiction in which Seller has its registered officeor from
which components of the Goods aresupplied) and the underlying circumstances could not beforeseen by Seller and
areoutside of Seller's sphere of influence. In theevent of revocation of issued government permits or in theevent of a
changein theapplicablestatutory import andexport control regulations suchthat Seller is preventedfromfulfilling the
contract, Seller is discharged fromthecontractual obligation without anyliability of Seller.
6.2 If either party is delayed or prevented from performanceof its obligations by reason of this Clausefor more than
180 consecutivecalendar days, either party may terminatethe then unperformed portion of theContract by notice in
writing given to the other party, without liability provided that Buyer shall beobliged to pay the reasonable cost and
expenseof anywork in progress andtopayfor all Goods delivered andServices performedas atthedateof termination.
7. INSPECTION, TESTING, AND CALIBRATION:
7.1 Goods will beinspected by Seller or manufacturer and, where practicable, submitted to Seller's or manufacturer's
standard tests before despatch. Any additional tests or inspection (including inspection by Buyer or its representative,
or tests in thepresenceof Buyer or its representativeand/or calibration) or thesupply of test certificates and/or detailed
test results shall besubject toSeller's prior written agreement and Seller reserves the right tochargetherefor; if Buyer
or its representative fails toattend such tests, inspection and/or calibration after seven days' noticethat the Goods are
readytherefor, thetests, inspection and/or calibrationwill proceedandshall bedeemedtohavebeen madein thepres­
enceof Buyer or its representativeandtheSeller's statement that theGoods havepassedsuchtestingand/or inspection
and/or havebeen calibratedshall beconclusive.
7.2 Buyer's warranty rights aresubject toBuyer's proper compliancewith Buyer's inspection andcomplaint obligations
set forth in Section 377 of theGerman Commercial Code(HGB).
8. DELIVERY, RISK & TITLE:
8.1 Unless otherwise expressly stated in the Contract, the Goods will bedelivered CarriagePaidTo (CPT) the destina­
tion named in the Contract; freight, packing and handling will becharged at Seller's standard rates. Risk of loss of or
damage to the Goods shall pass to Buyer upon delivery as aforesaid and Buyer shall be responsible for insurance of
the Goods after risk has so passed. Alternatively, if it is expressly stated in the Contract that Seller is responsible for
the insurance of the Goods after their delivery tothe carrier, such insurancewill becharged at Seller's standard rates.
“Ex-works', “FCA", “CPT" andany other delivery terms used in theContract shall bedefinedin accordancewith thelatest
version of Incoterms.
9. DOCUMENTATION AND SOFTWARE:
9.1 Title toandownershipof thecopyrights in softwareand/or firmwareincorporatedinto or providedfor usewith the
Goods (“Software") anddocumentation suppliedwith theGoods (“Documentation") shall remainwith therelevant Seller
Affiliate(or such other party as may havesupplied theSoftwareand/or Documentation toSeller) andis not transferred
hereby toBuyer.
9.2 Except as otherwise provided herein, Buyer is hereby granted anon-exclusive, royalty-free licenceto use the Soft­
wareandDocumentationin conjunctionwith theGoods, provided that andfor solongas theSoftwareandDocumenta­
tion arenot copied (unless expressly authorised by applicable law) and Buyer holds the Software andDocumentation
in strict confidenceanddoes not disclose themto others, or permit others to haveaccess to them(other than Seller's
standard operating and maintenance manuals). Buyer may transfer the foregoing licenceto another party which pur­
chases, rents or leases theGoods, provided theother party acceptsandagrees in writing tobebound by theconditions
of this Clause9.
9.3 Notwithstanding Sub-clause 9.2, Buyer's use of certain Software, (as specified by Seller andincluding but not lim­
ited to control system andAMS Software) shall begoverned exclusively by the applicable Seller Affiliate or third party
licenceagreement.
9.4 Seller andSeller Affiliates shall retain ownership of all inventions, designs andprocesses madeor evolved by them
andsaveasset out in this Clause 9 no rights in intellectual property are hereby granted.
10. LIABILITY FOR DEFECTS OF QUALITY
10.1 Seller warrants that upon passing of the risk the Goods and Services will have the quality agreed upon. Unless
otherwise agreed, the quality agreed upon shall meet Seller's specifications as valid and published at the time of the
order confirmation.
10.2 If, upon passing of therisk, theGoods or Services donot havethe quality agreedupon, Seller warrants toprovide
subsequent performance by either, at its option, repairing or replacing the concerned parts (subsequent rectification)
or by replacingtheGoods or Services by such Goods or Serviceswhich arefreefromdefects (subsequent delivery).
10.3 Seller may rectify any defect several times andmay decideat its discretion to changefromrectification tosubse­
quent delivery. Seller shall beresponsible for all costs incurred in connection with its subsequent performance, espe­
cially the transport, shipping, labour and material cost, unless such costs are incurred as aresult of the Goods being
taken toaplaceother than theplaceof performance.
11. LIABILITY FOR PROPRIETARY RIGHTS INFRINGEMENTS
11.1 Seller warrants that upon passing of the risk no patents or other proprietary rights of third parties exist which
may beclaimedwith respect to the Goods or Services if these areused as intended. Clauses 10.2 to 10.5 and 10.7 shall
apply correspondingly.
11.2 Seller's liability shall beexcluded where athird party patent or proprietary right is infringed because Seller has
adhered to adesign provided by Buyer or has complied with an instruction given by Buyer, or becausethe Goods are
used in amanner, for apurpose, in acountry, or in connection with other goods or services, without this having been
communicatedtoSeller beforeexecution of theContract.
11.3 During theperiodof Seller's warranty, Buyer has theobligation to informSeller in writing as promptly as possible
in the event that athird party claims any patent or other proprietary right or asserts any claims in or out of court with
respect totheGoods or Services. Beforerecognising any claimadvancedby athird party in or out of court, Buyer shall
give Seller the opportunity to comment. At its request, Seller shall begiven the authority to handle the negotiations
or legal disputewith such third party at its own cost and responsibility. Buyer shall beliable to Seller for any damage
sustained by it as aresult of aculpableviolation of said obligations.
11.4 Buyer warrants that the use of adesign provided by it or compliancewith an instruction given by it will not lead
toSeller infringing any patents or other proprietary rights when performing its contractual obligations. Buyer agrees to
indemnify and hold Seller harmless against any reasonable cost and damages incurred by Seller as aresult of Buyer's
breachof this warranty.
12. DAMAGES
12.1 Seller shall beliable to Buyer only for damage causedwith intent or gross negligence. In the event of breach of
material contractual obligations, Seller shall, however, beliablefor eachfault of its personnel (statutory representatives,
executiveemployees andother persons employedin theperformanceof its obligations) causing damage.
12.2 Except in caseof intentional causation of damageby personnel of Seller or causation of damagewith gross neg­
ligence by statutory representatives or executive employees of Seller, Seller shall not be liable for compensation for
indirect damageand, in particular, Seller shall not beliable for compensation for loss of profit, unless such damageis
coveredby theprotectivepurposeof awarranty explicitly assumed.
12.3 Except in caseof intentional causation of damageby personnel of Seller or causation of damagewith gross negli­
genceby statutory representatives or executiveemployees of Seller, theliability of Seller shall, in eachcase, belimitedin
terms of amount tothedamagewhich is typically foreseeablein thetimeof conclusion of thecontract.
12.4 Claims todamages whichresult fromtheviolation of another's life, bodyor health, fromtheviolation of aguaranty
given by Seller expressly inwriting as well as damageclaims under theProduct Liability Act shall remain unaffected.
13. STATUTORY AND OTHER REGULATIONS:
13.1 If Seller's obligations under the Contract shall be increased or reduced by reason of the making or amendment
after thedateof Seller's quotation of any lawor anyorder, regulation or bye-lawhaving theforceof lawthat shall affect
the performanceof Seller's obligations under theContract, the Contract Priceanddelivery period shall beadjusted ac­
cordingly and/or performanceof theContract suspended or terminated, as appropriate. Apriceadjustment shall not be
implemented if thedelivery is tobecarriedout within 4 months after theclosing of theContract.
13.2 Except to the extent otherwise required by applicable law, Seller shall have no responsibility for the collection,
treatment, recovery or disposal of (i) the Goods or any part thereof when they aredeemed by lawto be'waste' or (ii)
any items for which the Goods or any part thereof are replacements. If Seller is required by applicable law, including
waste electrical and electronic equipment legislation, European Directive2002/96/EC(WEEE) and related legislation in
EU Member States, todisposeof'waste' Goods or any part thereof, Buyer shall, unless prohibited by applicablelaw, pay
Seller, in addition totheContract Price, either (i) Seller's standardchargefor disposing of such Goods or (ii) if Seller does
not havesuch astandard charge, Seller's costs (including all handling, transportation anddisposal costs and areason­
ablemark-up for overhead) incurred in disposing of such Goods.
13.3 Buyer's personnel shall, whilst on Seller's premises, comply with Seller's applicable site regulations and Seller's
reasonableinstructions, including but not limited tothoserelating tosafety, security andelectrostaticdischarge.
14. COMPLIANCE WITH LAWS
Buyer agrees that all applicableimport, export control andsanctions laws, regulations, orders andrequirements, as they
may beamended from time to time, including without limitation those of the United States, the European Union and
thejurisdictions in which Seller and Buyer areestablished or fromwhich items may besupplied, andthe requirements
of any licenses, authorisations, general licences or licenceexceptions relating theretowill apply to its receipt and use
of hardware, software, services and technology. In no event shall Buyer use, transfer, release, export or re-export any
such hardware, softwareor technology in violation of such applicable laws, regulations, orders or requirements or the
requirements of any licences, authorisations or licence exceptions relating thereto. Buyer agrees furthermore that it
shall not engagein any activity that would exposetheSeller or any of its affiliates toarisk of penalties under laws and
regulations of any relevant jurisdiction prohibiting improper payments, including but not limited to bribes, to officials
of anygovernment or of anyagency, instrumentality or political subdivision thereof, topolitical parties or political party
officials or candidates for publicoffice, or toany employeeof any customer or supplier. Buyer agrees tocomplywith all
appropriatelegal, ethical andcompliancerequirements.
15. DEFAULT, INSOLVENCY AND CANCELLATION:
Seller shall beentitled, without prejudice to any other rights it may have, to cancel the Contract forthwith, wholly or
partly, by noticein writing toBuyer, if Buyer is in default of anyof its obligations under theContract andfails, within 30
(thirty) days of thedateof Seller's notification in writing of theexistenceof thedefault, either torectify such default if it
is reasonably capableof being rectifiedwithin such period or, if thedefault is not reasonably capableof being rectified
within such period, totakeaction toremedy thedefault.
16. SUPPLEMENTARY TERMS AND CONDITIONS:
If theGoods compriseor includeacontrol system, Seller's SupplementaryTerms andConditionsApplicabletotheSup­
plyofControl Systems andRelatedServices shall applytothecontrol systemandrelatedservices only. SuchSupplemen­
taryTerms andConditions shall takeprecedenceover theseStandardTerms andConditions of Sale; copies areavailable
fromSeller upon request.
17. MISCELLANEOUS:
17.1 Nowaiver by either partywith respect toanybreachor default or of anyright or remedyandnocourseof dealing,
shall bedeemedtoconstituteacontinuingwaiver of anyother breachor default or of anyother right or remedy, unless
suchwaiver beexpressed in writing andsigned by theparty tobebound.
17.2 If any clause, sub-clause or other provision of the Contract is invalid or unenforceable, this shall not affect the
validity of the remainder of the Contract. Should one of the clauses be invalid or unenforceable, the parties obligate
themselves to replacethe invalid or unenforceable clauseby such aclausewhich comes closest to the intended eco­
nomicpurposeof theinvalid clause.
17.3 Buyer shall not beentitled toassign its rights or obligations hereunder without theprior written consent of Seller.
17.4 Seller enters into theContract as principal. Buyer agrees tolookonly toSeller for dueperformanceof theContract.
17.5 GOODSANDSERVICES PROVIDEDHEREUNDERARE NOT SOLDORINTENDEDFORUSE INANYNUCLEARORNUCLE­
ARRELATEDAPPLICATIONS. Buyer (i) accepts Goods andServices in accordancewith theforegoingrestriction, (ii) agrees
to communicate such restriction in writing to any and all subsequent purchasers or users and (iii) agrees to defend,
indemnifyandhold harmless Seller andSeller's Affiliates fromanyandall claims, losses, liabilities, suits, judgements and
damages, including incidental and consequential damages, arising from use of Goods and Services in any nuclear or
nuclear related applications, whether thecauseof action bebased in tort, contract or otherwise, including allegations
that theSeller's liability is basedon negligenceor strict liability.
17.6 The Contract shall in all respects be construed in accordancewith the laws of the Federal Republic of Germany
excluding, however, any effect on such laws of the 1980Vienna Convention on Contracts for the International Sale of
Goods, andtothefullest extent permitted bylaw, shall bewithout regardtoanyconflict of laws or rules which might ap­
ply thelaws of anyother jurisdiction. All disputes arising out of theContract shall besubject totheexclusivejurisdiction
of theBerlin courts. However, Seller is entitled tosueBuyer in thecourt of Buyer's residenceaswell.
17.7 The headings tothe Clauses andparagraphs of the Contract arefor guidanceonly andshall not affect the inter­
pretation thereof.
17.8 All notices andclaims in connectionwith theContract must bein writing.
Em erson Clim ate Technologies Gm bH
Em erson Retail Services Europe Gm bH
Registered O ffice:
A m tsg erich t Berlin-C harlottenb urg , HRB 877B
Registered O ffice:
A m tsg erich t Berlin-C harlottenburg, HRB 81171
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http://holodko.ru/
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BENELUX
Deltakade 7
NL-5928 PX Venlo
Tel.
+31 77 324 02 34
Fax
+31 77 324 02 35
[email protected]
UK & IRELAND
Unit 17, Theale Lakes Business Park
Reading, Berks RG7 4GB
Tel:
+44 1189 83 80 00
Fax:
+44 1189 83 80 01
[email protected]
BALKAN
Selska cesta 93
HR-10 000 Zagreb
Tel.
+385 1 560 38 75
Fax
+385 1 560 38 79
[email protected]
GERMANY, AUSTRIA & SWITZERLAND
Senefelder Str. 3
DE-63477 Maintal
Tel.
+49 6109 605 90
Fax
+49 6109 60 59 40
[email protected]
SWEDEN, DENMARK, NORWAY & FINLAND
Pascalstr. 65
DE-52076 Aachen
Tel.
+49 2408 929 0
Fax
+49 2408 92 95 28
[email protected]
CZECH REPUBLIC
Hajkova 2747/22
CZ-13000 Prague 3
Tel
+420 271 035 628
Fax
+420 271 035 655
[email protected]
FRANCE, GREECE & MAGHREB
8, Allee du Moulin Berger
FR-69134 Ecully Cedex
Tel.
+33 4 78 66 85 70
Fax
+33 4 78 66 85 71
[email protected]
EASTERN EUROPE & TURKEY
Pascalstr. 65
DE-52076 Aachen
Tel.
+49 2408 929 0
Fax
+49 2408 929 525
[email protected]
UKRAINE
Turgenevskaya Str. 15, office 33
UA-01054, Kiev
Tel.
+38 - 44 - 4 92 99 24
Fax.
+38 - 44 - 4 92 99 28
[email protected]
ITALY
Via Ramazzotti, 26
IT-21047 Saronno (VA)
Tel.
+39 02 96 17 81
Fax
+39 02 96 17 88 88
[email protected]
POLAND
Szturmowa 2
PL-02678 Warsaw
Tel.
+48 22 458 92 05
Fax
+48 22 458 92 55
[email protected]
ROMANIA
Tel.
+40 - 374 -13 23 50
Fax
+40 - 374 -13 28 11
[email protected]
SPAIN & PORTUGAL
C/ LLull, 321 (Edifici CINC)
e S-08019 Barcelona
Tel.
+34 93 412 37 52
Fax
+34 93 412 42 15
[email protected]
RUSSIA & CIS
Letnikovskaya 10, Bld. 2, floor 5
RU-115114 Moscow
Tel.
+7 495 981 98 11
Fax
+7 495 981 98 16
[email protected]
MIDDLE EAST & AFRICA
PO Box 26382
Jebel Ali Free Zone - South, Dubai - UAE
Tel.
+971 4 811 81 00
Fax
+971 4 886 54 65
[email protected]
For more details, see www.emersonclimate.eu
Emerson Climate Technologies - European Headquarters - Pascalstrasse 65 - 52076 Aachen, Germany
Tel. +49 (0) 2408 929 0 - Fax: +49 (0) 2408 929 570 - Internet: www.emersonclimate.eu
The Emerson ClimateTechnologies logois atrademark andservicemark of Emerson ElectricCo. Emerson ClimateTechnologies Inc. is asubsidiary of Emerson ElectricCo.
Copelandis aregistered trademarkandCopelandScroll is atrademarkof Emerson ClimateTechnologies Inc.. All other trademarks areproperty of their respectiveowners.
Emerson ClimateTechnologies GmbH shall not beliablefor errors in thestated capacities, dimensions, etc., aswell as typographicerrors. Products, specifications, designs
andtechnical datacontainedin this document aresubject to modification byus without prior notice. Illustrations arenot binding.
© 2012 Emerson ClimateTechnologies, Inc.
http://holodko.ru/
E M E R S O N .
C O N S ID E R
IT
EMERSON
Climate Technologies
S O L V E D
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