Mitsubishi Electric | XL21 series | High Performance Air to Water Heat Pump

R410A
High Performance Air to Water Heat Pump
Air to Water Heat Pump
50Hz
11HM01E-A-0
Air to Water Heat Pump
Mitsubishi Heavy Industries has integration of high technology in a variety of areas and
provides comprehensive solutions for realization of a low-carbon society.
Air to water heat pump is one of our products supported by our unrivaled technology to
realize utmost energy savings, safety and assurance.
Our realized contributions to global environment
Our contributions to a low-carbon society
encompass the entire product life cycle
from efficient production, effective use of
energy, effectual utilization of inexhaustible
clean energy and recycling. This is a part of
our accomplishments through unique
technological features.
Mitsubishi Heavy Industries provides total solutions to
reduce environmental load in entire social infrastructure.
Assured integration of high technology in a variety of areas
Our product portfolio covering entire social
infrastructure is supported by our proven
high technology. We integrate proprietary
technologies which have already
demonstrated its significant capabilities in
their own fields to augment its effects in our
total solutions. Our air to water heat pump is
an innovative system developed by such
integration of high technology.
Our assured integration of high technology
is the mainstay of low-carbon society.
Heat pump technology for low-carbon society
Air to water heat pump is a revolutionary
energy recycling system which reduces
environmental load by reusing heat
energy produced in daily life.
This first-rate energy saving system
has been developed by our
exceptional technology.
Saving running cost with use of heat pump technology
Typically less than 1kW of output heat energy can be produced by conventional
oil or gas boilers. Heat pump technology is capable of producing up to 4.44kW
of heat energy from 1kW of energy input making the system 4.44 times more
efficient than traditional means.
High pressure
4.08~4.44kW
of heat
Heat
Heat
Heat
2
1kW
Heat
Heat
Heat
Product Information
Water heat exchanger
+ Heat storage unit
Radiator or
Fan coil
Floor
Heating
Sanitary
Cooling
Refrigerant
Water pipe (for Air Conditioning)
Water pipe (for Sanitary)
Our Air to Water Heat Pump is a complete modern
system for heating, cooling and producing hot sanitary
water for houses, offering effective energy saving and
reducing carbon dioxide emission. Our product is safe
and economical with integrated hot water heater,
immersion heater, circulating pump and climate
system within the indoor unit.
Heating
Sanitary
Air - water heat circulation
system is an excellent
energy recycling system.
The heat energy is retrieved from the outdoor air
through the outdoor unit, and is transferred to the
indoor unit by the medium of refrigerant circulated in
closed piping system.
This eliminates the needs of bore holes and coils in
the ground for conventional systems.
Heat pump technology system
Our Air to Water Heat Pump is a system that can offer heating, hot
sanitary water and cooling. The mechanism of heat pump during heating
can be simplified as follows.
Refrigerant
Heat energy
from the
outdoor air
Hot water
(58~65°C)
Compressor
Heat exchanger
(Outdoor)
Heat exchanger
(Indoor)
Water
supply
Expansion
valve
Circulation
pump
1. The outdoor unit retrieves the heat energy from the outdoor air (heat
source) and increases its temperature through compressing process
by compressor.
2. The hot refrigerant (now in gas state) is routed to Indoor unit.
3. The refrigerant releases the heating energy to water for further
distribution in the climate system.
4. The refrigerant (now in liquid state) is routed back to the outdoor unit
and this process is repeated.
By reversing the entire process for cooling, the refrigerant in this
system retrieves the heat energy from water and releases it to outdoor
air in accordance with heat pump theory.
the indoor unit determines when the outdoor unit is to run or not to run
by using the collated data from the temperature sensor. In the event of
extra heat demands, the indoor unit can utilize additional heat in the
form of the immersion heater, or any connected external addition.
3
3HP, 3.5HP
Outdoor unit
Indoor unit
Features
• Energy saving
Optimum annual operation costs thanks to the inverter driven compressor.
The speed of the compressor is controlled according to the demand resuIting in the
industries highest COP level of 4.08~4.44* in heating operation.
*
( : condition 2 on page 5)
FDCW71VNX-A
• Integrated design
The compact size (600 x 650mm footprint) has been achieved by intergrating the
hot water tank for sanitary water use together with the water heat exchanger within
the indoor unit (HMA100V1/V2 and HMA100VM1 only). Electrical and piping work
is simpler due to the intergrated design.
• 65˚C hot water
FDCW100VNX-A
HMA100V1/V2
HMA100VM1
Max temperature flow line is 65˚C with the use of an auxiliary electric heater (as
standard) used for hot water back-up and to cope with
irregular and excessive hot water demand.
(58°C with only use of compressor)
• External heating
6HP
Possible to connect external heating
sources including solar collectors. Refer to
our installation manual for details.
Outdoor unit
Indoor unit
(except HT30)
• Drain pan heater
Condensate from the heat pump during heating
Combination with
solar collectors
operation (especially in cold regions) accumulates
and freezes within the outdoor unit resulting in insufficient
heating capacity or damage to the heat exchanger. Our units have a drain pan
heater included as standard preventing condensate from freezing and protecting
the heat exchanger in cold conditions.
FDCW140VNX-A
HMS140V1/V2
• Sterilization
Various sterilization temperature settings according to the requirements of each
country.
Tank unit
• Water supply pressure
Water supply pressure at showers and faucets to second and third floors will not
drop.
By utilizing the direct incoming water supply and not using water from a storage
tank water pressure and quality is maintained as well as the reduction in risk of
legionella bacteria generation.
HT30
(If a third party water storage tank is used there will be a reduction of water
pressure at showers and faucets when they are used at the same time.)
• Silent mode
Silent mode function can reduce the
sound level from the outdoor unit in the
heating mode by reducing compressor
and fan speed. ON/OFF timer operation
can be set with a remote control.
MT300
4
MT500
Hot water
Water supply
Specifications
3HP, 3.5HP, 6HP
Indoor unit
Outdoor unit
Power source
Heating
Nominal capacity
COP
Cooling
Nominal capacity
EER
condition 1
condition 2
condition 1
condition 2
condition 1
condition 2
condition 1
condition 2
12liter/min
16liter/min
kW
kW
kW
kW
liter
liter
Operation range
heating
(Ambient temperature)
cooling
Operation range
heating
(Water temperature)
cooling
Max refrigerant pipe length
m
Max height difference between IU and OU
m
Height
mm
Width
mm
Depth
mm
Weight (without water in the system)
kg
Immersion heater
Volume total
liter
Volume hot water coil
liter
Volume expansion vessel
liter
Dimensions, climate system pipe
mm
Dimensions, hot water pipe
mm
Water pipe connections
Height
mm
mm
Width
mm
Depth
kg
Weight
dB(A)
Sound Power level*1
1
dB(A)
Sound Power level(Silent mode)*
dB(A)
Sound Pressure level*2
Sound Pressure level(Silent mode)*2 dB(A)
m3/min
Airflow
W
Drain pan heater
Type of compressor
Ref control
Refrigerant volume
kg (m)
(pipe length without additional charge)
mm(inches)
Dimensions, refrigerant pipe
Ref pipe connections
Outdoor Unit
Indoor Unit
Tapping capacity
3.5HP
HMA100V1
HMA100VM1
HMA100V2
FDCW100VNX-A
1 phase 230V 50Hz
3 phase 230V 50Hz
3 phase 400V 50Hz
9.0 (3.5-12.0)
9.2 (3.5-10.5)
3.60
4.44
8.0 (3.0-9.0)
11.0 (3.3-12.0)
2.81
3.62
270
200
-20-43
15-43
25-58 (65 with immersion heater)
7-25
30
7
1760 (+20-50mm, adjustable feet)
600
650
140
9kW 4steps
+ 5%
270 14
22
22
Compression fittings
750
845
880 (+88 with valve cover)
970
340
370 (+80 with foot rail)
60
74
64
64.5
61
62
48
50
45
47
50
73
100
120
Rotary
EEV
3HP
HMA100V1
HMA100VM1
HMA100V2
FDCW71VNX-A
1 phase 230V 50Hz
3 phase 230V 50Hz
3 phase 400V 50Hz
8.0 (3.0-8.0)
8.3 (2.0-8.3)
3.33
4.08
7.1 (2.0-7.1)
10.7 (2.7-10.7)
2.68
3.35
270
200
2.9 (15)
2.55 (15)
6HP
HMS140V1
HMS140V2
FDCW140VNX-A
1 phase 230V 50Hz
3 phase 400V 50Hz
16.5 (5.8-16.5)
16.5 (4.2-17.2)
3.31
4.20
16.5 (5.2-16.5)
3.59
-
18-25
1004
513
360
60
18
28
1300
970
370 (+80 with foot rail)
105
71
68
54
51
100
120
4.0 (15)
Gas pipe : OD 15.88 (5/8"), Liquid pipe : OD 9.52 (3/8")
Flare
Number in the end of model name in indoor unit (e.g. HMA100V1 or V2) shows available languaaes in the software.
1 : English, French, Italian, German, Czech, Swedish, Danish, Norwegian, Finnish, Dutch
2 : English, Latvian, Estonian, Lithuanian, Polish, Spanish, Portuguese, Turkish, Hungarian, Slovenian
Tank Unit (for HMS140V1/HMS140V2 only)
Model
Power source
Volume
Volume hot water coil
12liter/min
Tapping capacity
16liter/min
Immersion heater
Height
Width
Depth
Weight
Dimensions, climate system pipe
Dimensions, hot water pipe
HT30
liter
liter
liter
liter
kW
mm
mm
mm
kg
mm(inch)
mm(inch)
30
360
590
360
24
MT300
1 phase 230V / 3 phase 400V 50Hz
300
14
320
230
9kW 4steps
1880 (+20~45mm)
600
600
110
28
28
MT500
480
21
960
560
1695 (+20~55mm)
760
876
130
Test conditions
Heating
Cooling
condition 1
condition 2
condition 1
condition 2
Tapping
*1 : Test condition for sound power level
Temperature condition : Heating condition 2
Water Temperature
Ambient Temperature
45°C out / 40°C in
7°C DB / 6°C WB
35°C out / 30°C in
7°C out / 12°C in
35°C DB
18°C out / 23°C in
40°C out / 15°C in
7°C DB / 6°C WB
*2 : Test condition for sound pressure level
Temperature condition : Heating condition 2
MIC position : 1m away in front of outdoor unit at the height of 1m
5
Dimensions
Indoor unit
3HP, 3.5HP
185
6HP
(42)
360
XL4
XL2
XL1
XL13
XL15
XL14
1100
XL3
1004
645
30
60
40
32 32
55 95 65 52
511
453
387
Mark
Item
3HP/3.5HP 6HP
XL1 Climate system supply 22mm 28mm
1760
257
82
60
35
148
124
90
86
46
33
350
XL8
337
XL9
127
XL2 XL22
XL14 XL1
XL13
XL21
22mm
XL3 Cold water
22mm
XL4 Hot water
28mm
-----
22mm
-----
XL13 Liquid line refrigerant
3/8"
3/8"
XL14 Gas line refrigerant
XL21 Tank circuit supply
5/8"
-----
28mm
XL22 Tank circuit return
-----
28mm
5/8"
550
500
Tank for indoor unit (6HP)
HT30
XL24
XL2 Climate system return
MT500
XL23
Ø760
360
210
360
876
590
XL4
600
XL9
250
Item
Mark
XL3 Cold water
VIEW A
6
A
20~45
XL23 XL24
XL3
XL4
QM1
(adjustable)
100
308
50 50 50
HT30
-----
MT300
MT500
G1 ext.(1") G1 ext.(1")
XL4 Hot water
-----
G1 ext.(1") G1 ext.(1")
XL8 External heat source in
-----
R1 int
XL9 External heat source out
-----
R1 int
G1 int
G1 int
XL23 Circulation supply
G1 ext.(1") G1 ext.(1")
28mm
XL24 Circulation return
G1 ext.(1") G1 ext.(1")
28mm
397
259
20-55
1880
Ø668
326
657
XL9
XL23
XL8
688
1008
XL3
1122
1427
XL8
1695
XL24
600
MT300
Outdoor unit
3HP
223
3.5HP
310
15
2.5
R7
32
B
50
B
30
110
55
C
30
48.5
50
750
10
110
C
A
F
F
195
A
279
845
Terminal block
242
88
880
195
150
580
100
B
19
61
27
D
150
51
340
40
Terminal block
61
36
418
A
380
47.5
E
60
50
27
24
970
103.5
A
C
52
15
50
E
25
165.5
190
200
60
15
15
40
370
580
76
F
388
D
50
262
70
C
150
20
40
38
103
55
20
410
60
(Ø20 x 3)
C
6HP
41
9
VIEW A
67
B
51
46
A
46
113
Terminal block
B
A
1300
A
F
50
970
E
110
624
195
15
C
27
50
200
580
15
60
B
Service valve connection (liquid side)
ø9.52(3/8") (Flare)
C
Pipe/cable draw-out hole
D
Drain discharge hole
ø20x3places
E
Anchor bolt hole
M10x4places
F
Cable draw-out port
ø30.3x3places
15
Minimum installation space
3.5HP/6HP
1
2
3
Open Open 500
300
250 Open
100
150
100
250
250
250
Examples of
installation
Dimensions
L1
L2
L3
L4
L3
70
L2
Intake
Intake
L1
50
41
9
67
F
VIEW A
outlet
L3
L4
Service
space
1
2
3
Open Open 500
300
5
Open
150
300
150
5
5
5
D
C
ø30(front)
ø45(side)
ø50(back)
Notes:
(1) It must not be surrounded by walls on the four sides.
(2) The unit must be fixed with anchor bolts. An anchor bolt must not protrude more than
15mm.
(3) Where the unit is subject to strong winds, lay it in such a direction that the blower outlet
faces perpendicularly to the dominant wind direction.
(4) Leave 1m or more space above the unit.
(5) A wall in front of the blower outlet must not exceed the units height.
(6) The model name label is attached on the lower right corner of the front panel.
L1
L2
L3
L4
150
325
ø15.88(5/8") (Flare)
Dimensions
103
38
370
40
55
410
20
60
262
Service valve connection (gas side)
Examples of
installation
C
6HP
Item
A
3HP
76
40
20
190
50
50
55
C
50
10
195
110
612
F
3HP / 3.5HP
Mark
Intake
L2
L4
Intake
L1
outlet
Service
space
7
Accessories
VCC22 for HMA100
VCC28 for HMS140
LEK
MH-RG 10
Reversing valve for changing
operation of cooling and heating
Part No. MCD291A002(VCC22)
MCD291A005(VCC28)
Room sensor
Part No. MCD291A001
LEK
IP 4 4
TF 110
Class H
Ma x. 1 0 b a r
K
LE
HE J S AN
DK
25 - 60
ACK22 for VCC22/ESV22
ACK28 for VCC28/ESV28
P,(W)
1m(A)
45
0.20
65
0.30
90
0.40
Typ e UPS
230V50Hz
2.5uF
LEK
130
GRUNDFOS
P /N:5 9 5 2 6 4 4 7
P C ;0 0 1 7 NIB
ESV22 for HMA100
ESV28 for HMS140
K
LE
LEK
Extra mixing valve group for adjusting
temperature in heating operation
Part No. MCD291A003(ESV22)
MCD291A006(ESV28)
LEK
Cable kit
Part No. MCD291A004(ACK22)
MCD291A007(ACK28)
Before starting use
Before use
Installation
In order to get the greatest benefit from Our Air to Water Heat Pump, read
thoroughly the User’s manual.
Installation must be carried out in accordance with current norms and
directives.
Current regulations require the inspection of installation before
commissioning and the inspection must be carried out by suitable
qualified personnel and should be documented.
Improper installation will lead to water leakage, electric shocks, fires and
other serious problems.
Make sure that the indoor unit and the outdoor unit are stable in
installation and fixed on stable base.
Places
Do not install in places where combustible gas could leak or where there are
sparks.
Keep away from places where combustible gas could be generated, flow or
accumulate, or locations containing carbon fibers otherwise there is a
danger of fire.
Mitsubishi Heavy Industries, Ltd.
Air-Conditioning & Refrigeration Systems Headquarters
16-5, Konan 2-chome, Minato-ku, Tokyo, 108-8215 Japan
http://www.mhi.co.jp
ISO9001
ISO14001
Our Air Conditioning &
Refrigeration Systems
Headquarters is an ISO9001
approved factory for
residential air conditioners
and commercial-use air
conditioners (including heat
pumps).
Our Air Conditioning &
Refrigeration Systems
Headquarters has been
assessed and found to
comply with the
BIWAJIMA PLANT
requirements of
Mitsubishi Heavy Industries, Ltd.
Air-conditioning & Refrigeration Systems Headquarters
ISO14001.
HB91-11HM01E-A-0
BIWAJIMA PLANT
Mitsubishi Heavy Industries, Ltd.
Air-conditioning & Refrigeration Systems Headquarters
Certified ISO 9001
Certificate number : JQA-0709
July 2011(150)R
MITSUBISHI HEAVY INDUSTRIESMAHAJAK AIR CONDITIONERS CO., LTD.
Certified ISO 9001
Certificate Number : 04100 1998 0813
Certified ISO 14001
Certificate number : JQA-EM0256
ISO 14001
Certificate 04104 1998 0813 E5
MITSUBISHI HEAVY INDUSTRIESMAHAJAK AIR CONDITIONERS CO.,LTD.
Certificate Number : 04104 1998 0813 E5
Because of our policy of continuous improvement, we reserve right to make changes in all specifications without notice.
Printed in Japan
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