Harbor Freight Tools R-410A User's Manual

Geo-Trio™ High Efficiency Geothermal/Water Source
Step-Capacity Heat Pump — R-410A
Ground Water Application: Water Temp 40° to 100°
Ground Loop Application: Temp Range 25° to 110°
The Bard Geo-Trio™ Geothermal/Water Source
Heat Pump delivers economical year-round
comfort by utilizing nature’s most abundant and
efficient solar energy collector – the earth. The
Geo-Trio™ Series heat pumps are designed for
low water flow rates and offer cooling efficiencies
up to 29.1 EER and heating efficiencies up to 4.8
COP on ground water, and cooling efficiencies up
to 24.9 EER and heating efficiencies up to 4.4
COP on ground loop.
TYPICAL INSTALLATION APPLICATIONS
Compressor, Blower and A Coil Sections stack
vertically for upflow and counterflow
installations. Blower and A Coil Sections can
be remotely mounted in attics or crawl spaces
providing horizontal right or left opportunities.
All units are shipped prewired for fast, easy
installation in residential or commercial buildings.
Engineered Features
Steel Cabinet:
Galvanized 20 gauge zinc coated steel
cabinet with baked-on, textured enamel
which allows it to withstand 1000 hours of
salt spray exposure.
Multi-Capacity Two-Stage:
Simple thermostatic control seamlessly
stages the compressor and indoor airflow
rate between full and part load capacity
operation without cycling the compressor.
This helps to maximize comfort, humidity
control, energy efficiency and overall
reduction in compressor cycling for
improved system life.
Step Capacity Compressor:
Copeland step-capacity (2-stage) scroll
compressors are designed for increased
efficiency, quieter operation and improved
reliability for longer life.
R-410A Refrigerant:
Designed with R-410A (HFC) non-ozone
depleting refrigerant in compliance with the
Montreal protocol and 2010 EPA requirements.
Liquid Line Drier:
Protects system against moisture.
Thermostatic Expansion Valve:
For wide range refrigerant control
(2-way operation).
High Pressure Switch:
Provides additional protection for the system.
Low Pressure Switch:
Two switches provided. Factory wired
switch is for ground water applications,
alternate switch is field connected for
ground loop applications.
Control Panel:
Mid-level for easy access. Blower section
includes transformer and blower control.
High Efficiency Coaxial Water Coil in
either Copper or Cupronickel
Water to refrigerant coil is completely
insulated to prevent frost build-up at low
temperature operation.
Indoor Air Coil:
Grooved copper tubing and enhanced
louvered aluminum fin for maximum heat
transfer and energy efficiency.
Coil coating is black E-Coat electrostatic
coating on complete coil.
Cased Indoor Air Coils for Fossil Fuel
(Dual Fuel):
Insulated cased coils to fit standard 17.5"
and 21" width furnaces.
Filter Rack (Optional):
Accessory kit with 1" filter (reversible for left or
right side access for upflow installations).
Accessory Electric Duct Heater Option:
5, 10, 15 and 20KW nominal size. Field
installed external to unit. For upflow and
horizontal duct installation only.
Optional Accessories:
Room thermostat - Water accessory kit Waterflow controls.
Lockout Circuit:
Built-in lockout circuit resets from the room
thermostat. Provides commercial quality
protection to the compressor.
Domestic Hot Water Heat Exchanger System:
Double wall vented heat exchanger and pump
with ECM motor and operating controls,
factory installed on all 1-phase models.
Variable Speed ECM Blower Motor:
• High Efficiency
• Soft starting - low noise on start up
• Continuous fan - will operate at 50%
of rated Stage 2 airflow
Hot Water Heating Performance and
Operating Cost Savings: The actual amount
of hot water (gallons of hot water per day)
generated and resultant operating cost
savings can vary greatly because of several
factors: heat pump system size, hours per day
of operation of the heat pump, mode of
operation (cooling vs. heating), hot water
usage patterns, heat pump water supply
system (ground water, ground or pond loop,
etc.), and climatic conditions. The gallons of
hot water per day are dependent upon the
above variables, and in general can range up
to 125 gallons per day for a nominal 24,000
BTU heat pump system, and up to 375
gallons per day for a nominal 60,000 BTU
heat pump system in the cooling mode,
offering a 100% energy savings over
conventional electric water heaters. During
the winter months when the heat pump is
operating in the heating mode, less hot water
is available, but at the same time, the electric
water heater will consume less electricity.
Mild Weather Operation:
Part Load Cooling Operation will operate at
20% reduced airflow for the first 5 minutes
of operation. This results in 32% increased
applied moisture removal during this 5minute period, and helps humidity control
during short-run conditions. This is
seamlessly controlled internal of the unit
controls with no required user intervention.
Water Connections:
All water connections on outside of
cabinet. Brass full swivel double o-ring
connection with 1" full flow ports.
Refrigerant Connections:
Special self-sealing fittings are used with 3'
line set for stacked upflow or downflow
applications, and line sets up to 50'
available for horizontal or dual-fuel
applications.
Service Access Ports:
Permits service pressure check of
discharge and suction pressures.
Form No.
Supersedes
Page
S3423-1112
S3423-912
1 of 28
Geo-Trio™ GT*-Series Geothermal / Water Source Heat Pump Nomenclature
"A" Coil Section
GT
A
3600
Geo-Trio
UD
1
3600 (3 Ton)
4860 (4 & 5 Ton)
"A" = Coil Section
A
Revision
Level
Series
A
A = Black ECoated Coils
Option
Blower Section
GT
B
1
Geo-Trio
–
A
Revision
Level
B = Blower
Section
A = 230 Volt 1-Phase
Option
Compressor Section
GT
C
36
S
Geo-Trio
1
–
A
S = Step Capacity
D
C
D = Desuperheater
Option
Nominal Capacity
C = Compressor
Section
Revision
Level
36 = 36K
48 = 48K
60 = 60K
A = 230 Volt 1-Phase
X
X = Future
Use
C = Copper Coil
N = Cupronickel Coil
Fossil Fuel “A” Coil Section (For Use on Hi-Boy, Lo-Boy & Counterflow Gas or Oil Furnaces in place of GTA Coil)
GT
ADP
–
3642
Geo-Trio
A
–
B = 17.50" Wide Furnace
C = 21.00" Wide Furnace
3642 (3 Ton)
4860 (4 & 5 Ton)
= Coil Manufactuer
B
ADP = Advanced Distributor Products
Cross-Reference Table
Compressor
Unit Section
Bard
Model No.
ADP Part No.
GTC36S1
GTADP-3642-B
GTADP-3642-C
HE37942D175B2505AW
HE37942D210B2505AW
GTC48S1
GTC60S1
GTADP-4860-C
HE49948D210B2705AW
Shipping Weights - GT Series
"A" Coil Section
"B" Blower Section
"C" Compressor Section
Form No.
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Page
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S3423-912
2 of 28
Shipping Weights - Fossil Fuel Coils
GTA3600UD1AA
GTA4860UD1AA
93 lbs.
102 lbs.
GTB1-A
95 lbs.
GTC36S1
GTC48S1
GTC60S1
248 lbs.
260 lbs.
293 lbs.
GTADP-3642-B
GTADP-3642-C
GTADP-4860-C
55 lbs.
59 lbs.
66 lbs.
Specifications (Compressor & Blower Sections Stacked Together)
MODEL
GTC36S1
Electrical Rating (60HZ/1PH)
GTC48S1
GTC60S1
230/208-60-1
Operating Voltage Range
253-197 VAC
Minimum Circuit Ampacity
26.0
34.0
38.0
+Field Wire Size
#8
#6
#4
Ground Wire Size
#10
#8
#6
++Delay Fuse or Circuit Breaker Max.
40
50
60
COMPRESSOR
Volts
230/208-60-1
Rated Load Amps (230/208)
Branch Circuit Selection Current
Locked Rotor Amps (230/208)
11.2 / 13.0
16.4 / 19.6
16.7
21.2
19.2 / 23.6
25.6
82 / 82
96 / 96
118 / 118
BLOWER MOTOR
Horsepower (ECM Motor)
3/4 Variable Speed
Volts
230/208-60-1
Motor Amps (Stage #2 @ Rated CFM)
3.4
4.3
4.4
FLOW CENTER (Based on DORFC-2)
Volts
230/208-60-1
Amps
2.14
2.14
2.14
DESUPERHEATER PUMP MOTOR
Volts
230/208-60-1
Amps
0.15
+75°C copper wire
0.15
0.15
++ HACR type circuit breaker
Specifications (for Blower Section Only when Remote Mounted from Compressor)
BLOWER SECTION (If Remotely Mounted)
Model
GTB1-A
HP/Type
3/4 Variable Speed
Motor Amps (RLA)
6.1
Minimum Circuit Ampacity
8
+Field Wire Size
14
++Delay Fuse Max. or Circuit Breaker
15
NOTE: This applies only if blower section is remote mounted
from compressor section. When blower section is coupled
directly to compressor section, the blower is powered from the
compressor section.
+75°C copper wire
++ HACR type circuit breaker
Indoor Blower Performance (Rated CFM) 1
1
2
3
4
5
6
7
3
MAX
ESP
4
Continuous
Airflow
5
Mild Climate
6
Operation in Part Part Load Airflow Full Load Airflow
Load Cooling
MODEL
2
Rated
ESP
7
Electric Heat
Airflow
GTC36S1
0.15
0.60
600
700
850
1200
1300
GTC48S1
0.20
0.60
750
875
1150
1500
1600
GTC60S1
0.20
0.60
900
1050
1300
1800
1800
Motor will automatically step through the various airflows with thermostatic control
ESP = External Static Pressure (inches of water)
Maximum allowable duct static
Continuous airflow is the CFM being circulated with manual fan operation without any additional function occurring.
Will occur automatically for first 5 minutes of Part Load Cooling Operation.
Will occur automatically after five minutes of Part Load Cooling Operation.
Will occur automatically with control signal input.
NOTE: All values can be changed + 10% via the + adjustment dip switches on the tap select control inclusive in the GTB1-A
Blower Section (see Airflow Corrections for performance impact).
Airflow Corrections
% of
Rated
Airflow
Total
Sensible Pow er Heat of
Total Pow er Heat of
Capacity Capacity Input Rejection Capacity Input Absorption
(MBtuH) (MBtuH) (KW) (MBtuH) (MBtuH) (KW)
(MBtuH)
90%
0.985
0.844
0.978
0.983
0.988
1.030
0.978
RATED
1.000
1.000
1.000
1.000
1.000
1.000
1.000
110%
1.010
1.050
1.025
1.013
1.010
0.988
1.015
Form No.
Supersedes
Page
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S3423-912
3 of 28
Ratings Based on Approved Compressor, GTA-Coil & Blower Combinations
Gro und Lo o p H eat P ump — Tested & C erti fi ed to ISO 13256-1:1998
MOD EL
System
C apacity
Mo dulatio n
C o o ling B rine
Full Lo ad 77°F/P art Lo ad 68°F
Fluid Flo w
R ate GP M
H eating B rine
Full Lo ad 32°F/P art Lo ad 41°F
Airflo w C FM
C apacity
B TU H
EER
B TU /W
C apacity
B TU H
C OP
GTC 36S1
Full
Part
8
1200
850
38,800
28,000
17.5
24.9
28,800
22,800
3.90
4.40
GTC 48S1
Full
Part
12
1500
1150
51,000
38,000
16.0
21.5
37,500
31,000
3.60
4.05
GTC 60S1
Full
Part
15
1800
1300
61,500
47,500
15.5
20.7
49,000
39,500
3.50
3.90
Gro und Water H eat P ump — Tested & C erti fi ed to ISO 13256-1:1998
MOD EL
System
C apacity
Mo dulatio n
C o o ling — EWT 59°F
Fluid Flo w
R ate GP M
H eating — EWT 50°F
Airflo w C FM
C apacity
B TU H
EER
B TU /W
C apacity
B TU H
C OP
GTC 36S1
Full
Part
6
1200
850
42,000
29,600
21.8
29.4
34,000
25,000
4.50
4.80
GTC 48S1
Full
Part
7
1500
1150
54,000
40,000
19.0
24.5
46,000
34,000
4.20
4.45
GTC 60S1
Full
Part
9
1800
1300
63,500
49,000
18.8
24.7
58,000
42,000
4.05
4.25
Approved Compressor, GTA-Coil & Blower Section Combinations
Compressor Unit Section
Coil Section
GTC36S1
GTA3600UD1-A, GTA3600UD1AA
GTC48S1
Blow er Section
GTB1-A
GTA4860UD1-A, GTA4860UD1AA
GTC60S1
Ratings Based on Approved Compressor & GTA-Coil Only
Gro und Lo o p H eat P ump — Tested & C erti fi ed to ISO 13256-1:1998
MOD EL
System
C apacity
Mo dulatio n
C o o ling B rine
Full Lo ad 77°F/P art Lo ad 68°F
Fluid Flo w
R ate GP M
H eating B rine
Full Lo ad 32°F/P art Lo ad 41°F
Airflo w C FM
C apacity
B TU H
EER
B TU /W
C apacity
B TU H
C OP
GTC 36S1
Full
Part
8
1200
850
39,000
27,800
18.2
25.0
27,600
22,200
3.90
4.30
GTC 48S1
Full
Part
12
1500
1150
51,000
38,000
16.6
21.6
36,400
30,400
3.60
3.95
GTC 60S1
Full
Part
15
1800
1300
62,000
48,000
16.4
23.2
47,000
37,500
3.40
3.90
Gro und Water H eat P ump — Tested & C erti fi ed to ISO 13256-1:1998
MOD EL
System
C apacity
Mo dulatio n
C o o ling — EWT 59°F
Fluid Flo w
R ate GP M
H eating — EWT 50°F
Airflo w C FM
C apacity
B TU H
EER
B TU /W
C apacity
B TU H
C OP
GTC 36S1
Full
Part
6
1200
850
42,000
29,600
22.8
29.5
33,200
24,200
4.45
4.70
GTC 48S1
Full
Part
7
1500
1150
54,500
40,000
20.1
24.7
44,500
33,400
4.20
4.35
GTC 60S1
Full
Part
9
1800
1300
64,000
49,000
20.0
27.4
56,000
40,000
4.10
4.35
ISO Standard 13256-1:1998, “Water to Air and Brine to Air Heat Pumps”, which includes watt allowance for water pumping.
Cooling capacity based on 80.6°F DB, 66.2°F WB entering air temperature. Heating capacity based on 68°F DB entering air temperature.
Approved Compressor and GTA-Coil
C o mpresso r U nit Sectio n
C o il Sectio n
GTC 36S1
GTA3600UD 1-A
GTC 48S1
GTA4860UD 1-A
GTC 60S1
• Intertek ETL Listed to Standard for Safety Heating and Cooling Equipment
ANSI/UL 1995/CSA 22.2 No. 236-05, Third Edition.
PATENT PENDING
See Page 5 for alternate Fossil Fuel A-coil Ratings.
Form No.
Supersedes
Page
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S3423-912
4 of 28
For Use with Gas or Oil Furnace as Dual Fuel Installation
The GTC Compressor Unit Sections are approved for use with certain 3rd Party A-Coils.
See Below.
All Models are Energy Star qualified for Ground Loop and Ground Water Applications.
Ratings Based on Approved Compressor and Fossil Fuel A-Coil
Fossil
F u el
COMPRESSOR A-Coil
Bard No.
SECTION
1
MODEL
Ground Loop Heat Pump — Tested & Certified to ISO 13256-1:1998
Cooling Brine
Full Load 77°F/Part Load 68°F
System
Capacity
Modulation
Fluid Flow
Rate GPM
Heating Brine
Full Load 32°F/Part Load 41°F
Airflow CFM
Capacity
B TU H
EER
BTU/W
Capacity
B TU H
COP
GTC36S1
1
Full
Part
8
1200
850
39,000
28,300
18.20
26.50
27,200
21,400
4.00
4.50
GTC48S1
1
Full
Part
12
1500
1150
48,000
37,000
17.50
22.60
35,000
28,000
3.80
4.00
GTC60S1
1
Full
Part
15
1800
1300
59,000
44,500
16.50
21.00
45,000
37,000
3.60
3.75
Ground Water Heat Pump — Tested & Certified to ISO 13256-1:1998
Cooling — EWT 59°F
System
Capacity
Modulation
MODEL
Fluid Flow
Rate GPM
Heating — EWT 50°F
Airflow CFM
Capacity
B TU H
EER
BTU/W
Capacity
B TU H
COP
GTC36S1
1
Full
Part
6
1200
850
42,000
29,600
23.40
31.80
34,500
24,700
4.90
5.00
GTC48S1
1
Full
Part
7
1500
1150
53,000
37,500
22.00
26.00
44,000
33,000
4.50
4.70
GTC60S1
1
Full
Part
9
1800
1300
63,000
45,500
20.80
25.25
54,000
39,500
4.20
4.30
ISO Standard 13256-1 (Water-to-Air and Brine-to-Air Heat Pumps) includes watt allowance for water pumping.
Cooling capacity based on 80.6F DB, 66.2F WB entering air temperature. Heating capacity based on 68F DB entering air temperature.
1 See Cross-Reference Chart (Page 2) for approved Bard/ADP Coil part numbers.
Charge must be adjusted when using a Fossil Fuel A-Coil. See Installation Manual.
A coil spacer with a minimum height of 6" must be used on all Oil Furnaces to protect the coil drain pan and ensure even airflow across the coil.
GTLS-SK2-1 Line Set Stub Kit is required for installation to make connections to the GTC Compressor Section.
Correction Factors @ Increased Water Flows
Cooling
Rated Flow
Plus
Heating
BtuH
Watts
BtuH
Watts
2 GPM
1.005
0.988
1.006
1.002
3 GPM
1.007
0.984
1.009
1.003
4 GPM
1.008
0.979
1.011
1.003
Loop Pump Modules and Pump Outputs for Ground Loop Installations 1
Pump Models
No. of Pumps
DORFC-1
DORFC-2
WATER FLOW RATE REQUIRED IN GPM
7
9
12
15
16
1
28.5
27.5
25
22.5
22
2
57
55
50
45
44
1 Pump output (feet of head) @ GPM at top of column.
Antifreeze Percentages by Volume for Ground Loop Installations 1
Type
Minimum Temperature for Freez e Protection
10°F (-12.2°C)
15°F (-9.4°C)
20°F (-6.7°C)
25°F (-3.9°C)
Methanol
25%
21%
16%
10%
Ethanol 2
29%
25%
20%
14%
100% USP Food Grade Propylene Glycol
27%
24%
20%
13%
1 Loop antifreeze protection must be determined based on loop design and geographic location.
2 Must not be denatured with any petroleum based product.
Form No.
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Page
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S3423-912
5 of 28
Refrigerant Connections (Self-Sealing Fittings)
Part Number
Description
Line Siz e O.D.
GTLS-SK4-1 Line Set Stub Kit with Two Pair Ends 1
3/8" & 7/8"
GTLS-SK2-1 Line Set Stub Kit with Single Pair Ends 1
3/8" & 7/8"
GTLS-03-1 3' Line Set with Fittings
3/8" & 7/8"
GTLS-15-1 15' Line Set with Fittings
3/8" & 7/8"
GTLS-25-1 25' Line Set with Fittings
3/8" & 7/8"
GTLS-35-1 35' Line Set with Fittings
3/8" & 7/8"
GTLS-50-1 50' Line Set with Fittings
3/8" & 7/8"
1 One pair consists of one each of 3/8" liquid and 7/8"
vapor self-sealing fittings with short section of tube with
90° bend and each has 1/4" service port.
GTLS-SK2-1 (Shown)
Horizontal Drain Pan Kit
GTHZ1
Horizontal Drain Pan Kit for GTA "A-Coil" Sections
Remote Condenser Cover
GTLID
Top Cover for GTC Condensing Sections when Installed as Split-System
Side Filter Rack – For Upflow Installations
FR 23
Fi lter Rack 16x25x1 wi th MERV 2 Fi lter
(Alumi num mesh washable, maxi mum veloci ty 650 FPM)
Coil Spacers for GTADP Fossil Fuel Coils
CSADP2220
Fits Bard Oil Furnaces FLF/FLR075, 085, 100, 110 Models
CSADP2520
Fits Bard Oil Furnaces FLR130, 140 Models
Optional Field Installed Start Kits for 1-Phase Models 1
Unit Models
Field Installed Part Number
GTC36S1-A
SK114
GTC48S1-A
SK111
GTC60S1-A
SK115
1 Start capacitor and potential relay start kit can be used with all -A single phase models only. Increases starting torque 9x.
Do not use if CMC-15 is used.
Optional Field Installed Start Kit for 1-Phase Models 2
Unit Models
Field Installed Part Number
All 1-Phase
CMC-15
2 PTCR start kit can be used with all -A single phase models. Increases starting torque 2-3x.
Do not use if SK111, SK114 or SK115 is used.
Form No.
Supersedes
Page
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S3423-912
6 of 28
Ground Loop Accessories
Heat Pump
Bard Part Number
Model
Required
Quantity
Description
NOTE: Order 1 loop flow center based on required GPM for heat pump and feet of head required for loop:
All
DORFC-1
1
Loop Flow Center with Cabinet, 230V-60Hz-1Ph, 1 pump, 22 Ft. Hd. @ 16 GPM, double o-ring fittings
All
DORFC-2
1
Loop Flow Center with Cabinet, 230V-60Hz-1Ph, 2 pump, 44 Ft. Hd. @ 16 GPM, double o-ring fittings
1
Loop Flow Center Kit containing:
(2) 1" barbed 90° double o-ring elbows with 1/4" FPT ports and 8603-026 pressure/temperature test
plugs (for heat pump connection). See DORB1-90-4HC for reference
(2) 1" barbed straight double o-ring fittings (for loop flow center connection on heat pump side)
See DORB1-S-4HC for reference
(1) 12' section of 1" ID 150 PSI hose
(8) 1" SS hose clamps
All
DORLFCK-1
NOTE: Order 1 of the follow ing for loop-side connections to loop flow center:
All
DORB1-S-4HC
1
(2) 1" barbed straight double o-ring fittings with (4) 1" SS hose clamps
All
DORF125-S
1
(2) 1.25" fusion straight double o-ring fittings
Additional accessory items available:
HK1-25
DORFC-2
E a ch
(1) 25' section of 1" ID 150 PSI hose
Elbow, 1" Hose Barb X Double
O-ring with 1/4" Port and
Pressure/Temperature Test Plugs
1" Hose Barb X
Double O-ring
1-1/4" Socket Fusion X
Double O-ring
DORB1-S-4HC
DORF125-S
DORB1-90-4HC
Ground Loop Service Accessories
Heat Pump
Bard Part Number
Model
Required
Quantity
Description
DORCL1-90
E a ch
(2) 90° double o-ring quick-connect cam-lever male fittings for flush attachment to loop flow center
CLB1-S
E a ch
(2) 1" straight barbed quick-connect cam-lever female fittings to connect to DORCL1-90 fittings above
GGK-1
E a ch
(1) Geo-Gooser w/shut-off valve, 0-100 PSI gauge, garden hose connection, P/T fitting 1/8' probe
DORGHMT
E a ch
(1) Double o-ring x male garden hose adapter fitting for loop flow center (to burp/boost loop)
GGK-1
1" Cam Lever Male X
Double O-ring
DORCL1-90
CLB1-S
Garden Hose Male X O-ring
(single) Adapter
DORGHMT
Form No.
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Page
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S3423-912
7 of 28
Ground Water/Water Loop Accessories
Heat Pump
Bard Part Number
Model
All
Required
Quantity
Description
1
Ground Water Kit containing:
(2) 1" MPT 90° double o-ring elbows with 1/4" FPT ports and 8603-026 pressure/temperature test plugs
(for heat pump connection). See DORMP1-90 for reference
(1) 3/4" FPT 24V brass motorized slow open/close ball valve w/end switch–See 8603-033 for reference.
GWK-1
NOTE: Order correct constant flow valve for rated GPM of heat pump, 1 required per unit
GTC36
CFV-6
1
Constant flow valve, 6 GPM, 3/4" FPT
GTC48
CFV-7
1
Constant flow valve, 7 GPM, 3/4" FPT
GTC60
CFV-9
1
Constant flow valve, 9 GPM, 3/4" FPT
Elbow, 1" MPT X Double
O-ring with 1/4" Port and
Pressure/Temperature Test Plugs
8603-006
8603-033
DORMP1-90
Water Supply Valves
8603-033
Each
3/4" FPT 24V brass slow open/close ball valve with end switch
8603-006
Each
1" FPT 24V PVC solenoid valve with flow control and internal manual bleed lever
Individual Double O-Ring Fitting Packs (Qty 2 per pack)
(2) 1" barbed 90° double o-ring elbows with 1/4" FPT ports, 8603-026 pressure/temperature test plugs,
and (4) SS 1" hose clamps
DORB1-90-4HC
DORB1-S-4HC
(2) 1" barbed straight double o-ring fittings with (4) 1" SS hose clamps
DORMP1-90
(2) 1" MPT 90° double o-ring elbows with 1/4" FPT ports and 8603-026 pressure/temperature test plugs
DORMP1-S
(2) 1" MPT straight double o-ring fittings
DORFP1-S
(2) 1" FPT straight double o-ring fittings
DORS1-S
(2) 1" copper sweat straight double o-ring fittings with 1/4" FPT ports and 8603-026 pressure/temperature test plugs
1" MPT X Double O-ring
1" FPT X Double O-ring
DORMP1-S
DORFP1-S
1" Copper Sweat X Double O-ring with 1/4"
FPT Port & Pressure/Temperature Test Plugs
DORS1-S
Ground Water/Water Loop Service Accessories
All
8603-017
E a ch
Flow Meter, 1-17 GPM, 1" FPT
All
8603-026
E a ch
1/4" pressure/temperature test plug
All
8603-027
E a ch
1/4" FPT gauge adapter w/ 1/8" heavy duty probe
All
8603-028
E a ch
1/4" MPT 0-100 PSI gauge
All
8603-029
E a ch
Pocket thermometer, 1/8" probe, 0 to +220F
8603-017
Form No.
Supersedes
Page
S3423-1112
S3423-912
8 of 28
8603-026
8603-027
8603-028
8603-029
Form No.
Supersedes
Page
S3423-1112
S3423-912
9 of 28
30"
7
27 8 "
Left Side View
Evaporator Opening
GTHZ1
Horizontal
Drain Pan
(Req'd)
19 7/8"
Evaporator
Section
22"
1
28"
1
32"
1
12"
3
4"
3
31 8 "
30"
Blower
Section
8"
5
Front View
1
38 2 "
1
14"
3
1
28 8 "
21"
18 4 "
1
15"
Horiz. Support Bracket
32"
7
31 8 "
5
36 8 "
42 8 "
Low Voltage
Entrance
Main Drain
Outlet
Overflow Drain
Outlet
Refrigerant
Connections
14"
3
High Voltage
Entrance
Low Voltage
Entrance
Top View
MIS-2824 A
Right Side View
1
17 8 "
Blower
Opening
24"
NOTE:
Requires
horizontal
drain pan kit
Model GTHZ-1
Evaporator and Blower in Horizontal Position
(Remote Compressor Section)
Form No.
Supersedes
Page
S3423-1112
S3423-912
10 of 28
Evap. Coil
<
>
Main Drain
Blower in
Alternate Position
Blower Air
Supply
Blower in
Shipped Position
See additional information on Pages 13 & 14.
For horizontal attic or crawl space installations filter arrangement must be field
supplied & should be located in readily accessible location for the user.
Bottom return for upflow and top return for downflow must be field supplied.
Upflow installations can use (1) FR23 (16x25x1) or field supplied equivalent on
either side of the blower section. Use of (2) on both sides is optional.
Air Filter Required on Return Air Side for All I nstallations
Refrigerant
Secondary Drain Connections
Evap. Coil
Horizontal, Right Discharge
Return
Main Drain
Secondary
Drain
Return
Evap. Coil
Cond. Coil
Water In
Desuper.
Water In
Desuper.
Water Out
Cond. Coil
Water Out
Return
Blower Air
Return
Blower in
Shipped Position
Blower Air
Return
NOTE: Requires horizontal
drain pan kit Model GTHZ-1
Refrigerant
Main Drain
Secondary Drain Connections
Supply
Horizontal, Left Discharge
Supply
Return
Counterflow
Position
Refrigerant
Connections
MIS-2826
Model GTLID
Optional Top
Supply
Evap. Coil
Remote Condenser Section
Blower in
Alternate Position
Return
Main Drain
Secondary
Drain
Refrigerant
Connections
Upflow
Position
Blower Air
Form No.
Supersedes
Page
S3423-1112
S3423-912
11 of 28
21"
15 5/8"
23"
65 5/8"
21 5/8"
3/4"
LEFT SIDE
24 9/16"
30"
AIR
ENTRANCE
(UPFLOW ONLY)
31 1/4"
27 7/8"
23 7/16"
55"
46 3/4"
51 1/4"
46 3/16"
37 1/16"
"A"
REFRIGERANT
CONNECTIONS
FRONT
22"
MODEL
GTC36S1
GTC48S1
GTC60S1
30 9/16"
33 1/4"
18 13/16"
28 15/16"
25 3/4"
37 7/8"
WATER IN
DESUPERHEATER
INLET
DESUPERHEATER
OUTLET
WATER OUT
OVERFLOW DRAIN OUTLET
RIGHT SIDE
24 9/16"
30"
AIR
ENTRANCE
(UPFLOW ONLY)
LOW VOLTAGE
HIGH
VOLTAGE
LOW
VOLTAGE
LOW VOLTAGE
TOP
27 15/16"
TOP DUCT OUTLET FLANGE
MAIN DRAIN OUTLET
DIM. A
39 7/16"
40 15/16"
41 15/16"
SECURE SECTIONS TOGETHER
USING BOLT PART #1012-015
AND WASHER PART #1012-109
MIS-2821 A
15 5/8"
57 3/4"
19 13/16"
Form No.
Supersedes
Page
S3423-1112
S3423-912
12 of 28
Cond. Coil
Water In
Return
Desuper.
Water In
Desuper.
Water Out
3/8" Line Set
Cond. Coil
Water Out
7/8" Line Set
Main Drain
Secondary
Drain
Evap. Coil
Supply
Blower Air
Return
Bottom return upflow and
top return counterflow filter
provision must be field
supplied
One FR23 (16 x 25 x 1) or
field supplied equivalent
required for upflow side
return installation
Air Filter Required
Cond. Coil
Water In
Desuper.
Water In
Desuper.
Water Out
3/8" Line Set
Cond. Coil
Water Out
7/8" Line Set
Main Drain
Secondary
Drain
Return
Supply
Evap. Coil
Upflow installations can use (1) FR23 (16x25x1) or field supplied equivalent
on either side of the blower section. Use of (2) on both sides is optional.
Bottom return for upflow and top return for downflow must be field supplied.
See additional information on Pages 13 & 14.
Air Filter Required on Return Air Side for All I nstallations
Blower in
Shipped Position
Return
Control Panel
Upflow
Position
Blower Air
Blower in
Alternate Position
MIS-2828
Control Panel
NOTE:
See Page 20 for physical
dimensions of GTA coil
if removed from casing
for installation on a
fossil-fuel furnace.
Counterflow
Position
Filter Application Table
Many standard size filters are represented below since there can be a wide variety of possibilities depending upon application
position of the heat pump system and the return air duct installation.
Filter N o minal Siz e Surface Area FT2
Filter Type
Airflo w C FM
Airflo w C FM
Airflo w C FM
C apability @ 300 C apability @ 500 C apability @ 625
FP M Velo city
FP M Velo city
FP M Velo city
10 " X 2 0 " X 1 "
1.39
415
12 " X 2 0 " X 1 "
1.67
500
14 " X 2 0 " X 1 "
1.94
580
14 " X 2 5 " X 1 "
2.43
730
16 " X 2 0 " X 1 "
2.22
16 " X 2 5 " X 1 "
2.78
8 40
20" X 20" X 1"
2.78
8 40
20" X 25" X 1"
3.47
1050
24" X 24" X 1"
4.00
1200
10 " X 2 0 " X 2 "
1.39
415
700
12 " X 2 4 " X 2 "
2.00
600
1000
14 " X 2 0 " X 2 "
1.94
580
975
14 " X 2 5 " X 2 "
2.43
730
1215
16 " X 2 0 " X 2 "
2.22
670
1120
16 " X 2 5 " X 2 "
2.78
8 40
1400
20" X 20" X 2"
2.78
8 40
1400
20" X 25" X 2"
3.47
1050
1750
24" X 24" X 2"
4.0
1200
2000
10 " X 2 0 " X 1 "
1.39
425
700
12 " X 2 4 " X 1 "
2.00
600
1000
14 " X 2 0 " X 1 "
1.94
590
980
14 " X 2 5 " X 1 "
2.43
730
1215
16 " X 2 0 " X 1 "
2.22
16 " X 2 5 " X 1 "
2.78
20" X 20" X 1"
20" X 25" X 1"
24" X 24" X 1"
1" Fi berglass D i sposable
2" Std. Fi berglass D i sposable
670
Not Recommended
670
1115
8 40
1400
2.78
8 40
1400
3.47
1050
17 40
4.00
1200
2000
1" Pleated Fi lter
Not Recommended
Not Recommended
Not Recommended
10 " X 2 0 " X 2 "
1.39
425
700
870
12" X 24" X 2"
2.00
600
1000
1250
14 " X 2 0 " X 2 "
1.94
590
980
1215
14 " X 2 5 " X 2 "
2.43
16 " X 2 0 " X 2 "
2.22
730
1215
1520
670
1115
16 " X 2 5 " X 2 "
2.78
1400
8 40
1400
1740
20" X 20" X 2"
20" X 25" X 2"
2.78
8 40
1400
1740
3.47
1050
17 40
2170
24" X 24" X 2"
4.00
1200
2000
2500
2" Pleated Fi lter
12 " X 2 4 " X 4 "
2
600
1000
1250
16" X 20" X 4"
2.22
670
1115
1400
20" X 20" X 4"
2.78
8 40
1400
1740
20" X 25" X 4"
3.47
1050
17 40
2170
24" X 24" X 4"
4
1200
2000
2500
4" Pleated Fi lter
NOTE: FR23 16x25x1 side filter rack has a washable multi-layer aluminum mesh filter that is rated at 650 FPM maximum.
Form No.
Supersedes
Page
S3423-1112
S3423-912
13 of 28
Filter Application for All Installation Positions
COUNTERFLOW
UPFLOW
"A" FILTER
CONFIGURATION
"V" FILTER CONFIGURATION
AIRFLOW
SINGLE FILTER
CONFIGURATION
*
AIR
F
ILT
E
R
R
R
TE
TE
FIL
FIL
AIR
F
R
AIR FILTER
ILT
E
*
AIRFLOW
AIRFLOW
A IR
AIR FILTER
AIRFLOW
CENTRAL RETURN GRILLE(S)
(ONE OR MULTIPLE)
AIRFLOW
A IR
AIR FILTER
CENTRAL RETURN GRILLE(S)
(ONE OR MULTIPLE)
AI
R
FIL
*
R
TE
*
*
AIRFLOW
*
AIR FILTER
*NOTE: SINGLE FILTER MAY REQUIRE
A TRANSITION FOR ADEQUATE FILTER
SIZING. SEE FILTER APPLICATION
INFORMATION.
AIRFLOW
AIRFLOW
SIDE INLET(S); ONE OR
BOTH SIDES OR IN COMBINATION
WITH BOTTOM INLET
AIR FILTER
AIRFLOW
AIR FILTER
*NOTE: SINGLE FILTER MAY REQUIRE
A TRANSITION FOR ADEQUATE FILTER
SIZING. SEE FILTER APPLICATION
INFORMATION.
MIS-2881
HORIZONTAL FRONT DISCHARGE
HORIZONTAL LEFT DISCHARGE
*NOTE: SINGLE FILTER MAY REQUIRE
A TRANSITION FOR ADEQUATE FILTER
SIZING. SEE FILTER APPLICATION
INFORMATION.
*
AIRFLOW
*
*NOTE: SINGLE FILTER MAY REQUIRE
A TRANSITION FOR ADEQUATE FILTER
SIZING. SEE FILTER APPLICATION
INFORMATION.
AIR FILTER
SINGLE FILTER
CONFIGURATION
CENTRAL RETURN GRILLE(S)
(ONE OR MULTIPLE)
AIR FILTER
MIS-2882
AIRFLOW
AI
AIRFLOW
R
FIL
TE
R
CENTRAL RETURN
(ONE OR MULTIPLE)
AIR FILTER
*
AIRFLOW
AIRFLOW
*
AIRFLOW
AIR FILTER
*
AIR FILTER
"A"/"V" FILTER
CONFIGURATION
AIRFLOW
AIR
AIRFLOW
FIL
TE
R
*
A IR
TE
FIL
R
AIR FILTER
AIRFLOW
SIDE INLET(S); ONE OR
BOTH SIDES OR IN COMBINATION
WITH BOTTOM INLET
A IR
AIR
TE
FIL
R
FIL
TE
R
MIS-2884
AIRFLOW
MIS-2883
FILTERS SHOULD ALWAYS BE APPLIED IN A MANNER THAT MAKES THEM EASY TO ACCESS & CHANGE.
Form No.
Supersedes
Page
S3423-1112
S3423-912
14 of 28
GTC36S1 Matched with GTA3600UD1-A Coil
Full Load Capacities based upon rated flow of 8 GPM of 15% methanol/mass at 1200 CFM airflow.
COOLING FULL LOAD
HEATING FULL LOAD
Entering Entering
Total
Fluid
Air Temp. Capacity
Temp. (°F)
(°F)
(MBtuH)
Sensible
Capacity
(MBtuH)
Sensible
to Total
Ratio
P o w er H eat o f
Input Rejection EER
(KW)
(MBtuH)
Entering
Fluid
Temp. (°F)
Entering
Leaving
Total
P o w er H eat o f
Air
Air
Capacity
Input Absorption COP
Temp.
Temp.
(MBtuH)
(KW)
(MBtuH)
(°F)
(°F)
50°
40.0
28.9
0.72
1.50
45.1
26.6
60°
38.1
28.1
0.74
1.74
44.0
21.8
25°
23.7
83.3
1.92
17.0
3.7
70°
36.2
27.4
0.76
1.99
43.0
18.2
30°
26.3
85.3
1.98
19.3
3.9
34.3
26.6
0.78
2.23
41.9
15.4
40°
31.4
89.3
2.12
24.0
4.3
90°
32.4
25.9
0.80
2.47
40.8
13.1
50°
36.6
93.2
2.26
28.7
4.8
100°
30.5
25.1
0.82
2.72
39.8
11.2
60°
41.8
97.2
2.39
33.4
5.1
110°
28.6
24.3
0.85
2.96
38.7
9.7
70°
46.9
101.2
2.53
38.1
5.4
80°
70° D B
59° WB
65°
50°
43.0
30.1
0.70
1.51
48.2
28.4
80°
52.1
105.2
2.67
42.8
5.8
60°
41.0
29.3
0.72
1.76
47.0
23.2
25°
23.2
87.9
1.97
16.5
3.5
70°
38.9
28.5
0.73
2.01
45.8
19.3
30°
25.7
89.8
2.04
18.7
3.7
36.9
27.7
0.75
2.26
44.6
16.3
40°
30.7
93.7
2.18
23.3
4.1
90°
34.9
26.9
0.77
2.51
43.4
13.9
35.8
97.6
2.32
27.9
4.5
100°
32.8
26.1
0.80
2.76
42.2
11.9
110°
30.8
25.3
0.82
3.01
41.1
10.2
50°
46.2
31.2
0.68
1.54
51.4
30.0
60°
44.0
30.4
0.69
1.79
50.1
24.6
70°
41.8
29.6
0.71
2.04
48.8
20.5
80°
75° D B
63° WB
80° D B
67° WB
50°
60°
40.8
101.5
2.46
32.4
4.8
70°
45.9
105.4
2.60
37.0
5.2
5.5
80°
50.9
109.3
2.74
41.6
25°
23.4
93.1
2.21
16.0
3.1
26.0
95.0
2.29
18.2
3.3
3.7
39.6
28.8
0.73
2.29
47.4
17.3
30°
90°
37.4
27.9
0.75
2.54
46.1
14.7
40°
100°
35.2
27.1
0.77
2.79
44.8
12.6
50°
110°
33.0
26.3
0.80
3.04
43.4
10.9
60°
50°
49.5
32.3
0.65
1.56
54.8
31.7
60°
47.1
31.5
0.67
1.82
53.3
26.0
70°
44.8
30.6
0.68
2.07
51.9
21.6
80°
85° D B
71° WB
42.5
29.8
0.70
2.32
50.4
18.3
90°
40.1
28.9
0.72
2.58
48.9
15.6
100°
37.8
28.1
0.74
2.83
47.4
13.3
110°
35.4
27.2
0.77
3.08
45.9
11.5
80°
70°
31.1
99.0
2.44
22.6
36.2
102.9
2.60
27.0
4.1
41.3
106.8
2.76
31.5
4.4
70°
46.4
110.8
2.92
35.9
4.7
80°
51.5
114.7
3.07
40.3
4.9
75°
Part Load Capacities based upon rated flow of 8 GPM of 15% methanol/mass at 850 CFM airflow.
COOLING PART LOAD
Entering Entering
Total
Fluid
Air Temp. Capacity
Temp. (°F)
(°F)
(MBtuH)
HEATING PART LOAD
Sensible
Capacity
(MBtuH)
Sensible
to Total
Ratio
P o w er H eat o f
Input Rejection EER
(KW)
(MBtuH)
Entering
Fluid
Temp. (°F)
50°
26.9
22.0
0.82
0.73
29.4
60°
25.1
20.8
0.83
0.93
28.3
27.1
25°
18.3
85.0
1.48
13.1
3.7
70°
23.3
19.6
0.84
1.12
27.1
20.7
30°
20.0
86.8
1.49
14.8
3.9
21.4
18.4
0.86
1.32
26.0
16.2
40°
23.4
90.4
1.52
18.0
4.5
90°
19.6
17.2
0.88
1.52
24.8
12.9
50°
26.7
94.1
1.55
21.3
5.1
100°
17.8
16.0
0.90
1.72
23.7
10.3
60°
30.1
97.7
1.57
24.6
5.6
80°
70° D B
59° WB
37.0
Entering
Leaving
Total
P o w er H eat o f
Air
Air
Capacity
Input Absorption COP
Temp.
Temp.
(MBtuH)
(KW)
(MBtuH)
(°F)
(°F)
65°
110°
16.0
14.8
0.93
1.92
22.5
8.3
70°
33.4
101.4
1.60
27.9
6.1
50°
29.0
22.9
0.79
0.73
31.5
39.6
80°
36.8
105.0
1.63
31.1
6.6
60°
27.0
21.6
0.80
0.94
30.2
28.9
25°
17.9
89.5
1.52
12.7
3.5
70°
25.0
20.4
0.81
1.14
28.9
22.0
30°
19.6
91.3
1.53
14.3
3.7
23.1
19.2
0.83
1.34
27.7
17.2
40°
22.8
94.9
1.56
17.5
4.3
90°
21.1
17.9
0.85
1.55
26.4
13.6
26.1
98.4
1.59
20.7
4.8
100°
19.1
16.7
0.87
1.75
25.1
10.9
60°
29.4
102.0
1.62
23.9
5.3
110°
17.2
15.4
0.90
1.95
23.9
8.8
50°
31.1
23.7
0.75
0.75
33.6
31.1
70°
32.7
105.6
1.64
27.0
5.8
60°
29.0
22.5
0.77
0.95
32.2
27.2
80°
35.9
109.1
1.67
30.2
6.3
25°
18.1
94.7
1.70
12.4
3.1
30°
19.8
96.5
1.72
13.9
3.4
80°
75° D B
63° WB
70°
80°
80° D B
67° WB
90°
50°
26.9
21.2
0.79
1.15
30.8
23.3
24.8
19.9
0.81
1.36
29.4
19.4
22.7
18.6
0.82
1.56
28.0
15.5
40°
70°
75°
23.1
100.1
1.75
17.0
3.9
26.4
103.8
1.78
20.1
4.3
100°
20.6
17.3
0.84
1.77
26.6
11.6
50°
110°
18.4
16.0
0.86
1.97
25.2
7.7
60°
29.7
107.4
1.81
23.2
4.8
50°
33.3
24.6
0.74
0.76
35.9
44.0
70°
33.0
111.0
1.85
26.2
5.2
60°
31.1
23.2
0.75
0.96
34.4
32.2
80°
36.3
114.6
1.88
29.3
5.7
70°
28.8
21.9
0.76
1.17
32.8
24.6
85° D B
71° WB
26.6
20.6
0.77
1.38
31.3
19.3
90°
24.3
19.2
0.79
1.59
29.7
15.3
100°
22.0
17.9
0.81
1.79
28.1
12.3
110°
19.8
16.6
0.84
2.00
26.6
9.9
80°
Form No.
Supersedes
Page
S3423-1112
S3423-912
15 of 28
GTC36S1 Matched with GTA3600UD1-A Coil
Full Load Capacities based upon rated flow of 6 GPM water at 1200 CFM airflow.
COOLING FULL LOAD
HEATING FULL LOAD
Entering Entering
Total
Fluid
Air Temp. Capacity
Temp. (°F)
(°F)
(MBtuH)
Sensible
Capacity
(MBtuH)
Sensible
to Total
Ratio
P o w er H eat o f
Input Rejection EER
(KW)
(MBtuH)
Entering
Fluid
Temp. (°F)
Entering
Leaving
Total
P o w er H eat o f
Air
Air
Capacity
Input Absorption COP
Temp.
Temp.
(MBtuH)
(KW)
(MBtuH)
(°F)
(°F)
40°
35.8
25.7
0.72
1.56
41.1
23.0
50°
35.8
26.2
0.73
1.71
41.6
20.9
40°
28.2
86.8
1.96
21.5
4.2
60°
35.7
26.7
0.75
1.86
42.1
19.2
45°
31.1
89.0
2.04
24.1
4.5
35.7
27.1
0.76
2.01
42.6
17.7
50°
34.0
91.2
2.13
26.7
4.7
35.7
26.7
0.75
1.86
42.1
19.2
60°
39.7
95.7
2.31
31.8
5.0
70°
70° D B
59° WB
80°
65°
90°
35.8
26.2
0.73
1.71
41.6
20.9
70°
45.5
100.1
2.49
37.0
5.4
100°
35.8
25.7
0.72
1.56
41.1
23.0
80°
51.2
104.5
2.66
42.2
5.6
40°
38.5
26.8
0.70
1.58
43.9
24.4
90°
57.0
109.0
2.84
47.3
5.9
50°
38.5
27.3
0.76
1.73
44.4
22.2
40°
27.6
91.3
2.01
20.7
4.0
60°
38.4
27.8
0.75
1.88
44.8
20.4
45°
30.4
93.4
2.10
23.2
4.2
38.4
28.2
0.74
2.04
45.3
18.8
50°
33.2
95.6
2.19
25.7
4.4
80°
38.4
27.8
0.72
1.88
44.8
20.4
38.8
100.0
2.37
30.7
4.8
70°
75° D B
63° WB
90°
38.5
27.3
0.71
1.73
44.4
22.2
100°
38.5
26.8
0.70
1.58
43.9
24.4
40°
41.3
27.8
0.75
1.60
46.8
25.9
50°
41.3
28.3
0.74
1.75
49.2
23.6
60°
41.2
28.8
0.72
1.91
48.7
21.6
70°
80° D B
67° WB
41.2
29.3
0.71
2.07
48.3
70°
60°
70°
44.5
104.3
2.55
35.7
5.1
80°
50.1
108.6
2.73
40.8
5.4
90°
55.7
113.0
2.91
45.8
5.8
40°
27.9
96.5
2.26
20.2
3.6
19.9
45°
30.7
98.7
2.36
22.7
3.8
33.6
100.9
2.46
25.2
4.0
39.3
105.3
2.66
30.2
4.3
4.6
80°
41.2
28.8
0.70
1.91
47.8
21.6
50°
90°
41.3
28.3
0.69
1.75
47.3
23.6
60°
100°
41.3
27.8
0.67
1.60
46.8
25.9
70°
44.9
109.7
2.87
35.2
40°
44.3
28.8
0.65
1.62
49.8
27.4
80°
50.6
114.1
3.07
40.2
4.8
50°
44.3
29.3
0.66
1.78
50.3
24.9
90°
56.3
118.5
3.27
45.2
5.0
44.2
29.8
0.67
1.94
50.8
22.8
44.2
30.3
0.69
2.10
51.3
21.1
44.2
29.8
0.67
1.94
50.8
22.8
60°
70°
85° D B
71° WB
80°
90°
44.3
29.3
0.66
1.78
50.3
24.9
100°
44.3
28.8
0.65
1.62
49.8
27.4
75°
Part Load Capacities based upon rated flow of 6 GPM water at 850 CFM airflow.
COOLING PART LOAD
Entering Entering
Total
Fluid
Air Temp. Capacity
Temp. (°F)
(°F)
(MBtuH)
HEATING PART LOAD
Sensible
Capacity
(MBtuH)
Sensible
to Total
Ratio
P o w er H eat o f
Input Rejection EER
(KW)
(MBtuH)
Entering
Fluid
Temp. (°F)
Entering
Leaving
Total
P o w er H eat o f
Air
Air
Capacity
Input Absorption COP
Temp.
Temp.
(MBtuH)
(KW)
(MBtuH)
(°F)
(°F)
40°
28.7
20.5
0.72
0.73
31.2
39.3
50°
27.6
20.1
0.73
0.86
30.6
32.2
40°
21.0
87.9
1.43
16.1
4.3
60°
26.6
19.6
0.74
0.99
30.0
26.9
45°
22.9
89.9
1.46
17.9
4.6
25.5
19.1
0.75
1.12
29.3
22.9
50°
24.8
92.0
1.48
19.7
4.9
80°
24.5
18.7
0.76
1.25
28.7
19.7
60°
28.5
96.1
1.53
23.3
5.5
70°
70° D B
59° WB
65°
90°
23.4
18.2
0.78
1.37
28.1
17.1
70°
32.3
100.2
1.58
26.9
6.0
100°
22.4
17.7
0.79
1.50
27.5
14.9
80°
36.1
104.3
1.62
30.5
6.5
40°
30.8
21.4
0.69
0.74
33.4
41.7
90°
39.9
108.4
1.67
34.2
7.0
50°
29.7
20.9
0.70
0.87
32.7
34.2
40°
20.5
92.3
1.47
15.5
4.1
28.6
20.4
0.71
1.00
32.0
28.6
45°
22.4
94.4
1.50
17.2
4.4
4.7
60°
75° D B
63° WB
27.5
19.9
0.73
1.13
31.3
24.3
80°
26.3
19.4
0.74
1.26
30.6
20.9
90°
25.2
18.9
0.75
1.39
30.0
18.1
70°
100°
24.1
18.5
0.77
1.52
29.3
15.8
40°
33.1
22.2
0.67
0.75
35.7
44.2
50°
31.9
21.7
0.68
0.88
34.9
36.2
60°
70°
80° D B
67° WB
80°
50°
24.2
96.4
1.52
19.0
27.9
100.4
1.57
22.5
4.9
70°
31.6
104.4
1.62
26.1
5.2
80°
35.3
108.4
1.67
29.6
5.5
90°
39.0
112.4
1.71
33.1
5.8
40°
20.7
97.6
1.65
15.1
3.7
45°
22.6
99.6
1.68
16.9
3.9
24.5
101.7
1.71
18.6
4.2
28.2
105.7
1.76
22.2
4.7
60°
30.7
21.2
0.69
1.01
34.2
28.7
29.5
20.7
0.70
1.15
33.4
25.7
28.3
20.2
0.71
1.28
32.6
22.7
50°
70°
75°
90°
27.1
19.7
0.73
1.41
31.9
19.8
60°
100°
25.9
19.2
0.74
1.54
31.1
16.8
70°
31.9
109.8
1.82
25.7
5.2
40°
35.5
23.0
0.65
0.76
38.1
46.7
80°
35.7
113.8
1.87
29.3
5.6
50°
34.2
22.4
0.66
0.89
37.3
38.2
90°
39.4
117.9
1.93
32.8
6.0
60°
32.9
21.9
0.67
1.03
36.4
32.0
27.2
70°
85° D B
71° WB
31.6
21.4
0.68
1.16
35.6
80°
30.3
20.9
0.69
1.30
34.7
23.4
90°
29.0
20.4
0.70
1.43
33.9
20.3
27.7
19.8
0.72
1.56
33.1
17.7
100°
Form No.
Supersedes
Page
S3423-1112
S3423-912
16 of 28
GTC48S1 Matched with GTA4860UD1-A Coil
Full Load Capacities based upon rated flow of 12 GPM of 15% methanol/mass at 1500 CFM airflow.
COOLING FULL LOAD
HEATING FULL LOAD
Entering Entering
Total
Fluid
Air Temp. Capacity
Temp. (°F)
(°F)
(MBtuH)
Sensible
Capacity
(MBtuH)
Sensible
to Total
Ratio
P o w er H eat o f
Input Rejection EER
(KW)
(MBtuH)
Entering
Fluid
Temp. (°F)
50°
51.4
36.1
0.70
2.42
59.7
60°
49.0
35.1
0.71
2.71
58.3
18.1
25°
34.1
86.1
2.93
23.8
3.4
70°
46.7
34.0
0.73
3.01
56.9
15.5
30°
37.2
88.0
3.04
26.5
3.6
43.5
91.8
3.24
32.1
3.9
49.7
95.7
3.44
37.6
4.2
4.5
70° D B
59° WB
21.3
Entering
Leaving
Total
P o w er H eat o f
Air
Air
Capacity
Input Absorption COP
Temp.
Temp.
(MBtuH)
(KW)
(MBtuH)
(°F)
(°F)
44.3
33.0
0.74
3.31
55.6
13.4
40°
90°
41.9
31.9
0.76
3.61
54.2
11.6
50°
100°
39.5
30.9
0.78
3.90
52.8
10.1
60°
56.0
99.5
3.64
43.2
110°
37.1
29.8
0.80
4.20
51.5
8.8
70°
62.2
103.4
3.85
48.7
4.7
50°
55.3
37.6
0.68
2.44
63.6
22.7
80°
68.4
107.2
4.05
54.3
5.0
60°
52.8
36.5
0.69
2.74
62.1
19.2
25°
33.4
90.6
3.01
23.1
3.3
70°
50.2
35.4
0.71
3.05
60.6
16.5
30°
36.4
92.5
3.12
25.8
3.4
47.6
34.3
0.72
3.35
59.1
14.2
40°
42.5
96.2
3.33
31.2
3.7
80°
80°
75° D B
63° WB
90°
45.1
33.2
0.74
3.66
57.6
12.3
100°
42.5
32.2
0.76
3.97
56.0
10.7
110°
39.9
31.1
0.78
4.27
54.5
9.3
50°
59.4
39.0
0.66
2.48
67.9
23.9
65°
48.6
100.0
3.53
36.5
4.0
60°
54.7
103.8
3.74
41.9
4.3
70°
60.8
107.5
3.95
47.3
4.5
80°
66.9
111.3
4.16
52.7
4.8
25°
33.7
95.8
3.38
22.4
2.9
50°
70°
60°
56.6
37.9
0.67
2.79
66.1
20.3
70°
53.9
36.8
0.68
3.09
64.4
17.4
51.1
35.6
0.70
3.39
62.7
15.1
30°
36.8
97.7
3.50
25.0
3.1
40°
43.0
101.5
3.73
30.2
3.4
80°
80° D B
67° WB
90°
48.4
34.5
0.71
3.70
61.0
13.1
100°
45.6
33.4
0.73
4.00
59.3
11.4
50°
49.1
105.3
3.97
35.4
3.6
110°
42.9
32.2
0.75
4.31
57.6
10.0
60°
55.3
109.1
4.20
40.7
3.8
50°
63.7
40.4
0.63
2.52
72.2
25.3
70°
61.5
112.9
4.43
45.9
4.1
60°
60.7
39.2
0.65
2.83
70.4
21.5
80°
67.6
116.8
4.67
51.1
4.3
70°
80°
85° D B
71° WB
57.8
38.0
0.66
3.13
68.5
18.4
54.8
36.9
0.67
3.44
66.6
15.9
90°
51.9
35.7
0.69
3.75
64.7
13.8
100°
48.9
34.5
0.71
4.06
62.8
12.0
110°
46.0
33.4
0.73
4.37
60.9
10.5
75°
Part Load Capacities based upon rated flow of 12 GPM of 15% methanol/mass at 1150 CFM airflow.
COOLING PART LOAD
Entering Entering
Total
Fluid
Air Temp. Capacity
Temp. (°F)
(°F)
(MBtuH)
HEATING PART LOAD
Sensible
Capacity
(MBtuH)
Sensible
to Total
Ratio
P o w er H eat o f
Input Rejection EER
(KW)
(MBtuH)
Entering
Fluid
Temp. (°F)
Entering
Leaving
Total
P o w er H eat o f
Air
Air
Capacity
Input Absorption COP
Temp.
Temp.
(MBtuH)
(KW)
(MBtuH)
(°F)
(°F)
50°
39.1
28.3
0.72
1.35
43.7
29.0
60°
37.1
27.5
0.74
1.60
42.6
23.2
25°
23.8
85.5
2.17
16.1
3.2
70°
35.1
26.6
0.76
1.86
41.4
18.9
30°
26.3
87.7
2.21
18.5
3.5
33.1
25.8
0.78
2.11
40.3
15.7
40°
31.3
92.0
2.28
23.3
4.0
90°
31.1
25.0
0.80
2.37
39.2
13.1
50°
36.3
96.3
2.35
28.1
4.5
100°
29.1
24.2
0.83
2.62
38.0
11.1
60°
41.4
100.6
2.43
32.9
5.0
80°
70° D B
59° WB
65°
110°
27.1
23.3
0.86
2.88
36.9
9.4
70°
46.4
104.9
2.50
37.7
5.4
50°
42.1
29.5
0.70
1.36
46.7
31.0
80°
51.4
109.2
2.57
42.4
5.9
60°
39.9
28.6
0.72
1.62
45.4
24.7
25°
23.3
90.0
2.23
15.7
3.1
70°
37.7
27.7
0.73
1.88
44.2
20.1
30°
25.7
92.2
2.27
18.0
3.3
40°
75° D B
63° WB
35.6
26.9
0.76
2.14
42.9
16.6
90°
33.4
26.0
0.78
2.41
41.7
13.9
100°
31.3
25.2
0.80
2.67
40.4
11.7
110°
29.1
24.3
0.83
2.93
39.1
9.9
50°
45.2
30.6
0.67
1.38
49.9
27.1
60°
42.8
29.7
0.69
1.64
48.5
24.2
80°
70°
80°
80° D B
67° WB
90°
30.6
96.4
2.34
22.6
3.8
35.5
100.6
2.42
27.3
4.3
60°
40.4
104.8
2.49
31.9
4.7
70°
45.3
109.0
2.57
36.6
5.2
50°
70°
80°
50.2
113.3
2.64
41.2
5.6
25°
23.5
95.3
2.51
15.2
2.8
30°
26.0
97.4
2.55
17.4
3.0
31.0
101.7
2.63
22.0
3.4
35.9
105.9
2.71
26.5
3.9
4.3
40.5
28.8
0.71
1.91
47.0
21.3
38.2
27.9
0.73
2.17
45.6
18.3
35.9
27.0
0.75
2.43
44.2
15.4
40°
75°
100°
33.6
26.1
0.78
2.69
42.8
12.5
50°
110°
31.3
25.2
0.80
2.95
41.4
9.6
60°
40.9
110.2
2.80
31.0
50°
48.4
31.7
0.65
1.40
53.2
34.5
70°
45.8
114.5
2.88
35.5
4.7
60°
45.9
30.7
0.67
1.67
51.6
27.5
80°
50.8
118.7
2.97
40.0
5.0
43.4
29.8
0.69
1.93
50.0
22.5
41.0
28.9
0.70
2.20
48.5
18.6
90°
38.5
27.9
0.73
2.47
46.9
15.6
100°
36.0
27.0
0.75
2.73
45.3
13.2
110°
33.5
26.1
0.78
3.00
43.8
11.2
70°
80°
85° D B
71° WB
Form No.
Supersedes
Page
S3423-1112
S3423-912
17 of 28
GTC48S1 Matched with GTA4860UD1-A Coil
Full Load Capacities based upon rated flow of 7 GPM water at 1500 CFM airflow.
COOLING FULL LOAD
HEATING FULL LOAD
Entering Entering
Total
Fluid
Air Temp. Capacity
Temp. (°F)
(°F)
(MBtuH)
Sensible
Capacity
(MBtuH)
Sensible
to Total
Ratio
P o w er H eat o f
Input Rejection EER
(KW)
(MBtuH)
Entering
Fluid
Temp. (°F)
Entering
Leaving
Total
P o w er H eat o f
Air
Air
Capacity
Input Absorption COP
Temp.
Temp.
(MBtuH)
(KW)
(MBtuH)
(°F)
(°F)
40°
48.5
34.1
0.70
2.44
56.8
19.9
50°
47.7
33.7
0.71
2.63
56.7
18.2
40°
37.2
87.9
2.61
28.3
4.2
60°
47.0
33.4
0.71
2.82
56.6
16.7
45°
41.3
90.5
2.81
31.7
4.3
46.2
33.0
0.71
3.01
56.5
15.4
50°
45.5
93.1
3.02
35.2
4.4
47.0
33.4
0.71
2.82
56.6
16.7
60°
53.9
98.3
3.43
42.2
4.6
70°
70° D B
59° WB
80°
65°
90°
47.7
33.7
0.71
2.63
56.7
18.2
70°
62.2
103.4
3.85
49.1
4.7
100°
48.5
34.1
0.70
2.44
56.8
19.9
80°
70.6
108.6
4.26
56.0
4.9
40°
52.2
35.5
0.68
2.47
60.6
21.1
90°
78.9
113.7
4.67
63.0
4.9
50°
51.4
35.1
0.70
2.66
60.4
19.3
40°
36.3
92.4
2.68
27.2
4.0
60°
50.5
34.7
0.69
2.85
60.3
17.7
45°
40.4
94.9
2.89
30.6
4.1
49.7
34.4
0.69
3.05
60.1
16.3
50°
44.5
97.5
3.10
33.9
4.2
80°
50.5
34.7
0.69
2.85
60.3
17.7
90°
51.4
35.1
0.68
2.66
60.4
19.3
70°
75° D B
63° WB
100°
52.2
35.5
0.68
2.47
60.6
21.1
40°
56.0
36.8
0.68
2.50
64.5
22.4
52.7
102.5
3.52
40.6
4.4
70°
60.8
107.6
3.95
47.4
4.5
80°
69.0
112.6
4.37
54.1
4.7
90°
77.2
117.6
4.80
60.8
4.8
40°
36.7
106.6
3.00
26.5
3.6
70°
60°
50°
55.1
36.4
0.67
2.70
63.6
20.4
60°
54.3
36.0
0.67
2.89
63.8
18.8
53.4
35.7
0.67
3.09
63.9
17.3
45°
40.9
110.2
3.24
29.8
3.7
45.0
113.8
3.48
33.1
3.8
53.2
120.9
3.96
39.7
3.9
70°
80° D B
67° WB
80°
54.3
36.0
0.66
2.89
64.1
18.8
50°
90°
55.1
36.4
0.66
2.70
64.3
20.4
60°
100°
56.0
36.8
0.66
2.50
64.5
22.4
70°
61.5
128.0
4.43
46.4
4.1
40°
60.0
38.1
0.63
2.54
68.7
23.7
80°
69.8
135.1
4.91
53.0
4.2
50°
59.1
37.7
0.64
2.74
68.4
21.6
90°
78.0
142.2
5.39
59.6
4.2
60°
58.2
37.3
0.64
2.93
68.2
19.8
85° D B
71° WB
57.2
36.9
0.64
3.13
67.9
18.3
80°
58.2
37.3
0.64
2.93
68.2
19.8
90°
59.1
37.7
0.64
2.74
68.4
21.6
100°
60.0
38.1
0.63
2.54
68.7
23.7
70°
75°
Part Load Capacities based upon rated flow of 5 GPM water at 1150 CFM airflow.
COOLING PART LOAD
Entering Entering
Total
Fluid
Air Temp. Capacity
Temp. (°F)
(°F)
(MBtuH)
HEATING PART LOAD
Sensible
Capacity
(MBtuH)
Sensible
to Total
Ratio
P o w er H eat o f
Input Rejection EER
(KW)
(MBtuH)
Entering
Fluid
Temp. (°F)
Entering
Leaving
Total
P o w er H eat o f
Air
Air
Capacity
Input Absorption COP
Temp.
Temp.
(MBtuH)
(KW)
(MBtuH)
(°F)
(°F)
40°
36.1
27.2
0.75
1.25
40.4
28.9
50°
35.9
27.0
0.75
1.44
40.8
24.9
40°
29.2
83.0
2.13
22.0
4.0
60°
35.7
26.7
0.75
1.63
41.3
21.9
45°
31.7
84.6
2.16
24.3
4.3
35.5
26.5
0.75
1.82
41.7
19.5
50°
34.2
86.1
2.19
26.7
4.6
80°
35.3
26.2
0.74
2.01
42.1
17.5
60°
39.1
89.1
2.25
31.4
5.1
90°
35.0
25.9
0.74
2.20
42.5
15.9
70°
44.0
92.2
2.32
36.1
5.6
100°
34.8
25.7
0.74
2.39
43.0
14.6
80°
49.0
95.2
2.38
40.9
6.0
40°
38.9
28.4
0.73
1.27
43.2
30.7
90°
53.9
98.3
2.44
45.6
6.5
50°
38.6
28.1
0.73
1.46
43.6
26.5
40°
28.6
94.6
2.19
21.1
3.8
38.4
27.8
0.72
1.65
44.0
23.2
45°
31.0
96.7
2.22
23.4
4.1
38.2
27.5
0.72
1.84
44.5
20.7
50°
33.4
98.8
2.25
25.7
4.3
80°
37.9
27.3
0.72
2.04
44.9
18.6
90°
37.7
27.0
0.72
2.23
45.3
16.9
100°
37.4
26.7
0.71
2.42
45.7
15.5
40°
41.7
29.4
0.71
1.28
46.1
32.5
50°
41.5
29.2
0.70
1.48
46.5
28.1
60°
41.2
28.9
0.70
1.67
46.9
23.8
41.0
28.6
0.70
1.87
47.3
21.9
40.7
28.3
0.69
2.06
47.8
20.1
50°
70°
70° D B
59° WB
60°
70°
70°
75° D B
63° WB
80° D B
67° WB
80°
65°
38.2
102.9
2.31
30.3
4.6
70°
43.1
107.1
2.38
34.9
4.9
80°
47.9
111.2
2.44
39.5
5.1
90°
52.7
115.4
2.51
44.2
5.4
40°
28.9
99.9
2.45
20.5
3.4
45°
31.3
102.0
2.49
22.8
3.7
33.8
104.1
2.53
25.1
3.9
38.6
108.3
2.60
29.8
4.4
43.5
112.5
2.67
34.4
4.8
60°
70°
75°
90°
40.5
28.0
0.69
2.26
48.2
18.2
60°
100°
40.2
27.7
0.69
2.45
48.6
16.4
70°
40°
44.7
30.5
0.68
1.30
49.2
34.4
80°
48.4
116.7
2.74
39.0
5.2
50°
44.5
30.2
0.68
1.50
49.6
29.6
90°
53.3
120.9
2.81
43.7
5.5
60°
44.2
29.9
0.68
1.70
50.0
26.0
85° D B
71° WB
43.9
29.6
0.67
1.90
50.4
23.2
80°
43.6
29.3
0.67
2.09
50.8
20.8
90°
43.4
29.0
0.67
2.29
51.2
18.9
100°
43.1
28.7
0.67
2.49
51.6
17.3
70°
Form No.
Supersedes
Page
S3423-1112
S3423-912
18 of 28
GTC60S1 Matched with GTA4860UD1-A Coil
Full Load Capacities based upon rated flow of 15 GPM of 15% methanol/mass at 1800 CFM airflow.
COOLING FULL LOAD
HEATING FULL LOAD
Entering Entering
Total
Fluid
Air Temp. Capacity
Temp. (°F)
(°F)
(MBtuH)
Sensible
Capacity
(MBtuH)
Sensible
to Total
Ratio
P o w er H eat o f
Input Rejection EER
(KW)
(MBtuH)
Entering
Fluid
Temp. (°F)
Entering
Leaving
Total
P o w er H eat o f
Air
Air
Capacity
Input Absorption COP
Temp.
Temp.
(MBtuH)
(KW)
(MBtuH)
(°F)
(°F)
50°
59.7
42.8
0.72
2.79
69.2
21.4
60°
57.1
41.8
0.73
3.19
68.0
17.9
25°
46.4
88.9
3.85
32.8
3.5
70°
54.5
40.8
0.75
3.59
66.7
15.2
30°
49.6
90.5
3.95
35.7
3.7
51.9
39.8
0.77
3.99
65.5
13.0
40°
55.8
93.7
4.14
41.3
3.9
90°
49.2
38.8
0.79
4.39
64.2
11.2
50°
62.1
96.9
4.33
46.9
4.2
100°
46.6
37.8
0.81
4.78
63.0
9.7
60°
68.4
100.2
4.52
52.5
4.4
110°
44.0
36.8
0.84
5.18
61.7
8.5
70°
74.6
103.4
4.72
58.1
4.6
50°
64.2
44.6
0.69
2.82
73.8
22.8
80°
80.9
106.6
4.91
63.7
4.9
60°
61.4
43.6
0.71
3.23
72.4
19.0
25°
45.4
93.4
3.96
31.9
3.4
70°
58.6
42.5
0.73
3.63
71.0
16.1
30°
48.5
94.9
4.05
34.6
3.5
80°
70° D B
59° WB
75° D B
63° WB
55.8
41.5
0.74
4.04
69.6
13.8
90°
53.0
40.4
0.76
4.45
68.2
11.9
100°
50.1
39.4
0.79
4.86
66.7
10.3
110°
47.3
38.4
0.81
5.27
65.3
9.0
50°
68.9
46.3
0.67
2.87
78.7
24.0
80°
20.1
65°
54.6
98.1
4.25
40.1
3.8
60.7
101.2
4.45
45.5
4.0
60°
66.8
104.4
4.65
51.0
4.2
70°
73.0
107.5
4.84
56.4
4.4
80°
79.1
110.7
5.04
61.9
4.6
40°
50°
70°
60°
65.9
45.2
0.69
3.28
77.1
70°
62.9
44.1
0.70
3.68
75.5
17.1
25°
45.9
98.6
4.44
30.9
3.0
59.9
43.0
0.72
4.09
73.9
14.6
30°
49.0
100.2
4.55
33.6
3.2
55.2
103.4
4.77
38.9
3.4
61.4
106.6
5.00
44.2
3.6
80°
80° D B
67° WB
90°
56.9
42.0
0.74
4.50
72.2
12.6
40°
100°
53.8
40.9
0.76
4.91
70.6
11.0
50°
110°
50.8
39.8
0.78
5.32
69.0
9.6
60°
67.6
109.8
5.22
49.4
3.8
50°
73.9
47.9
0.65
2.91
83.8
25.4
70°
73.8
112.9
5.44
54.7
4.0
60°
70.7
46.8
0.66
3.32
82.0
21.3
80°
79.9
116.1
5.66
60.0
4.2
70°
67.4
45.7
0.68
3.74
80.2
18.0
85° D B
71° WB
64.2
44.5
0.69
4.15
78.4
15.5
90°
60.9
43.4
0.71
4.57
76.5
13.3
100°
57.7
42.3
0.73
4.98
74.7
11.6
110°
54.5
41.2
0.76
5.39
72.9
10.1
80°
75°
Part Load Capacities based upon rated flow of 15 GPM of 15% methanol/mass at 1300 CFM airflow.
COOLING PART LOAD
Entering Entering
Total
Fluid
Air Temp. Capacity
Temp. (°F)
(°F)
(MBtuH)
HEATING PART LOAD
Sensible
Capacity
(MBtuH)
Sensible
to Total
Ratio
P o w er H eat o f
Input Rejection EER
(KW)
(MBtuH)
Entering
Fluid
Temp. (°F)
Entering
Leaving
Total
P o w er H eat o f
Air
Air
Capacity
Input Absorption COP
Temp.
Temp.
(MBtuH)
(KW)
(MBtuH)
(°F)
(°F)
50°
44.8
30.7
0.69
1.50
49.9
29.8
60°
42.6
30.1
0.71
1.84
48.8
23.2
25°
30.5
86.7
2.78
20.6
33.1
88.6
2.83
23.1
3.4
38.4
92.4
2.92
28.1
3.8
4.2
70°
80°
70° D B
59° WB
40.4
29.5
0.73
2.17
47.8
18.6
30°
38.2
28.9
0.76
2.50
46.8
15.3
40°
65°
3.2
90°
36.1
28.3
0.78
2.84
45.7
12.7
50°
43.8
96.2
3.02
33.2
100°
33.9
27.7
0.82
3.17
44.7
10.7
60°
49.1
100.0
3.11
38.2
4.6
110°
31.7
27.0
0.85
3.50
43.7
9.1
70°
54.4
103.7
3.21
43.2
5.0
50°
48.1
32.0
0.66
1.51
53.3
31.8
80°
59.7
107.5
3.30
48.2
5.3
60°
45.8
31.4
0.68
1.86
52.1
24.7
25°
29.8
91.2
2.86
20.0
3.1
43.5
30.7
0.71
2.20
51.0
19.8
30°
32.4
93.1
2.91
22.5
3.3
40°
37.6
96.8
3.00
27.3
3.7
42.8
100.5
3.10
32.2
4.0
60°
48.0
104.2
3.20
37.1
4.4
70°
53.2
107.9
3.29
41.9
4.7
70°
75° D B
63° WB
41.1
30.1
0.73
2.54
49.8
16.2
90°
38.8
29.4
0.76
2.88
48.6
13.5
100°
36.4
28.8
0.79
3.22
47.4
11.3
110°
34.1
28.2
0.83
3.56
46.3
9.6
50°
51.7
33.2
0.63
1.54
57.0
26.9
60°
49.2
32.5
0.66
1.88
55.6
23.9
80°
70°
80°
80° D B
67° WB
90°
50°
70°
80°
58.4
111.6
3.39
46.8
5.1
25°
30.1
96.4
3.21
19.4
2.8
46.7
31.9
0.68
2.23
54.3
21.0
44.2
31.2
0.71
2.57
52.9
18.0
30°
32.7
98.3
3.26
21.8
2.9
41.6
30.5
0.74
2.91
51.6
15.0
40°
38.0
102.1
3.37
26.5
3.3
43.2
105.8
3.48
31.2
3.6
75°
100°
39.1
29.9
0.76
3.25
50.2
12.0
50°
110°
36.6
29.2
0.79
3.59
48.9
9.1
60°
48.5
109.5
3.59
36.0
3.9
50°
55.4
34.4
0.62
1.57
60.7
35.4
70°
53.8
113.3
3.70
40.7
4.3
60°
52.7
33.7
0.64
1.91
59.2
27.6
80°
59.0
117.0
3.81
45.4
4.6
70°
50.0
33.0
0.66
2.26
57.7
22.1
18.2
80°
85° D B
71° WB
47.3
32.3
0.68
2.61
56.2
90°
44.6
31.6
0.71
2.95
54.7
15.1
100°
41.9
30.9
0.74
3.30
53.2
12.7
110°
39.2
30.2
0.77
3.65
51.7
10.8
Form No.
Supersedes
Page
S3423-1112
S3423-912
19 of 28
GTC60S1 Matched with GTA4860UD1-A Coil
Full Load Capacities based upon rated flow of 9 GPM water at 1800 CFM airflow.
COOLING FULL LOAD
HEATING FULL LOAD
Entering Entering
Total
Fluid
Air Temp. Capacity
Temp. (°F)
(°F)
(MBtuH)
Sensible
Capacity
(MBtuH)
Sensible
to Total
Ratio
P o w er H eat o f
Input Rejection EER
(KW)
(MBtuH)
Entering
Fluid
Temp. (°F)
Entering
Leaving
Total
P o w er H eat o f
Air
Air
Capacity
Input Absorption COP
Temp.
Temp.
(MBtuH)
(KW)
(MBtuH)
(°F)
(°F)
40°
53.9
40.0
0.74
2.71
63.1
19.9
50°
53.8
40.4
0.75
3.00
64.0
17.9
40°
51.3
91.4
3.74
38.5
60°
53.7
40.7
0.76
3.29
64.9
16.3
45°
54.3
92.9
3.85
41.2
4.1
53.6
41.1
0.77
3.58
65.8
15.0
50°
57.3
94.5
3.95
43.8
4.2
80°
53.7
40.7
0.76
3.29
64.9
16.3
60°
63.3
97.6
4.16
49.1
4.5
90°
53.8
40.4
0.75
3.00
64.0
17.9
70°
69.3
100.6
4.37
54.3
4.6
100°
53.9
40.0
0.74
2.71
63.1
19.9
80°
75.3
103.7
4.59
59.6
4.8
40°
57.9
41.6
0.72
2.75
67.3
21.1
90°
81.3
106.8
4.80
64.9
5.0
50°
57.9
42.0
0.76
3.04
68.2
19.0
40°
50.1
95.8
3.84
37.0
3.8
60°
57.8
42.4
0.75
3.33
69.1
17.3
45°
53.1
97.3
3.95
39.6
3.9
57.7
42.8
0.74
3.62
70.0
15.9
50°
56.0
98.8
4.06
42.1
4.0
80°
57.8
42.4
0.73
3.33
69.1
17.3
61.9
101.8
4.28
47.3
4.2
90°
57.9
42.0
0.73
3.04
68.2
19.0
100°
57.9
41.6
0.72
2.75
67.3
21.1
70°
67.7
104.8
4.49
52.4
4.4
40°
62.2
43.2
0.68
2.8
71.7
22.4
80°
73.6
107.8
4.71
57.5
4.6
50°
62.1
43.6
0.70
3.08
72.6
20.2
60°
62.0
44.0
0.72
3.4
73.5
18.4
61.9
44.4
0.72
3.67
74.5
70°
70°
70°
70° D B
59° WB
75° D B
63° WB
80° D B
67° WB
65°
70°
60°
4.0
90°
79.4
110.9
4.92
62.6
4.8
40°
50.7
101.1
4.32
36.0
3.4
16.9
45°
53.7
102.6
4.44
38.5
3.5
56.6
104.1
4.56
41.1
3.6
62.5
107.2
4.80
46.1
3.8
4.0
80°
62.0
44.0
0.71
3.38
73.5
18.4
50°
90°
62.1
43.6
0.70
3.08
72.6
20.2
60°
100°
62.2
43.2
0.69
2.78
71.7
22.4
70°
68.5
110.2
5.04
51.2
40°
66.7
44.7
0.67
2.82
76.3
23.6
80°
74.4
113.3
5.29
56.3
4.1
50°
66.6
45.1
0.68
3.12
77.2
21.3
90°
80.3
116.3
5.53
61.4
4.3
60°
70°
85° D B
71° WB
66.5
45.5
0.68
3.42
78.2
19.4
66.4
45.9
0.69
3.73
79.1
17.8
80°
66.5
45.5
0.68
3.42
78.2
19.4
90°
66.6
45.1
0.68
3.12
77.2
21.3
100°
66.7
44.7
0.67
2.82
76.3
23.6
75°
Part Load Capacities based upon rated flow of 9 GPM water at 1300 CFM airflow.
COOLING PART LOAD
Entering Entering
Total
Fluid
Air Temp. Capacity
Temp. (°F)
(°F)
(MBtuH)
HEATING PART LOAD
Sensible
Capacity
(MBtuH)
Sensible
to Total
Ratio
P o w er H eat o f
Input Rejection EER
(KW)
(MBtuH)
Entering
Fluid
Temp. (°F)
Entering
Leaving
Total
P o w er H eat o f
Air
Air
Capacity
Input Absorption COP
Temp.
Temp.
(MBtuH)
(KW)
(MBtuH)
(°F)
(°F)
40°
44.6
32.2
0.72
1.42
49.4
31.4
50°
42.9
31.4
0.73
1.67
48.6
25.8
40°
26.7
84.0
1.76
20.7
4.4
33.8
89.1
2.20
26.3
4.5
40.9
94.1
2.63
31.9
4.6
55.1
104.2
3.50
43.1
4.6
41.2
30.6
0.74
1.91
47.7
21.5
45°
39.5
29.8
0.75
2.16
46.8
18.3
50°
80°
37.7
29.0
0.77
2.40
46.0
15.7
60°
90°
36.0
28.2
0.78
2.65
45.1
13.6
70°
69.3
114.3
4.37
54.3
4.6
100°
34.3
27.4
0.80
2.90
44.2
11.8
80°
83.4
124.4
5.24
65.5
4.7
40°
48.0
33.5
0.70
1.44
52.9
33.4
90°
97.6
134.5
6.11
76.7
4.7
50°
46.1
32.7
0.70
1.69
51.9
27.4
40°
26.1
83.4
1.81
20.0
4.7
44.3
31.8
0.72
1.94
50.9
22.9
45°
33.1
87.0
2.26
25.4
4.7
42.4
31.0
0.73
2.19
49.9
19.4
50°
40.0
90.6
2.71
30.8
4.3
80°
40.6
30.2
0.74
2.43
48.9
16.7
53.9
97.7
3.60
41.6
4.4
90°
38.8
29.3
0.76
2.68
47.9
14.4
70°
67.7
104.8
4.49
52.4
4.4
100°
36.9
28.5
0.77
2.93
46.9
12.6
40°
51.5
34.8
0.68
1.46
56.5
35.4
80°
81.6
112.0
5.38
63.2
4.5
50°
49.5
33.9
0.68
1.71
55.4
29.0
60°
70°
70° D B
59° WB
60°
70°
75° D B
63° WB
60°
70°
80° D B
67° WB
80°
60°
65°
70°
90°
95.4
119.1
6.28
74.0
4.5
40°
26.4
93.8
2.03
19.5
3.8
47.5
33.0
0.69
1.96
54.2
23.0
45.6
32.2
0.71
2.21
53.1
20.6
45°
33.4
98.8
2.54
24.8
3.9
43.6
31.3
0.72
2.47
52.0
18.2
50°
40.4
103.8
3.04
30.1
3.9
54.4
113.8
4.04
40.7
3.9
75°
90°
41.6
30.4
0.73
2.72
50.9
15.7
60°
100°
39.6
29.6
0.75
2.97
49.8
13.3
70°
68.5
123.8
5.04
51.2
4.0
40°
55.2
36.0
0.65
1.48
60.2
37.4
80°
82.5
133.7
6.05
61.8
4.0
50°
53.1
35.1
0.66
1.73
59.0
30.6
90°
96.5
143.7
7.05
72.4
4.0
60°
51.0
34.2
0.67
1.99
57.7
25.6
85° D B
71° WB
48.8
33.3
0.68
2.25
56.5
21.7
80°
46.7
32.4
0.69
2.50
55.3
18.7
90°
44.6
31.5
0.71
2.76
54.0
16.2
100°
42.5
30.6
0.72
3.02
52.8
14.1
70°
Form No.
Supersedes
Page
S3423-1112
S3423-912
20 of 28
GTC36S1 Matched with GTADP-3642-B (HE37942D175B2505AW) and GTADP-3642-C (HE37942D210B2505AW) -A Coils
Full Load Capacities based upon rated flow of 8 GPM of 15% methanol/mass at 1200 CFM airflow.
COOLING FULL LOAD
HEATING FULL LOAD
Entering Entering
Total
Fluid
Air Temp. Capacity
Temp. (°F)
(°F)
(MBtuH)
Sensible
Capacity
(MBtuH)
Sensible
to Total
Ratio
P o w er
Input
(KW)
H eat o f
Rejection EER
(MBtuH)
Entering
Fluid
Temp. (°F)
Entering
Leaving
Total
P o w er H eat o f
Air
Air
Capacity
Input Absorption COP
Temp.
Temp.
(MBtuH)
(KW)
(MBtuH)
(°F)
(°F)
50°
40.0
30.0
0.75
1.40
44.8
28.5
60°
38.0
29.0
0.76
1.67
43.7
22.8
25°
23.7
83.3
1.92
17.0
3.7
70°
36.1
28.0
0.78
1.93
42.7
18.7
30°
26.3
85.3
1.98
19.3
3.9
34.2
27.1
0.79
2.19
41.7
15.6
40°
31.4
89.3
2.12
24.0
4.3
90°
32.2
26.1
0.81
2.46
40.6
13.1
50°
36.6
93.2
2.26
28.7
4.8
100°
30.3
25.1
0.83
2.72
39.6
11.1
60°
41.8
97.2
2.39
33.4
5.1
110°
28.4
24.1
0.85
2.98
38.6
9.5
70°
46.9
101.2
2.53
38.1
5.4
80°
70° D B
59° WB
65°
50°
43.0
31.2
0.73
1.41
47.8
30.4
80°
52.1
105.2
2.67
42.8
5.8
60°
40.9
30.2
0.74
1.68
46.7
24.3
25°
23.2
87.9
1.97
16.5
3.5
70°
38.8
29.2
0.75
1.95
45.5
19.9
30°
25.7
89.8
2.04
18.7
3.7
36.8
28.2
0.77
2.22
44.3
16.5
40°
30.7
93.7
2.18
23.3
4.1
34.7
27.2
0.78
2.49
43.2
13.9
35.8
97.6
2.32
27.9
4.5
60°
40.8
101.5
2.46
32.4
4.8
70°
45.9
105.4
2.60
37.0
5.2
80°
50.9
109.3
2.74
41.6
5.5
25°
23.4
93.1
2.21
16.0
3.1
26.0
95.0
2.29
18.2
3.3
3.7
80°
75° D B
63° WB
90°
100°
32.6
26.1
0.80
2.76
42.0
11.8
110°
30.5
25.1
0.82
3.03
40.9
10.1
50°
46.2
32.4
0.70
1.44
51.1
32.1
60°
43.9
70°
80°
80° D B
67° WB
31.4
0.71
1.71
49.8
25.7
50°
41.7
30.3
0.73
1.98
48.5
21.1
39.5
29.2
0.74
2.25
47.1
17.5
30°
90°
37.2
28.2
0.76
2.52
45.8
14.8
40°
100°
35.0
27.1
0.77
2.79
44.5
12.5
50°
110°
32.8
26.1
0.80
3.06
43.2
10.7
60°
50°
49.5
33.6
0.68
1.46
54.5
33.9
60°
47.1
32.5
0.69
1.73
53.0
27.1
70°
44.7
31.4
0.70
2.01
51.5
22.3
80°
85° D B
71° WB
42.3
30.3
0.72
2.28
50.1
18.5
90°
39.9
29.2
0.73
2.56
48.6
15.6
100°
37.5
28.1
0.75
2.83
47.2
13.3
110°
35.1
27.0
0.77
3.10
45.7
11.3
70°
31.1
99.0
2.44
22.6
36.2
102.9
2.60
27.0
4.1
41.3
106.8
2.76
31.5
4.4
70°
46.4
110.8
2.92
35.9
4.7
80°
51.5
114.7
3.07
40.3
4.9
75°
Part Load Capacities based upon rated flow of 8 GPM of 15% methanol/mass at 850 CFM airflow.
COOLING PART LOAD
Entering Entering
Total
Fluid
Air Temp. Capacity
Temp. (°F)
(°F)
(MBtuH)
HEATING PART LOAD
Sensible
Capacity
(MBtuH)
Sensible
to Total
Ratio
P o w er
Input
(KW)
H eat o f
Rejection EER
(MBtuH)
Entering
Fluid
Temp. (°F)
Entering
Leaving
Total
P o w er H eat o f
Air
Air
Capacity
Input Absorption COP
Temp.
Temp.
(MBtuH)
(KW)
(MBtuH)
(°F)
(°F)
50°
30.0
22.8
0.76
0.64
32.2
46.9
60°
27.5
21.4
0.78
0.86
30.5
32.2
25°
16.7
83.2
1.28
12.2
18.6
85.2
1.31
13.9
4.1
22.3
89.3
1.39
17.4
4.7
70°
80°
70° D B
59° WB
25.1
20.1
0.80
1.07
28.8
23.4
30°
22.7
18.7
0.83
1.29
27.1
17.6
40°
65°
3.9
90°
20.2
17.4
0.86
1.51
25.4
13.4
50°
26.0
93.3
1.46
20.9
5.2
100°
17.8
16.0
0.90
1.72
23.7
10.3
60°
29.7
97.3
1.53
24.4
5.7
110°
15.4
14.6
0.95
1.94
22.0
7.9
70°
33.4
101.4
1.61
27.8
6.1
50°
32.3
23.7
0.74
0.64
34.4
50.2
80°
37.1
105.4
1.68
31.3
6.5
60°
29.6
22.3
0.75
0.86
32.6
34.3
25°
16.3
87.8
1.31
11.8
3.7
70°
27.0
20.9
0.77
1.09
30.7
24.9
30°
18.1
89.8
1.35
13.5
3.9
24.4
19.5
0.80
1.31
28.8
18.7
40°
21.8
93.7
1.43
16.9
4.4
90°
21.8
18.1
0.83
1.53
27.0
14.2
25.4
97.7
1.50
20.3
5.0
100°
19.1
16.7
0.87
1.75
25.1
10.9
60°
29.0
101.6
1.58
23.7
5.4
110°
16.5
15.2
0.92
1.97
23.3
8.4
50°
34.6
24.6
0.69
0.66
36.9
36.2
70°
32.7
105.6
1.65
27.0
5.8
60°
31.8
23.2
0.72
0.88
34.8
31.3
80°
36.3
109.5
1.73
30.4
6.2
25°
16.5
93.0
1.47
11.5
3.3
30°
18.3
95.0
1.52
13.1
3.5
22.0
99.0
1.60
16.4
4.0
25.7
103.0
1.68
19.7
4.5
80°
75° D B
63° WB
70°
80°
29.0
80° D B
67° WB
90°
21.7
0.75
1.10
32.8
26.4
50°
26.2
20.2
0.78
1.32
30.7
21.5
23.4
18.8
0.81
1.54
28.6
16.5
40°
70°
75°
100°
20.6
17.3
0.84
1.77
26.6
11.6
50°
110°
17.7
15.8
0.87
1.99
24.5
6.7
60°
29.3
107.0
1.77
22.9
4.8
50°
37.1
25.5
0.69
0.66
39.4
55.8
70°
33.0
111.0
1.85
26.2
5.2
60°
34.1
24.0
0.70
0.89
37.1
38.3
80°
36.7
115.0
1.94
29.5
5.6
70°
31.1
22.5
0.72
1.12
34.9
27.9
80°
90°
85° D B
71° WB
28.1
20.9
0.75
1.34
32.6
20.9
25.0
19.4
0.78
1.57
30.4
16.0
100°
22.0
17.9
0.81
1.79
28.1
12.3
110°
19.0
16.4
0.86
2.02
25.9
9.4
Form No.
Supersedes
Page
S3423-1112
S3423-912
21 of 28
GTC36S1 Matched with GTADP-3642-B (HE37942D175B2505AW) and GTADP-3642-C (HE37942D210B2505AW) -A Coils
Full Load Capacities based upon rated flow of 6 GPM water at 1200 CFM airflow.
COOLING FULL LOAD
HEATING FULL LOAD
Entering Entering
Total
Fluid
Air Temp. Capacity
Temp. (°F)
(°F)
(MBtuH)
Sensible
Capacity
(MBtuH)
Sensible
to Total
Ratio
P o w er
Input
(KW)
H eat o f
Rejection EER
(MBtuH)
Entering
Fluid
Temp. (°F)
Entering
Leaving
Total
P o w er H eat o f
Air
Air
Capacity
Input Absorption COP
Temp.
Temp.
(MBtuH)
(KW)
(MBtuH)
(°F)
(°F)
40°
35.8
25.8
0.72
1.54
41.0
23.2
50°
35.8
26.5
0.74
1.63
41.4
22.0
40°
29.9
88.1
1.83
23.7
4.8
60°
35.8
27.2
0.76
1.72
41.7
20.8
45°
32.5
90.1
1.94
25.9
4.9
35.8
28.0
0.78
1.81
42.0
19.8
50°
35.1
92.1
2.05
28.1
5.0
80°
35.8
27.2
0.76
1.72
41.7
20.8
60°
40.3
96.1
2.27
32.6
5.2
90°
35.8
26.5
0.74
1.63
41.4
22.0
70°
45.5
100.1
2.49
37.0
5.4
100°
35.8
25.8
0.72
1.54
41.0
23.2
80°
50.7
104.1
2.71
41.4
5.5
40°
38.5
26.9
0.70
1.56
43.8
24.7
90°
55.9
108.1
2.93
45.9
5.6
50°
38.5
27.6
0.79
1.65
44.2
23.3
40°
29.2
92.5
1.87
22.8
4.6
60°
38.5
28.4
0.77
1.74
44.5
22.1
45°
31.8
94.5
1.99
25.0
4.7
38.6
29.1
0.75
1.84
44.8
21.0
50°
34.3
96.5
2.10
27.1
4.8
80°
38.5
28.4
0.74
1.74
44.5
22.1
39.4
100.4
2.33
31.4
4.9
90°
38.5
27.6
0.72
1.65
44.2
23.3
100°
38.5
26.9
0.70
1.56
43.8
24.7
70°
44.5
104.3
2.55
35.7
5.1
80°
49.5
108.2
2.78
40.1
5.3
5.4
70°
70°
70° D B
59° WB
75° D B
63° WB
40°
41.3
27.9
0.78
1.58
46.7
26.2
50°
41.4
28.7
0.77
1.67
48.4
24.7
60°
41.4
29.4
0.75
1.77
48.1
23.4
80° D B
67° WB
65°
70°
60°
90°
54.6
112.1
3.00
44.4
40°
29.5
97.8
2.10
22.4
4.1
32.1
99.8
2.23
24.5
4.2
34.7
101.8
2.36
26.6
4.3
39.8
105.7
2.61
30.9
4.5
41.4
30.2
0.73
1.86
47.7
22.3
45°
80°
41.4
29.4
0.71
1.77
47.4
23.4
50°
90°
41.4
28.7
0.69
1.67
47.1
24.7
60°
100°
41.3
27.9
0.67
1.58
46.7
26.2
70°
44.9
109.7
2.87
35.2
4.6
40°
44.3
28.9
0.65
1.60
49.8
27.6
80°
50.1
113.6
3.12
39.4
4.7
50°
44.3
29.7
0.67
1.70
50.1
26.1
90°
55.2
117.6
3.37
43.7
4.8
60°
44.3
30.5
0.69
1.79
50.5
24.7
70°
70°
85° D B
71° WB
44.4
31.3
0.70
1.89
50.8
23.5
80°
44.3
30.5
0.69
1.79
50.5
24.7
90°
44.3
29.7
0.67
1.70
50.1
26.1
100°
44.3
28.9
0.65
1.60
49.8
27.6
75°
Part Load Capacities based upon rated flow of 6 GPM water at 850 CFM airflow.
COOLING PART LOAD
Entering Entering
Total
Fluid
Air Temp. Capacity
Temp. (°F)
(°F)
(MBtuH)
HEATING PART LOAD
Sensible
Capacity
(MBtuH)
Sensible
to Total
Ratio
P o w er
Input
(KW)
H eat o f
Rejection EER
(MBtuH)
Entering
Fluid
Temp. (°F)
Entering
Leaving
Total
P o w er H eat o f
Air
Air
Capacity
Input Absorption COP
Temp.
Temp.
(MBtuH)
(KW)
(MBtuH)
(°F)
(°F)
40°
27.0
21.3
0.79
0.70
29.4
38.8
50°
26.4
20.8
0.79
0.83
29.2
31.9
40°
21.2
88.1
1.24
17.0
5.0
60°
25.8
20.3
0.79
0.96
29.1
26.9
45°
23.1
90.1
1.30
18.7
5.2
25.2
19.8
0.79
1.09
28.9
23.1
50°
24.9
92.2
1.35
20.3
5.4
80°
24.6
19.3
0.78
1.22
28.8
20.1
60°
28.6
96.2
1.46
23.6
5.7
90°
24.0
18.8
0.78
1.35
28.6
17.7
70°
32.3
100.2
1.58
26.9
6.0
100°
23.4
18.3
0.78
1.49
28.5
15.7
80°
36.0
104.2
1.69
30.2
6.3
40°
29.1
22.2
0.76
0.71
31.5
41.2
90°
39.7
108.2
1.80
33.6
6.5
50°
28.4
21.7
0.76
0.84
31.3
33.9
40°
20.8
92.6
1.28
16.4
4.8
27.8
21.2
0.76
0.97
31.1
28.6
45°
22.6
94.6
1.33
18.0
5.0
27.1
20.6
0.76
1.11
30.9
24.5
50°
24.4
96.5
1.39
19.6
5.1
80°
26.5
20.1
0.76
1.24
30.7
21.4
28.0
100.5
1.50
22.8
5.3
70°
31.6
104.4
1.62
26.1
5.5
80°
35.2
108.3
1.73
29.3
5.7
90°
38.8
112.3
1.85
32.5
5.8
40°
21.0
97.9
1.43
16.1
4.3
45°
22.8
99.9
1.50
17.7
4.5
24.6
101.8
1.56
19.3
4.6
28.3
105.8
1.69
22.5
4.9
70°
70° D B
59° WB
60°
70°
75° D B
63° WB
90°
25.8
19.6
0.76
1.37
30.5
18.8
100°
25.1
19.0
0.76
1.50
30.3
16.7
40°
31.2
23.1
0.74
0.72
33.6
43.6
50°
30.5
22.5
0.74
0.85
33.4
35.9
60°
70°
80° D B
67° WB
80°
60°
29.8
22.0
0.74
0.99
33.2
28.7
29.1
21.4
0.74
1.12
32.9
26.0
28.4
20.9
0.73
1.26
32.7
23.2
50°
65°
70°
75°
90°
27.7
20.3
0.73
1.39
32.4
20.5
60°
100°
27.0
19.8
0.73
1.53
32.2
17.7
70°
31.9
109.8
1.82
25.7
5.2
40°
33.4
23.9
0.71
0.73
35.9
46.1
80°
35.6
113.8
1.94
28.9
5.4
50°
32.7
23.3
0.71
0.86
35.6
37.9
90°
39.2
117.7
2.07
32.2
5.5
60°
31.9
22.7
0.71
1.00
35.3
32.0
70°
85° D B
71° WB
31.2
22.1
0.71
1.14
35.1
27.5
80°
30.4
21.6
0.71
1.27
34.8
23.9
90°
29.7
21.0
0.71
1.41
34.5
21.1
100°
28.9
20.4
0.71
1.55
34.2
18.7
Form No.
Supersedes
Page
S3423-1112
S3423-912
22 of 28
GTC48S1 Matched with GTADP-4860-C (HE49948D210B2705AW) -A Coils
Full Load Capacities based upon rated flow of 12 GPM of 15% methanol/mass at 1500 CFM airflow.
COOLING FULL LOAD
HEATING FULL LOAD
Entering Entering
Total
Fluid
Air Temp. Capacity
Temp. (°F)
(°F)
(MBtuH)
Sensible
Capacity
(MBtuH)
Sensible
to Total
Ratio
P o w er
Input
(KW)
H eat o f
Rejection EER
(MBtuH)
Entering
Fluid
Temp. (°F)
Entering
Leaving
Total
P o w er H eat o f
Air
Air
Capacity
Input Absorption COP
Temp.
Temp.
(MBtuH)
(KW)
(MBtuH)
(°F)
(°F)
50°
48.2
38.0
0.79
1.85
54.5
26.1
60°
46.7
36.6
0.78
2.26
54.4
20.7
25°
34.1
86.1
2.93
23.8
3.4
70°
45.2
35.2
0.78
2.67
54.3
16.9
30°
37.2
88.0
3.04
26.5
3.6
43.7
33.7
0.77
3.08
54.2
14.2
40°
43.5
91.8
3.24
32.1
3.9
90°
42.2
32.3
0.77
3.50
54.1
12.1
50°
49.7
95.7
3.44
37.6
4.2
100°
40.7
30.9
0.76
3.91
54.0
10.4
60°
56.0
99.5
3.64
43.2
4.5
110°
39.2
29.5
0.75
4.32
53.9
9.1
70°
62.2
103.4
3.85
48.7
4.7
50°
51.8
39.6
0.76
1.86
58.2
27.9
80°
68.4
107.2
4.05
54.3
5.0
60°
50.2
38.1
0.76
2.28
58.0
22.0
25°
33.4
90.6
3.01
23.1
3.3
70°
48.6
36.6
0.75
2.70
57.8
18.0
30°
36.4
92.5
3.12
25.8
3.4
47.0
35.1
0.75
3.13
57.7
15.0
40°
42.5
96.2
3.33
31.2
3.7
90°
45.4
33.6
0.74
3.55
57.5
12.8
48.6
100.0
3.53
36.5
4.0
100°
43.8
32.2
0.73
3.97
57.3
11.0
110°
42.2
30.7
0.73
4.40
57.2
9.6
60°
54.7
103.8
3.741
41.9
4.3
50°
55.7
41.1
0.74
1.89
62.1
29.4
70°
60.8
107.5
3.95
47.3
4.5
80°
66.9
111.3
4.16
52.7
4.8
25°
33.7
95.8
3.38
22.4
2.9
80°
80°
70° D B
59° WB
75° D B
63° WB
50°
65°
70°
60°
53.9
39.5
0.73
2.32
61.8
23.3
70°
52.2
38.0
0.73
2.74
61.6
19.1
50.5
36.5
0.72
3.16
61.3
16.0
30°
36.8
97.7
3.50
25.0
3.1
43.0
101.5
3.73
30.2
3.4
80°
80° D B
67° WB
90°
48.7
34.9
0.72
3.59
61.0
13.6
40°
100°
47.0
33.4
0.71
4.01
60.7
11.7
50°
49.1
105.3
3.97
35.4
3.6
110°
45.3
31.8
0.70
4.43
60.4
10.2
60°
55.3
109.1
4.20
40.7
3.8
50°
59.7
42.5
0.71
1.92
66.2
31.1
70°
61.5
112.9
4.43
45.9
4.1
60°
57.8
40.9
0.71
2.35
65.8
24.6
80°
67.6
116.8
4.67
51.1
4.3
55.9
39.3
0.70
2.78
65.4
20.1
54.1
37.7
0.70
3.21
65.0
16.9
70°
80°
85° D B
71° WB
90°
52.2
36.1
0.69
3.64
64.7
14.4
100°
50.4
34.5
0.69
4.07
64.3
12.4
110°
48.5
32.9
0.68
4.50
63.9
10.8
75°
Part Load Capacities based upon rated flow of 12 GPM of 15% methanol/mass at 1075 CFM airflow.
COOLING PART LOAD
Entering Entering
Total
Fluid
Air Temp. Capacity
Temp. (°F)
(°F)
(MBtuH)
HEATING PART LOAD
Sensible
Capacity
(MBtuH)
Sensible
to Total
Ratio
P o w er
Input
(KW)
H eat o f
Rejection EER
(MBtuH)
Entering
Fluid
Temp. (°F)
Entering
Leaving
Total
P o w er H eat o f
Air
Air
Capacity
Input Absorption COP
Temp.
Temp.
(MBtuH)
(KW)
(MBtuH)
(°F)
(°F)
50°
35.0
28.8
0.82
1.01
38.5
34.6
60°
33.8
27.9
0.82
1.33
38.4
25.3
25°
23.8
85.5
2.17
16.1
3.2
26.3
87.7
2.21
18.5
3.5
31.3
92.0
2.28
23.3
4.0
36.3
96.3
2.35
28.1
4.5
32.6
26.9
0.83
1.66
38.3
19.7
30°
31.5
26.0
0.83
1.98
38.2
15.9
40°
90°
30.3
25.1
0.83
2.30
38.1
13.2
50°
100°
29.1
24.2
0.83
2.62
38.0
11.1
60°
41.4
100.6
2.43
32.9
5.0
110°
27.9
23.2
0.83
2.95
38.0
9.5
70°
46.4
104.9
2.50
37.7
5.4
50°
37.7
30.0
0.80
1.02
41.1
37.0
80°
51.4
109.2
2.57
42.4
5.9
60°
36.4
29.0
0.80
1.35
41.0
27.0
25°
23.3
90.0
2.23
15.7
3.1
35.1
28.0
0.80
1.68
40.8
20.9
30°
25.7
92.2
2.27
18.0
3.3
40°
30.6
96.4
2.34
22.6
3.8
35.5
100.6
2.42
27.3
4.3
60°
40.4
104.8
2.49
31.9
4.7
70°
45.3
109.0
2.57
36.6
5.2
80°
50.2
113.3
2.64
41.2
5.6
25°
23.5
95.3
2.51
15.2
2.8
30°
26.0
97.4
2.55
17.4
3.0
31.0
101.7
2.63
22.0
3.4
35.9
105.9
2.71
26.5
3.9
70°
80°
70° D B
59° WB
70°
80°
75° D B
63° WB
33.8
27.1
0.80
2.01
40.7
16.9
90°
32.6
26.1
0.80
2.34
40.5
13.9
100°
31.3
25.2
0.80
2.67
40.4
11.7
110°
30.0
24.2
0.81
3.00
40.3
10.0
50°
40.4
31.1
0.77
1.04
44.0
28.6
60°
39.1
30.1
0.77
1.37
43.7
25.4
70°
80°
80° D B
67° WB
90°
50°
37.7
29.1
0.77
1.70
43.5
22.2
36.3
28.1
0.77
2.03
43.3
18.9
35.0
27.1
0.78
2.36
43.0
15.7
40°
65°
70°
75°
100°
33.6
26.1
0.78
2.69
42.8
12.5
50°
110°
32.2
25.1
0.78
3.02
42.5
9.2
60°
40.9
110.2
2.80
31.0
4.3
50°
43.3
32.2
0.74
1.05
46.9
41.1
70°
45.8
114.5
2.88
35.5
4.7
60°
41.9
31.2
0.74
1.39
46.6
30.1
80°
50.8
118.7
2.97
40.0
5.0
70°
40.4
30.1
0.75
1.72
46.3
23.4
80°
90°
85° D B
71° WB
38.9
29.1
0.75
2.06
46.0
18.9
37.5
28.1
0.75
2.40
45.7
15.6
100°
36.0
27.0
0.75
2.73
45.3
13.2
110°
34.5
26.0
0.75
3.07
45.0
11.3
Form No.
Supersedes
Page
S3423-1112
S3423-912
23 of 28
GTC48S1 Matched with GTADP-4860-C (HE49948D210B2705AW) -A Coils
Full Load Capacities based upon rated flow of 7 GPM water at 1500 CFM airflow.
COOLING FULL LOAD
HEATING FULL LOAD
Entering Entering
Total
Fluid
Air Temp. Capacity
Temp. (°F)
(°F)
(MBtuH)
Sensible
Capacity
(MBtuH)
Sensible
to Total
Ratio
P o w er
Input
(KW)
H eat o f
Rejection EER
(MBtuH)
Entering
Fluid
Temp. (°F)
Entering
Leaving
Total
P o w er H eat o f
Air
Air
Capacity
Input Absorption COP
Temp.
Temp.
(MBtuH)
(KW)
(MBtuH)
(°F)
(°F)
40°
47.6
34.3
0.72
2.41
55.8
19.8
50°
47.2
34.6
0.73
2.46
55.6
19.2
40°
37.2
87.9
2.61
28.3
4.2
60°
46.8
34.9
0.75
2.52
55.4
18.6
45°
41.3
90.5
2.81
31.7
4.3
46.4
35.2
0.76
2.57
55.2
18.0
50°
45.5
93.1
3.02
35.2
4.4
80°
46.8
34.9
0.75
2.52
55.4
18.6
60°
53.9
98.3
3.43
42.2
4.6
90°
47.2
34.6
0.73
2.46
55.6
19.2
70°
62.2
103.4
3.85
49.1
4.7
100°
47.6
34.3
0.72
2.41
55.8
19.8
80°
70.6
108.6
4.26
56.0
4.9
40°
51.2
35.8
0.70
2.44
59.5
21.0
90°
78.9
113.7
4.67
63.0
4.9
50°
50.8
36.0
0.76
2.49
59.3
20.4
40°
36.3
92.4
2.68
27.2
4.0
60°
50.4
36.3
0.75
2.55
59.1
19.8
45°
40.4
94.9
2.89
30.6
4.1
49.9
36.6
0.73
2.60
58.8
19.2
50°
44.5
97.5
3.10
33.9
4.2
70°
70°
70° D B
59° WB
75° D B
63° WB
80°
50.4
36.3
0.72
2.55
59.1
19.8
90°
50.8
36.0
0.71
2.49
59.3
20.4
100°
51.2
35.8
0.70
2.44
59.5
21.0
40°
55.0
37.1
0.74
2.47
63.4
22.3
52.7
102.5
3.52
40.6
4.4
70°
60.8
107.6
3.95
47.4
4.5
80°
69.0
112.6
4.37
54.1
4.7
90°
77.2
117.6
4.80
60.8
4.8
40°
36.7
106.6
3.00
26.5
3.6
20.3
45°
40.9
110.2
3.24
29.8
3.7
45.0
113.8
3.48
33.1
3.8
53.2
120.9
3.96
39.7
3.9
50°
54.5
37.4
0.73
2.53
62.1
21.6
60°
54.1
37.7
0.72
2.58
62.3
20.9
70°
80° D B
67° WB
53.6
38.0
0.71
2.64
62.6
65°
70°
60°
80°
54.1
37.7
0.70
2.58
62.9
20.9
50°
90°
54.5
37.4
0.69
2.53
63.2
21.6
60°
100°
55.0
37.1
0.67
2.47
63.4
22.3
70°
61.5
128.0
4.43
46.4
4.1
40°
58.9
38.4
0.65
2.51
67.5
23.5
80°
69.8
135.1
4.91
53.0
4.2
90°
78.0
142.2
5.39
59.6
4.2
50°
58.4
38.7
0.66
2.56
67.2
22.8
60°
57.9
39.0
0.67
2.62
66.9
22.1
21.5
70°
85° D B
71° WB
57.4
39.3
0.68
2.68
66.6
80°
57.9
39.0
0.67
2.62
66.9
22.1
90°
58.4
38.7
0.66
2.56
67.2
22.8
100°
58.9
38.4
0.65
2.51
67.5
23.5
75°
Part Load Capacities based upon rated flow of 5 GPM water at 1150 CFM airflow.
COOLING PART LOAD
Entering Entering
Total
Fluid
Air Temp. Capacity
Temp. (°F)
(°F)
(MBtuH)
HEATING PART LOAD
Sensible
Capacity
(MBtuH)
Sensible
to Total
Ratio
P o w er
Input
(KW)
H eat o f
Rejection EER
(MBtuH)
Entering
Fluid
Temp. (°F)
Entering
Leaving
Total
P o w er H eat o f
Air
Air
Capacity
Input Absorption COP
Temp.
Temp.
(MBtuH)
(KW)
(MBtuH)
(°F)
(°F)
40°
34.3
27.2
0.79
1.14
38.2
30.1
50°
34.2
26.9
0.79
1.34
38.8
25.6
40°
29.2
83.0
2.13
22.0
4.0
60°
34.1
26.7
0.78
1.53
39.3
22.3
45°
31.7
84.6
2.16
24.3
4.3
33.9
26.5
0.78
1.72
39.8
19.7
50°
34.2
86.1
2.19
26.7
4.6
80°
33.8
26.2
0.78
1.92
40.4
17.6
60°
39.1
89.1
2.25
31.4
5.1
90°
33.7
26.0
0.77
2.11
40.9
15.9
70°
44.0
92.2
2.32
36.1
5.6
70°
70° D B
59° WB
65°
100°
33.6
25.7
0.77
2.31
41.4
14.5
80°
49.0
95.2
2.38
40.9
6.0
40°
36.9
28.3
0.77
1.15
40.9
32.0
90°
53.9
98.3
2.44
45.6
6.5
50°
36.8
28.0
0.76
1.35
41.4
27.2
40°
28.6
94.6
2.19
21.1
3.8
36.6
27.8
0.76
1.55
41.9
23.7
45°
31.0
96.7
2.22
23.4
4.1
36.5
27.5
0.75
1.75
42.5
20.9
50°
33.4
98.8
2.25
25.7
4.3
60°
70°
75° D B
63° WB
80°
36.4
27.3
0.75
1.94
43.0
18.7
90°
36.2
27.0
0.75
2.14
43.5
16.9
100°
36.1
26.8
0.74
2.34
44.1
15.4
40°
39.7
29.4
0.74
1.17
43.6
33.9
38.2
102.9
2.31
30.3
4.6
70°
43.1
107.1
2.38
34.9
4.9
80°
47.9
111.2
2.44
39.5
5.1
90°
52.7
115.4
2.51
44.2
5.4
40°
28.9
99.9
2.45
20.5
3.4
45°
31.3
102.0
2.49
22.8
3.7
33.8
104.1
2.53
25.1
3.9
38.6
108.3
2.60
29.8
4.4
60°
50°
39.5
29.1
0.74
1.37
44.2
28.8
60°
39.4
28.8
0.73
1.57
44.7
24.1
39.2
28.6
0.73
1.77
45.2
22.1
39.1
28.3
0.73
1.97
45.8
20.2
50°
70°
80° D B
67° WB
80°
70°
75°
90°
38.9
28.1
0.72
2.17
46.3
18.3
60°
100°
38.8
27.8
0.72
2.37
46.8
16.4
70°
43.5
112.5
2.67
34.4
4.8
40°
42.5
30.4
0.72
1.19
46.5
35.8
80°
48.4
116.7
2.74
39.0
5.2
50°
42.3
30.1
0.71
1.39
47.1
30.5
90°
53.3
120.9
2.81
43.7
5.5
60°
42.2
29.9
0.71
1.59
47.6
26.5
70°
85° D B
71° WB
42.0
29.6
0.70
1.80
48.1
23.4
80°
41.9
29.3
0.70
2.00
48.7
20.9
90°
41.7
29.0
0.70
2.20
49.2
18.9
100°
41.5
28.8
0.69
2.40
49.7
17.3
Form No.
Supersedes
Page
S3423-1112
S3423-912
24 of 28
GTC60S1 Matched with GTADP-4860-C (HE49948D210B2705AW) -A Coils
Full Load Capacities based upon rated flow of 15 GPM of 15% methanol/mass at 1800 CFM airflow.
COOLING FULL LOAD
HEATING FULL LOAD
Entering Entering
Total
Fluid
Air Temp. Capacity
Temp. (°F)
(°F)
(MBtuH)
Sensible
Capacity
(MBtuH)
Sensible
to Total
Ratio
P o w er
Input
(KW)
H eat o f
Rejection EER
(MBtuH)
Entering
Fluid
Temp. (°F)
Entering
Leaving
Total
P o w er H eat o f
Air
Air
Capacity
Input Absorption COP
Temp.
Temp.
(MBtuH)
(KW)
(MBtuH)
(°F)
(°F)
50°
61.7
43.6
0.71
2.49
70.2
24.8
60°
59.4
42.7
0.72
2.84
69.1
20.9
25°
44.1
87.7
3.77
30.8
3.4
70°
57.1
41.8
0.73
3.20
68.0
17.9
30°
46.4
88.9
3.85
32.9
3.5
54.8
40.9
0.75
3.55
66.9
15.4
40°
51.2
91.3
3.99
37.1
3.7
90°
52.4
40.0
0.76
3.90
65.8
13.4
50°
55.9
93.7
4.14
41.3
4.0
100°
50.1
39.1
0.78
4.26
64.7
11.8
60°
60.6
96.2
4.29
45.5
4.1
110°
47.8
38.3
0.80
4.61
63.6
10.4
70°
65.3
98.6
4.43
49.7
4.3
80°
70° D B
59° WB
65°
50°
66.3
45.4
0.68
2.51
74.9
26.5
80°
70.0
101.0
4.58
53.9
4.5
60°
63.9
44.5
0.70
2.87
73.7
22.2
25°
43.1
92.2
3.88
29.9
3.3
70°
61.4
43.6
0.71
3.24
72.4
19.0
30°
45.4
93.4
3.95
31.9
3.4
58.9
42.6
0.72
3.60
71.2
16.4
40°
50.0
95.7
4.10
36.0
3.6
90°
56.4
41.7
0.74
3.97
69.9
14.2
54.6
98.1
4.25
40.1
3.8
100°
53.9
40.8
0.76
4.33
68.7
12.5
110°
51.4
39.8
0.77
4.69
67.5
11.0
60°
59.2
100.5
4.40
44.2
3.9
50°
71.2
47.1
0.66
2.55
79.9
27.9
70°
63.8
102.8
4.55
48.3
4.1
80°
68.4
105.2
4.70
52.4
4.3
80°
75° D B
63° WB
70°
60°
68.6
46.2
0.67
2.92
78.5
70°
65.9
45.2
0.69
3.28
77.1
20.1
25°
43.6
97.4
4.35
29.0
2.9
63.2
44.2
0.70
3.64
75.7
17.4
30°
45.9
98.6
4.44
31.0
3.0
50.6
101.0
4.60
34.9
3.2
55.2
103.4
4.77
38.9
3.4
80°
80° D B
67° WB
23.5
50°
90°
60.6
43.3
0.71
4.01
74.2
15.1
40°
100°
57.9
42.3
0.73
4.37
72.8
13.2
50°
110°
55.2
41.3
0.75
4.73
71.4
11.7
60°
59.9
105.8
4.94
42.9
3.5
50°
76.3
48.8
0.64
2.59
85.2
29.5
70°
64.5
108.2
5.11
46.8
3.7
60°
73.5
47.8
0.65
2.96
83.6
24.8
80°
69.2
110.6
5.28
50.8
3.9
70°
70.6
46.8
0.66
3.33
82.0
21.2
80°
85° D B
71° WB
90°
67.8
45.8
0.68
3.70
80.4
18.3
64.9
44.8
0.69
4.06
78.8
16.0
100°
62.1
43.8
0.71
4.43
77.2
14.0
110°
59.2
42.8
0.72
4.80
75.6
12.3
75°
Part Load Capacities based upon rated flow of 15 GPM of 15% methanol/mass at 1300 CFM airflow.
COOLING PART LOAD
Entering Entering
Total
Fluid
Air Temp. Capacity
Temp. (°F)
(°F)
(MBtuH)
HEATING PART LOAD
Sensible
Capacity
(MBtuH)
Sensible
to Total
Ratio
P o w er
Input
(KW)
H eat o f
Rejection EER
(MBtuH)
Entering
Fluid
Temp. (°F)
Entering
Leaving
Total
P o w er H eat o f
Air
Air
Capacity
Input Absorption COP
Temp.
Temp.
(MBtuH)
(KW)
(MBtuH)
(°F)
(°F)
50°
46.5
31.1
0.67
1.24
50.7
37.4
60°
44.5
30.6
0.69
1.54
49.8
29.0
25°
30.5
86.7
2.78
20.6
3.2
33.1
88.6
2.83
23.1
3.4
38.4
92.4
2.92
28.1
3.8
43.8
96.2
3.02
33.2
4.2
42.6
30.1
0.71
1.83
48.9
23.3
30°
40.7
29.6
0.73
2.13
47.9
19.1
40°
90°
38.7
29.0
0.75
2.42
47.0
16.0
50°
100°
36.8
28.5
0.77
2.72
46.1
13.5
60°
49.1
100.0
3.11
38.2
4.6
110°
34.9
28.0
0.80
3.01
45.2
11.6
70°
54.4
103.7
3.21
43.2
5.0
50°
50.0
32.4
0.65
1.25
54.2
40.0
80°
59.7
107.5
3.30
48.2
5.3
60°
47.9
31.9
0.67
1.55
53.2
30.9
25°
29.8
91.2
2.86
20.0
3.1
45.8
31.3
0.68
1.85
52.2
24.7
30°
32.4
93.1
2.91
22.5
3.3
40°
70°
80°
70° D B
59° WB
70°
80°
75° D B
63° WB
43.7
30.8
0.70
2.16
51.1
20.3
90°
41.7
30.2
0.73
2.46
50.1
16.9
100°
39.6
29.7
0.75
2.76
49.0
14.3
110°
37.5
29.1
0.78
3.07
48.0
12.2
50°
53.7
33.6
0.62
1.27
58.0
33.5
60°
51.4
33.1
0.64
1.58
56.8
29.8
70°
80°
80° D B
67° WB
90°
26.2
65°
37.6
96.8
3.00
27.3
3.7
42.8
100.5
3.10
32.2
4.0
60°
48.0
104.2
3.20
37.1
4.4
70°
53.2
107.9
3.29
41.9
4.7
80°
58.4
111.6
3.39
46.8
5.1
25°
30.1
96.4
3.21
19.4
2.8
50°
70°
49.2
32.5
0.66
1.88
55.6
47.0
31.9
0.68
2.18
54.4
22.5
30°
32.7
98.3
3.26
21.8
2.9
44.7
31.4
0.70
2.49
53.2
18.9
40°
38.0
102.1
3.37
26.5
3.3
43.2
105.8
3.48
31.2
3.6
75°
100°
42.5
30.8
0.72
2.79
52.0
15.2
50°
110°
40.3
30.2
0.75
3.09
50.8
11.6
60°
48.5
109.5
3.59
36.0
3.9
50°
57.5
34.8
0.61
1.29
61.9
44.5
70°
53.8
113.3
3.70
40.7
4.3
60°
55.1
34.2
0.62
1.60
60.6
34.5
80°
59.0
117.0
3.81
45.4
4.6
70°
52.7
33.6
0.64
1.91
59.2
27.6
80°
85° D B
71° WB
50.3
33.1
0.66
2.21
57.9
22.7
90°
47.9
32.5
0.68
2.52
56.6
19.0
1 00°
45.6
31.9
0.70
2.83
55.2
16.1
110°
43.2
31.3
0.73
3.14
53.9
13.8
Form No.
Supersedes
Page
S3423-1112
S3423-912
25 of 28
GTC60S1 Matched with GTADP-4860-C (HE49948D210B2705AW) -A Coils
Full Load Capacities based upon rated flow of 9 GPM water at 1800 CFM airflow.
COOLING FULL LOAD
HEATING FULL LOAD
Entering Entering
Total
Fluid
Air Temp. Capacity
Temp. (°F)
(°F)
(MBtuH)
Sensible
Capacity
(MBtuH)
Sensible
to Total
Ratio
P o w er
Input
(KW)
H eat o f
Rejection EER
(MBtuH)
Entering
Fluid
Temp. (°F)
Entering
Leaving
Total
P o w er H eat o f
Air
Air
Capacity
Input Absorption COP
Temp.
Temp.
(MBtuH)
(KW)
(MBtuH)
(°F)
(°F)
40°
53.9
39.7
0.74
2.53
62.5
21.3
50°
53.9
40.0
0.74
2.73
63.2
19.7
40°
50.6
91.0
3.72
37.9
4.0
60°
53.8
40.3
0.75
2.92
63.8
18.4
45°
52.5
92.0
3.78
39.5
4.1
53.8
40.5
0.75
3.12
64.4
17.2
50°
54.3
92.9
3.85
41.2
4.1
53.8
40.3
0.75
2.92
63.8
18.4
60°
58.1
94.9
3.98
44.5
4.3
70°
70° D B
59° WB
80°
65°
90°
53.9
40.0
0.74
2.73
63.2
19.7
70°
61.8
96.8
4.11
47.8
4.4
100°
53.9
39.7
0.74
2.53
62.5
21.3
80°
65.5
98.7
4.24
51.0
4.5
40°
58.0
41.3
0.71
2.57
66.7
22.6
90°
69.3
100.6
4.37
54.3
4.6
50°
57.9
41.6
0.74
2.76
67.4
21.0
40°
49.5
95.4
3.82
36.4
3.8
60°
57.9
41.9
0.74
2.96
68.0
19.6
45°
51.3
96.4
3.88
38.0
3.9
57.8
42.2
0.73
3.16
68.6
18.3
50°
53.1
97.3
3.95
39.6
3.9
80°
57.9
41.9
0.72
2.96
68.0
19.6
56.8
99.2
4.09
42.8
4.1
90°
57.9
41.6
0.72
2.76
67.4
21.0
60.4
101.1
4.22
46.0
4.2
80°
64.1
102.9
4.36
49.2
4.3
90°
67.7
104.8
4.49
52.4
4.4
40°
50.0
100.7
4.28
35.4
3.4
70°
75° D B
63° WB
100°
58.0
41.3
0.71
2.57
66.7
22.6
40°
62.3
42.9
0.68
2.6
71.1
23.9
70°
60°
70°
50°
62.2
43.2
0.69
2.80
71.8
22.2
60°
62.2
43.5
0.71
3.0
72.4
20.7
62.1
43.8
0.71
3.20
73.0
19.4
45°
51.8
101.7
4.36
37.0
3.5
53.7
102.6
4.44
38.5
3.5
57.4
104.5
4.59
41.7
3.7
70°
80° D B
67° WB
80°
62.2
43.5
0.70
3.00
72.4
20.7
50°
90°
62.2
43.2
0.69
2.80
71.8
22.2
60°
100°
62.3
42.9
0.69
2.60
71.1
23.9
70°
61.1
106.4
4.74
44.9
3.8
40°
66.7
44.4
0.67
2.64
75.7
25.3
80°
64.8
108.3
4.89
48.1
3.9
50°
66.7
44.7
0.67
2.84
76.4
23.5
90°
68.4
110.2
5.04
51.2
4.0
60°
66.6
45.0
0.68
3.04
77.0
21.9
70°
85° D B
71° WB
66.6
45.3
0.68
3.25
77.6
20.5
80°
66.6
45.0
0.68
3.04
77.0
21.9
90°
66.7
44.7
0.67
2.84
76.4
23.5
100°
66.7
44.4
0.67
2.64
75.7
25.3
75°
Part Load Capacities based upon rated flow of 9 GPM water at 1300 CFM airflow.
COOLING PART LOAD
Entering Entering
Total
Fluid
Air Temp. Capacity
Temp. (°F)
(°F)
(MBtuH)
HEATING PART LOAD
Sensible
Capacity
(MBtuH)
Sensible
to Total
Ratio
P o w er
Input
(KW)
H eat o f
Rejection EER
(MBtuH)
Entering
Fluid
Temp. (°F)
Entering
Leaving
Total
P o w er H eat o f
Air
Air
Capacity
Input Absorption COP
Temp.
Temp.
(MBtuH)
(KW)
(MBtuH)
(°F)
(°F)
40°
45.9
32.8
0.71
1.42
50.7
32.3
50°
44.6
32.2
0.72
1.67
50.3
26.8
40°
25.0
82.8
1.66
19.4
4.4
29.4
86.0
1.93
22.9
4.5
33.9
89.1
2.20
26.3
4.5
42.7
95.4
2.75
33.3
4.6
43.3
31.6
0.73
1.91
49.8
22.6
45°
42.0
31.0
0.74
2.16
49.4
19.5
50°
80°
40.7
30.4
0.75
2.40
48.9
16.9
60°
90°
39.4
29.8
0.76
2.65
48.4
14.9
70°
51.6
101.7
3.29
40.3
4.6
100°
38.1
29.2
0.77
2.90
48.0
13.1
80°
60.4
108.0
3.84
47.3
4.6
40°
49.4
34.2
0.69
1.44
54.3
34.4
90°
69.3
114.3
4.38
54.3
4.6
50°
48.0
33.5
0.70
1.69
53.7
28.5
40°
24.5
82.6
1.70
18.6
4.6
46.6
32.9
0.71
1.94
53.2
24.1
45°
28.8
84.8
1.98
22.0
4.7
45.2
32.3
0.71
2.19
52.6
20.7
50°
33.1
87.0
2.26
25.4
4.3
80°
43.8
31.7
0.72
2.43
52.1
18.0
41.8
91.5
2.82
32.1
4.3
90°
42.4
31.0
0.73
2.68
51.5
15.8
70°
50.4
95.9
3.38
38.9
4.4
100°
41.0
30.4
0.74
2.93
51.0
14.0
40°
53.0
35.5
0.67
1.46
58.0
36.4
80°
59.1
100.4
3.94
45.6
4.4
50°
51.5
34.8
0.68
1.71
57.3
30.1
90°
67.7
104.8
4.50
52.3
4.4
40°
24.7
92.6
1.91
18.2
3.8
45°
29.1
95.7
2.22
21.5
3.8
33.5
98.8
2.54
24.8
3.9
42.2
105.1
3.17
31.4
3.9
60°
70°
70° D B
59° WB
60°
70°
75° D B
63° WB
60°
70°
80° D B
67° WB
80°
60°
50.0
34.2
0.68
1.96
56.7
24.3
48.5
33.5
0.69
2.21
56.1
21.9
47.0
32.9
0.70
2.47
55.4
19.5
50°
65°
70°
75°
90°
45.5
32.2
0.71
2.72
54.8
17.2
60°
100°
44.0
31.6
0.72
2.97
54.1
14.8
70°
51.0
111.3
3.80
38.0
3.9
40°
56.8
36.7
0.65
1.48
61.8
38.5
80°
59.7
117.5
4.42
44.6
4.0
50°
55.2
36.0
0.65
1.73
61.1
31.8
90°
68.4
123.7
5.05
51.2
4.0
60°
53.6
35.3
0.66
1.99
60.4
26.9
23.1
70°
85° D B
71° WB
52.0
34.7
0.67
2.25
59.6
80°
50.4
34.0
0.67
2.50
58.9
20.1
90°
48.8
33.3
0.68
2.76
58.2
17.7
47.2
32.7
0.69
3.02
57.5
15.6
100°
Form No.
Supersedes
Page
S3423-1112
S3423-912
26 of 28
Fossil Fuel ADP Coil Section Dimensions
FIGURE 1B - GTADP****-*
FOSSIL FUEL ADP COIL SECTION DIMENSIONS
DIMENSION GTADP-3642-B
"A"
"B"
"C"
"D"
"E"
"F"
"G"
"A"
3/4"
TYP
SUCTION
CONNECTION
3/4"
TYP
3/4"
TYP
21 1/4"
"C"
5 1/4"
"B"
LIQUID
CONNECTION
"E"
OVERFLOW
MAIN DRAIN
17 5/8"
25 1/2"
7 1/4"
2 1/8"
3 7/8"
13 7/8"
15 5/8"
GTADP-3642-C
GTADP-4860-C
21 1/8"
27 1/2"
6 3/4"
2 1/2"
4 1/4"
16 7/8"
18 5/8"
"D"
OVERFLOW
6 1/16"
MAIN DRAIN
1 5/8"
"F"
"G"
MIS-3119
NOTE: Fossil Fuel coil applications must be controlled with operating
system that will delay restart of compressor if the fossil fuel furnace has
been in operation. This is required to allow cool-down of the refrigerant
bearing coil downstream of the furnace so the refrigerant pressures will be
in acceptable operating range. Failure to do this can result in high pressure
safety shutdown of the heat pump system.
Form No.
Supersedes
Page
S3423-1112
S3423-912
27 of 28
GTA Coil Dimensions if Used Without Cabinet
GTA Coil Dimensions If Used Without Cabinet
COIL
+.125
16.13
HEIGHT
-.000
COATED
DRAIN PAN
2.25
+.125
28.25
DEPTH
- .000
+.125
- .000
+.125
20.50
WIDTH
-.000
SECONDARY DRAIN HOLE
PRIMARY DRAIN HOLE
MIS-2876 A
Duct Heaters for Upflow and Horizontal Installation Only
(Field Installed, Separate Power Supply Required)
Fo r U se
With
All
GTC *S1
Models
D uct
H eater
P art N umber
H eater
P ackage
8604-080
MR812-5-1
8604-081
MR816-9.8-1
240 Vo lts
208 Vo lts
Maximum
H AC R
C ircuit
B reaker
Field Wire
Siz e
+
KW
Amps
B TU H
KW
Amps
B TU H
Minimum
C ircuit
Ampacity
240/208-60-1
5.0
20.8
17,065
3.75
18.0
12,799
26.0
30
#10
240/208-60-1
9.8
40.8
33,447
7.35
35.3
25,086
52.0
60
#6
8604-082
240/208-60-1
MR1218-14.7-1
14.7
61.2
50,171
11.0
52.9
37,543
76.6
80
#4
8604-083
240/208-60-1
MR1218-19.2-1
19.2
81.7
65,530
14.4
69.2
49,147
102.0
125
#1
+ Based upon 75°C copper wire. All wiring must conform to National Electric Code (Latest Edition) and all local codes.
E
D uct H eater
P art N umber
D IMEN SION S IN IN C H ES
A
B
C
D
E
F
8604-080
7
11.5
4.5
8
11.5
8.6
8604-081
7
15.5
4.5
9.5
11.5
8.6
8604-082
11
17.5
5.5
14.5
18
8.6
8604-083
11
17.5
5.5
14.5
18
8.6
AIR FLOW
D
A
C
B
F
MIS-2880
Horizontal – Left to Right Airflow (Shown)
Bard Manufacturing Company, Inc. Due to our continuous product improvement
policy, all specifications subject to change
Bryan, Ohio 43506
without notice.
www.bardhvac.com
Before purchasing this appliance, read important energy
cost and efficiency information available from your retailer.
Form No.
Supersedes
Page
S3423-1112
S3423-912
28 of 28
Form No.
S3423
November, 2012
Supersedes S3423-912