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Water Source Heat Pump
Axiom™ Water-to-Water — EXW5 to 20 Tons – 60 Hz
March 2020 WSHP-PRC022F-EN
Product Catalog
©2020 Trane WSHP-PRC022F-EN
Introduction
Similar to a small reverse cycle chiller, a water-to-water heat pump contains a source-side water-to-refrigerant heat exchanger, and a load-side water-to-refrigerant heat exchanger. The source for the water-to-water heat pump is typically connected to a boiler/cooling tower, or a ground-source loop system. During the refrigeration cycle, heat is transferred from the source-side heat exchanger to the load-side heat exchanger, or vice versa. The load-side heat exchanger provides conditioned fluid (hot or cold) to a mechanical device such as radiant systems, hydronic fan coils or fresh air ventilation systems.
The units may be applied in a boiler/cooling tower setting, in a geothermal closed or open loop application, or in a hybrid application.
All units accommodate service access to the controls, and other major components to contribute to greater serviceability and maintainability of the unit.
Each unit is verified for total unit performance before shipping to insure quality standards are inherent in every unit.
Features for the EXW unit:
• High efficiency scroll compressor with vibration mounting isolation
• Co-axial heat exchanger (copper or cupro-nickel option is available on the source-side of the unit only)
• Slender design allows unit to fit through a 36-inch doorway
• Rack-able, modular design
• Low pressure drops
• Microprocessor based 24V electro-mechanical controls (with 100 VA transformer)
Copyright
This document and the information in it are the property of Trane, and may not be used or reproduced in whole or in part without written permission. Trane reserves the right to revise this publication at any time, and to make changes to its content without obligation to notify any person of such revision or change.
Trademarks
All trademarks referenced in this document are the trademarks of their respective owners.
Revision History
• Catalog updated to reflect specific AHRI performance verbiage and logo on back cover
• Features/Benefits - updated Deluxe Controls specification
• Performance Data - updated AHRI performance WLHP, GWHP, GLHP table
• Removed Control Wiring section
• Mechanical Specifications - remove Warranty section (this can be found in accompanying IOM)
Table of Contents
WSHP-PRC022F-EN 3
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
Features and Benefits . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
Accessible Unit Control Box . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
Application Considerations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
Selection Procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
Model Number Descriptions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
General Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
Performance Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
Unit Fan Performance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42
Antifreeze Correction Factors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42Example 1 (Ethylene Glycol): . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42Example 2 (Propylene Glycol): . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42
Electrical Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44
Dimensional Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45
Mechanical Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49
Features and Benefits
Accessible Unit Control Box
The unit control box is accessible through the unit’s front access panel.The unit is equipped with the deluxe 24-volt control package. Components are easily accessible for service, maintenance and start-up. Twenty-four volt thermostat connection is made at the unit terminal strip located in the left corner of the control box.
Anti-Short Cycle Timer
The anti-short cycle timer provides a three minute time delay between compressor stop and compressor restart.
Brown-out Protection
The brown-out protection function measures the input voltage to the controller and halts the compressor operation. Once a brown-out situation has occurred, the anti-short cycle timer will become energized. The general fault contact will not be affected by this condition. The voltage will continue to be monitored until the voltage increases. The compressors will be enabled at this time if all start-up time delays have expired, and all safeties have been satisfied.
Compressor
All units are equipped with a high efficiency scroll compressor to aid in the reduction of sound, increases reliability and to provide efficient operation.
Compressor Disable
The compressor disable relay provides a temporary disable in compressor operation. The signal would be provided from a water loop controller in the system. It would disable the compressor because of low water flow, peak limiting or if the unit goes into an unoccupied state. Once the compressor has been disabled, the anti-short cycle time period will begin. Once the compressor disable signal is no longer present, and all safeties are satisfied, the control will allow the compressor to restart.
Deluxe Controls
The deluxe 24-volt electronic controls provide component protection devices with upgraded features to maximize system performance. The deluxe control offering is unique to Trane’s water-source equipment and is designed to control the unit as well as provide outputs for unit status and fault detection. The microprocessor board is factory wired to a terminal strip to provide all necessary terminals for field connections.
Deluxe 24-volt features include:
• 100 VA transformer
• Compressor contactor
• Compressor lockout relay
• Anti-short cycle
• Compressor protection
• Random start delay
• Brown-out protection
• Low pressure time delay
• Low pressure switch
• High pressure switch
• Compressor delay on start
• Reversing valve coil
4 WSHP-PRC022F-EN
Features and Benefits
• 18-pole terminal strip (for low voltage field wiring)
Expansion Valve
The refrigerant flow metering is made through a thermal expansion valve (TXV). The TXV allows the unit to operate with an entering fluid temperature from 25° F to 120° F on the source-side. The valve precisely meters refrigerant flow through the circuitry to achieve desired heating or cooling.
Unlike cap-tube assemblies, the TXV allows the exact amount of refrigerant required to meet the heat exchanger load demands. This precise metering increases the overall efficiency of the unit.
Filter Drier
Every unit is equipped with a bi-directional filter drier to dehydrate and clean the refrigeration system, adding to the life of the equipment.
Generic Relay
The generic relay is provided for field use. An external Class II 24VAC signal will energize the relay coil on terminals R1 and R2. Terminals C (common), NO (normally open), and NC (normally closed) will be provided for the relay contacts.
Random Start
The random start relay provides a time delay start-up of the compressor when cycling in the occupied mode. A new start delay time between 3 and 10 seconds is applied each time power is enable to the unit.
Refrigeration Circuit
All heat pump designs include: a reversing valve, thermal expansion valve, two water-to-refrigerant heat exchanger (source and load), and a compressor selected for the optimal efficiency of each circuit.
The 10 and 20 ton units incorporate a dual circuit refrigeration design, duplicating the major components listed above.
The unit’s copper tubing is created from a 99% pure copper formation that conforms to the American Society of Testing (ASTM) B743 for seamless, light-annealed processing.
The unit’s copper refrigeration system is designed to be free from contaminants and conditions such as drilling fragments, dirt, or oil. This excludes the possibility of these contaminants from damaging the compressor motor.
Reversing Valve
A system reversing valve (4-way valve) is included with all heat pumps. This valve is piped to be energized in the cooling mode to allow the system to provided heat if valve failure were to occur. Once the valve is energized for cooling, it will remain energized until the control system is turned to the OFF position, or a heating cycle is initiated.
Safety Control
The deluxe microprocessor receives separate input signals from the refrigerant high pressure switch or low suction pressure switch.
WSHP-PRC022F-EN 5
Features and Benefits
In a high pressure situation, the compressor contactor is de-energized, which suspends compressor operation. The control will go into soft lockout mode initializing a three minute time delay and a random start of 3 to 10 second time delays. Once these delays have expired, the unit will be allowed to run. If a high pressure situation occurs within one hour of the first situation, the control will be placed into a manual lockout mode, halting compressor operation, and initiating the general alarm.
In a low temperature situation, the low pressure switch will transition open after the compressor starts. If the switch is open for 45 seconds during compressor start, the unit will go into soft lockout mode initializing a three minute time delay and a random start of 3 to 10 second time delays. Once these delays have expired, the unit will be allowed to run. If the low pressure situation occurs again within 30 minutes, and the device is open for more than 45 seconds, the control will be placed into a manual lockout mode, halting compressor operation, and initiating the general alarm.
The general alarm is initiated when the control goes into a manual lockout mode for either high pressure or low pressure.
Schrader Connections
The connections for the low and high side of the refrigeration system are located conveniently on the unit’s right side behind the front, refrigeration access panel.
Sound
All units are internally walled with 1/2-inch thick dual density, acoustical fiberglass insulation to attenuate compressor noise.
Compressors are internally isolated to reduce vibration. A compressor base plate and full-length channel stiffeners are installed to further reduce vibration.
Unit Description
The cabinet, which allows easy access for installation and service is constructed of heavy gauge steel. The EXW unit includes a galvanized metal finish for maximum durability and corrosive resistive exterior.
Each cabinet design accommodates modular racking of the equipment to incorporate multiple unit installations within a tight or constraining space.
Before shipment, each unit is leak tested, dehydrated, charged with refrigerant and run tested for proper operation. The cabinet insulation meets UL 181 requirements.
Water Connections
The water-in/water-out connections to the water-to-refrigerant heat exchangers are located on the unit’s opposite ends. The source-side, water-to-refrigerant connection and the load side, water-to-refrigerant connections are located at the unit’s back.
The connections are located internal to the unit to help alleviate damage to the water copper piping during shipment or job storage of the units prior to installation. Fittings for the load-side and source-side connections are FPT (female pipe threaded).
6 WSHP-PRC022F-EN
Features and Benefits
Water-to-Refrigerant Coil
The water-to-refrigerant coils for the unit includes a co-axial design.
The co-axial design is a seamless tube-within-a-tube construction. The inner-water tube contains a deep fluted curve to enhance heat transfer and minimize fouling and scaling. It is available in either a copper or cupro-nickel (selectable option) on the source-side heat exchanger, and a copper only on the load-side heat exchanger. The outer refrigerant tube is made from steel material. The coil is leak tested to assure there is no cross leakage between the water tube and the refrigerant gas (steel tube) coil.
WSHP-PRC022F-EN 7
Application Considerations
Flexibility
The high efficiency water-to-water heat pump system is versatile for installation in boiler/cooling tower applications, as well as ground-source (geothermal) applications. The system design may employ either a central pumping design, or a distributed pumping design.
A central pumping design involves a single pump design, usually located within a basement or mechanical room to fulfill pumping requirements for the entire building system. An auxiliary pump is typically applied to lessen the likelihood of system downtime if the main pump malfunctions.
A distributed pumping system contains a single pump module connected directly to the units supply and return. This module is field installed and piped to the unit. This design requires individual pump modules specifically sized for each water-source heat pump.
Advantages of Geothermal
The advantages of a geothermal heat pump system can literally cut a business’ heating and cooling costs by 30 to 40-percent. The units are durable, and typically last longer than conventional systems because they are protected from harsh outdoor weather conditions, because the unit is installed indoors and the loop underground. (According to ASHRAE, the estimated service life for a commercial water-to-air heat pump is 19-years.)
Geothermal heat pumps have fewer mechanical components, making them more reliable and less prone to failure. Manufacturers of the loop materials guarantee their products for up to 25-years, with no maintenance required.
Geothermal heat pumps work toward the preservation of the environment by reducing the environmental impacts of electric power generation.
A ground source (geothermal) system consist of:
• a ground water heat pump
• a closed loop ground heat exchanger made of high density polyethylene pipe (guaranteed 25- years or more by many manufacturers); and
• a low wattage circulating pump(s)
The fluctuating temperatures of fluid from the earth are more stable than air, allowing the equipment to operate at a lower discharge pressure and use fewer kilowatts. The constant earth temperature will heat or cool the fluid running through buried polyethylene pipe to provide heating and cooling to a building.
A geothermal loop can be installed either horizontally or vertically. Vertical loops require less overall land area to reject (i.e., sink) the excess heat from the building. Horizontal loops require trenches in the ground spanning a larger overall land area.
Although external piping is the responsibility of the installer and/or piping manufacturer, many electric utilities and rural electric cooperatives are offering monetary incentives to install geothermal systems. Utility companies offer the incentives because of reduced peak loads that flatten out their demand curve over time, and save them money. These savings are ultimately transferred to the consumer.
8 WSHP-PRC022F-EN
Application Considerations
Figure 2. Hybrid loop
Source vs. Load
The water-to-water heat pump contains two water-to-refrigerant heat exchangers. The two heat exchangers enable the system to be divided into a source and load separation.
The source-side heat exchanger performs as a standard water-to-air heat pump system. The source is typically supplied through a cooling tower, boiler, closed loop, or open well system. During the refrigeration cycle, heat is transferred from the source-side heat exchanger to the load-side heat exchanger.
The load-side heat exchanger takes the place of a DX (direct expansion) air coil. It provides treated fluid (hot or cold) to a mechanical device. These mechanical devices include designs such as radiant slab heating, hydronic coils, or fresh air ventilation units.
See below for a basic schematic of source-side verses load-side of a water-to-water system.
Figure 3. Source vs. load
Fluid traveling TO or FROM a cooling
tower, boiler, ground loop,or open well.
Fluid trTO or FRO
tower, boileror ope
WATER-IN(SOURCE SIDE)
WATER-OUT(SOURCE SIDE)
WATER-IN(LOAD SIDE)
WATER-OUT(LOAD SIDE)
Fluid travelingTO or FROM a mechanicaldevice such as flooring,
concrete slab, orhydronic coil.
WATER-TO-WATERHEAT PUMP
WSHP-PRC022F-EN 9
Application Considerations
Unit Installation
Installation of the water-to-water is made easier through its unique compact design. The units are typically racked in a mechanical room or penthouse allowing easy access to the units and other mechanical equipment.
Service access to these units is through the unit front panel for most major components.
Geothermal Integrated System
The water-to-water heat pump is highly efficient in service station applications.
This integrated system design takes advantage of the earths relatively constant temperature (45°F to 70°F) to space condition the building. In addition, appliances such as freezers, ice makers and display coolers may be added to the loop for further gains in the reduction of consumed energy.
Cold climates may take an even greater advantage of the heat rejected by the stores refrigeration equipment and space conditioning heat pumps. This rejected heat may be used by Trane’s water-to-water heat pump(s) to heat water for a car wash and melt ice off of a driveway (allowing the car wash to remain open all winter).
This integrated system also eliminates thermal short circuits between the intakes and the exhausts of an air cooled refrigeration system.
Typical Benefits include:
• Annual energy savings means lower operational costs.
• Takes advantage of the earths constant temperature rather than high fluctuation of ambient temperature.
• Heat energy rejected from the space conditioner can be utilized for ice or snow melting of the parking lot in colder climates.
• Two or three year estimated payback on installation costs.
Figure 4. Geothermal design in a service station application
10 WSHP-PRC022F-EN
Application Considerations
Water-to-Water and Fresh Air Ventilation
Geothermal energy systems take advantage of the fact that subsurface earth temperatures are constant year round, which makes the earth an ideal heat source and heat sink for heat pumps.
The following water-to-water and fresh air ventilation image goes further than just space heating and cooling. Fresh air ventilation is achieved by using Trane’s water-to-water units teamed with a M-Series Climate Changer air handler, and exhaust air unit to meet total building requirements.
In the cooling season, the load-side water from the heat pumps is circulated through a hydronic coil in the M-Series unit to provide cooling and dehumidification. The source-side water is used to provide reheat energy to temper the ventilated air in accordance with the building needs. After leaving the reheated hydronic coil, the condenser water is then returned to the building loop for further heat rejection.
In heating, the water-to-water units switch to hot water generation. The water for ventilation air tempering circulates through the hydronic coil to the exhaust unit to pick up heat from the building exhaust airstream. The water then circulates through the water-to-water heat pumps for further heat introduction before being used by the makeup air unit hydronic coil to heat the makeup air to maintain building requirements. This ventilation system incorporates its own circulating pumps to pull system water off the loop and return it. There is no need for additional heat injection using boilers for this system. For a mechanical schematic, reference the fresh air ventilation drawing.
Typical Benefits include:
• Annual energy savings means lower energy costs.
• Building comfort and climate control
• Energy recovery
Figure 5. Water-to-water and fresh air ventilation
WSHP-PRC022F-EN 11
Application Considerations
Figure 6. Fresh air ventilation mechanical schematic
EXHAUST AIR
AIRHANDLER
OUTSIDEAIRHEAT RECOVERY
COIL
AIRHANDLER
EXH
AU
ST
AIR
FRO
M T
OIL
ET R
MS
FRES
H A
IRTO
HEA
T PU
MPS
EXW
EXW
EXW
EXW
BALL VALVE
SUPPLY
RETURN
EXPANSIONTANK
HANDPUMP
DRAINVALVE
PRESSURERELIEFVALVE
AUTOMATICAIR VENT
HOT/COLD WATER COIL
DEHUMIDIFICATIONCOIL
THREE WAYVALVE
THREE WAYVALVE
12 WSHP-PRC022F-EN
WSHP-PRC022F-EN 13
Selection Procedure
Unit performance for the EXW equipment is tabulated under ANSI/AHRI/ASHRAE/ISO 13256-2. To select unit(s):
1. Determine the system design conditions for both the source and load-side(s) of the equipment.
Note: Entering liquid temperatures for the source-side can be 25°F to 120°F, and for the load-side, 50°F to 120°F.
2. Define the selection parameters. (i.e. entering water temperature (EWT), fluid flow rate, and fluid pressure drop.
3. Determine unit requirements. (i.e. total cooling capacity/total heating capacity).
4. Refer to the performance data tables and select possible units.
When making unit selections, there are a few considerations that need to be made. If unit capacity is greater than largest unit available in the performance section, multiple units may be required to fulfill capacity requirements. When adding two or more together, the system pumping pressure drop may be lowered, perhaps lowering the pump horsepower.
• Staging of capacity to satisfy cooling requirements.
• Pressure drop reduction through the load-side of multiple units, even when a single unit might meet capacity.
• If source-side leaving water temperature falls below 35ºF, antifreeze will be required in the fluid loop. See Antifreeze Correction Factors in the Unit Fan Performance section for antifreeze correction factors.
Model Number Descriptions
Digits 1-3: Unit ConfigurationEXW = Water to Water Heat Pump
Digit 4: Development SequenceE = R-410A
Digits 5-7: Nominal Size (Tons)060 = 5 Tons120 = 10 Tons240 = 20 Tons
Digit 8: Voltage (Volts/Hz/Phase)1 = 208/60/12 = 230/60/13 = 208/60/34 = 460/60/35 = 575/60/38 = 230/60/3
Digit 9: Heat Exchanger (Source Side)1 = Copper-Water Coil2 = Cupro-Nickel Water Coil
Note: Heat exchanger for the load side is copper-water coil only.
7 = Insulated Copper Water Coil/SuctionLine
8 = Insulated Cupro-Ni Water Coil/SuctionLine
Note: Insulated heat exchanger is recommended when EWT<60F.
Digit 10: Current Design Sequence
Digit 11: Refrigeration Circuit0 = Heat Pump
Digit 12: Open Digit
Digit 13: Freeze Protection (Source Side)A = 20°FB = 35°F
Note: The load side will have a 35°F freeze protection.
Digit 14: Open Digit
Digit 15: Open Digit
Digit 16: Open Digit
Digit 17: Control TypeD = Deluxe 24V Control
Digit 18: Tstat Location0 = Field Supplied
14
WSHP-PRC022F-ENWSHP-PRC022F-EN 15
General Data
Table 1. General data 5 to 20 tons
Model Unit Size EXW060 EXW120 EXW240
Width (in)Height (in)Depth (in)
402220
582433
81½30
31 3/8
Compressor Type Scroll Scroll Scroll
Approximate Weight with Pallet (lb) 326 653 1222
Approximate Weight without Pallet (lb) 296 613 1156
Water in/out size (NPTI) inches 1 1.5 2
16 WSHP-PRC022F-EN
Performance DataP
erfo
rman
ce D
ata
Tab
le 2
.A
NS
I/A
HR
I/A
SH
RA
E/I
SO
1325
6-2
WLH
P, G
WH
P a
nd
GLH
P p
erfo
rman
ce -
5, 1
0, 2
0 T
on
s
Mod
elN
om
Ton
s
Wat
er L
oop
Hea
t P
um
pG
rou
nd
Wat
er H
eat
Pu
mp
Gro
un
d W
ater
Hea
t P
um
p
Coo
lin
gH
eati
ng
Co
olin
gH
eati
ng
Co
olin
gH
eati
ng
Ind
oor
53
.6°F
Ind
oor
10
4°F
Ind
oor
53
.6°F
Ind
oor
10
4°F
Ind
oor
53
.6°F
Ind
oor
10
4°F
Ou
tdo
or
86
°FO
utd
oor
68
°FO
utd
oor
59
°FO
utd
oor
50
°FO
utd
oo
r 7
7°F
Ou
tdoo
r 5
0°F
Cap
acit
y B
tuh
EER
B
tuh
/WC
apac
ity
Btu
hC
OP
Cap
acit
y B
tuh
EER
B
tuh
/W
Cap
acit
y B
tuh
CO
PC
apac
ity
Btu
hEE
R
Btu
h/
WC
apac
ity
Btu
hC
OP
EXW
060
5 5
2,10
0 12
.73
74,
100
4.30
56,
900
19.5
7 6
0,90
0 3.
60 5
4,00
0 14
.73
48,
100
2.80
EXW
120
10 1
05,1
00
12.0
9 1
39,4
00
3.90
118
,700
19
.05
118
,400
3.
30 1
10,1
00
14.2
0 9
5,30
0 2.
60
EXW
240
20 1
92,3
00
13.5
0 2
62,7
00
4.10
221
,300
20
.60
224
,200
3.
60 2
04,0
00
15.7
0 1
72,6
00
2.80
No
te:
Rate
d in
acc
orda
nce
with
AN
SI/
AH
RI/
ASH
RAE/
ISO
132
56-2
.
Tab
le 3
.C
oo
ling
cap
acit
ies
5 to
ns
- E
XW
060
Sou
rce
Load
Flo
w 7
.5 G
PM
Flo
w 1
2.5
GP
MFl
ow
17
.5 G
PM
EWT
°FFl
ow
G
PM
WP
D
FTEW
T°F
TC
Mb
tuh
Po
wer
kWH
R
Mb
tuh
LWT
°F
EER
WP
D
FTT
C
Mb
tuh
Po
wer
kW
HR
M
btu
hLW
T
°FEE
RW
PD
FT
TC
M
btu
hP
ow
er
kWH
R
Mb
tuh
LWT
°F
EER
WP
D
FT
507.
52.
950
49.0
2.44
57.3
36.9
20.1
3.6
54.0
2.46
62.4
41.4
21.9
8.7
56.6
2.48
65.0
43.5
22.8
15.7
5012
.57.
050
50.6
2.26
58.3
36.5
22.4
3.6
55.7
2.29
63.5
41.1
24.4
8.7
58.4
2.30
66.3
43.3
25.4
15.7
5017
.513
.050
51.2
2.19
58.7
36.3
23.3
3.6
56.5
2.22
64.0
41.0
25.5
8.7
59.2
2.23
66.8
43.2
26.5
15.7
507.
52.
960
57.6
2.47
66.0
44.6
23.3
3.5
63.5
2.50
72.0
49.8
25.4
8.4
66.5
2.51
75.1
52.4
26.5
15.2
5012
.57.
060
59.5
2.29
67.3
44.1
25.9
3.5
65.6
2.32
73.5
49.5
28.3
8.4
68.7
2.33
76.7
52.1
29.5
15.2
5017
.513
.060
60.3
2.23
67.9
43.9
27.1
3.5
66.4
2.25
74.1
49.4
29.5
8.4
69.6
2.26
77.3
52.0
30.8
15.2
507.
52.
970
67.2
2.52
75.8
52.1
26.7
3.3
74.1
2.55
82.7
58.2
29.1
8.2
77.6
2.56
86.3
61.1
30.3
14.8
5012
.57.
070
69.4
2.34
77.3
51.5
29.7
3.3
76.5
2.36
84.5
57.8
32.4
8.2
80.1
2.38
88.2
60.8
33.7
14.8
5017
.513
.070
70.3
2.27
78.0
51.3
31.0
3.3
77.5
2.29
85.3
57.6
33.8
8.2
81.2
2.31
89.0
60.7
35.2
14.8
507.
52.
980
77.8
2.60
86.7
59.2
29.9
3.3
85.8
2.63
94.8
66.3
32.6
8.0
89.9
2.65
98.9
69.7
34.0
14.4
5012
.57.
080
80.4
2.41
88.6
58.6
33.3
3.3
88.6
2.44
96.9
65.8
36.3
8.0
92.8
2.46
101.
269
.437
.814
.4
5017
.513
.080
81.4
2.34
89.4
58.3
34.7
3.3
89.8
2.37
97.8
65.6
37.9
8.0
94.0
2.38
102.
269
.339
.514
.4
507.
52.
985
83.6
2.66
92.7
62.7
31.4
3.2
92.2
2.69
101.
370
.334
.37.
996
.62.
7110
5.8
74.0
35.7
14.2
5012
.57.
085
86.3
2.47
94.8
62.0
35.0
3.2
95.2
2.50
103.
769
.838
.17.
999
.72.
5110
8.3
73.6
39.7
14.2
5017
.513
.085
87.4
2.40
95.6
61.7
36.5
3.2
96.4
2.42
104.
769
.639
.87.
910
1.0
2.44
109.
373
.541
.414
.2
607.
52.
650
46.7
2.83
56.4
37.5
16.5
3.6
51.5
2.86
61.3
41.8
18.0
8.7
54.0
2.88
63.8
43.8
18.7
15.7
6012
.56.
550
48.2
2.63
57.2
37.1
18.4
3.6
53.2
2.66
62.3
41.5
20.0
8.7
55.7
2.67
64.8
43.6
20.8
15.7
6017
.512
.150
48.9
2.55
57.6
37.0
19.2
3.6
53.9
2.58
62.7
41.4
20.9
8.7
56.4
2.59
65.3
43.5
21.8
15.7
Performance Data
WSHP-PRC022F-EN 17
607.
52.
660
55.3
2.87
65.1
45.3
19.3
3.5
60.9
2.90
70.8
50.2
21.0
8.4
63.8
2.92
73.8
52.7
21.9
15.2
6012
.56.
560
57.1
2.66
66.2
44.8
21.4
3.5
62.9
2.69
72.1
49.9
23.4
8.4
65.9
2.71
75.2
52.5
24.3
15.2
6017
.512
.160
57.8
2.58
66.6
44.6
22.4
3.5
63.7
2.61
72.7
49.8
24.4
8.4
66.8
2.63
75.8
52.4
25.4
15.2
607.
52.
670
64.6
2.92
74.6
52.8
22.1
3.3
71.3
2.95
81.3
58.6
24.1
8.2
74.7
2.97
84.8
61.5
25.1
14.8
6012
.56.
570
66.7
2.71
76.0
52.2
24.6
3.3
73.6
2.74
82.9
58.2
26.9
8.2
77.1
2.76
86.5
61.2
28.0
14.8
6017
.512
.170
67.6
2.63
76.6
52.0
25.7
3.3
74.5
2.66
83.6
58.1
28.0
8.2
78.1
2.68
87.2
61.1
29.2
14.8
607.
52.
680
75.0
3.00
85.2
60.0
25.0
3.3
82.7
3.04
93.0
66.8
27.2
8.0
86.6
3.05
97.0
70.1
28.3
14.4
6012
.56.
580
77.4
2.79
86.9
59.4
27.8
3.3
85.4
2.82
95.0
66.3
30.3
8.0
89.4
2.84
99.1
69.8
31.5
14.4
6017
.512
.180
78.4
2.71
87.7
59.1
29.0
3.3
86.5
2.73
95.8
66.2
31.6
8.0
90.6
2.75
100.
069
.632
.914
.4
607.
52.
685
80.6
3.06
91.0
63.5
26.3
3.2
88.8
3.10
99.4
70.8
28.7
7.9
93.0
3.12
103.
774
.429
.914
.2
6012
.56.
585
83.2
2.84
92.9
62.8
29.2
3.2
91.7
2.87
101.
570
.331
.97.
996
.12.
8910
6.0
74.0
33.2
14.2
6017
.512
.185
84.3
2.76
93.7
62.5
30.5
3.2
92.9
2.79
102.
470
.133
.37.
997
.32.
8110
6.9
73.9
34.7
14.2
707.
52.
550
45.9
3.26
57.0
37.8
14.1
3.6
50.6
3.29
61.8
41.9
15.4
8.7
53.0
3.31
64.3
43.9
16.0
15.7
7012
.56.
250
47.4
3.02
57.7
37.4
15.7
3.6
52.2
3.05
62.6
41.6
17.1
8.7
54.7
3.07
65.2
43.7
17.8
15.7
7017
.511
.450
48.0
2.93
58.0
37.2
16.4
3.6
52.9
2.96
63.0
41.5
17.8
8.7
55.4
2.98
65.6
43.7
18.6
15.7
707.
52.
560
54.1
3.29
65.4
45.6
16.4
3.5
59.7
3.33
71.1
50.5
17.9
8.4
62.5
3.35
74.0
52.9
18.7
15.2
7012
.56.
260
55.9
3.06
66.3
45.1
18.3
3.5
61.6
3.09
72.2
50.1
19.9
8.4
64.6
3.11
75.2
52.6
20.8
15.2
7017
.511
.460
56.6
2.97
66.8
44.9
19.1
3.5
62.4
3.00
72.7
50.0
20.8
8.4
65.4
3.02
75.7
52.5
21.7
15.2
707.
52.
570
63.1
3.35
74.6
53.2
18.9
3.3
69.6
3.38
81.2
58.9
20.6
8.2
72.9
3.40
84.6
61.7
21.4
14.8
7012
.56.
270
65.2
3.11
75.8
52.6
21.0
3.3
71.9
3.14
82.6
58.5
22.9
8.2
75.3
3.16
86.1
61.4
23.8
14.8
7017
.511
.470
66.1
3.02
76.3
52.4
21.9
3.3
72.8
3.05
83.2
58.3
23.9
8.2
76.3
3.07
86.8
61.3
24.9
14.8
707.
52.
580
73.0
3.43
84.8
60.5
21.3
3.3
80.5
3.47
92.4
67.1
23.2
8.0
84.4
3.49
96.3
70.4
24.2
14.4
7012
.56.
280
75.4
3.18
86.3
59.9
23.7
3.3
83.2
3.22
94.2
66.7
25.8
8.0
87.1
3.24
98.2
70.0
26.9
14.4
7017
.511
.480
76.4
3.09
87.0
59.6
24.7
3.3
84.2
3.12
94.9
66.5
27.0
8.0
88.3
3.14
99.0
69.9
28.1
14.4
707.
52.
585
78.4
3.49
90.3
64.1
22.5
3.2
86.4
3.53
98.5
71.2
24.5
7.9
90.5
3.55
102.
774
.725
.514
.2
7012
.56.
285
80.9
3.24
92.0
63.4
25.0
3.2
89.2
3.27
100.
470
.727
.37.
993
.53.
3010
4.7
74.3
28.4
14.2
7017
.511
.485
82.0
3.14
92.7
63.1
26.1
3.2
90.4
3.18
101.
270
.528
.47.
994
.73.
2010
5.6
74.2
29.6
14.2
807.
52.
450
44.4
3.72
57.1
38.2
11.9
3.6
48.9
3.76
61.8
42.2
13.0
8.7
51.3
3.78
64.2
44.1
13.6
15.7
8012
.55.
950
45.8
3.45
57.6
37.8
13.3
3.6
50.5
3.49
62.4
41.9
14.5
8.7
52.9
3.51
64.9
44.0
15.1
15.7
8017
.510
.950
46.4
3.35
57.9
37.6
13.9
3.6
51.2
3.39
62.7
41.8
15.1
8.7
53.6
3.41
65.3
43.9
15.7
15.7
807.
52.
460
52.3
3.76
65.2
46.0
13.9
3.5
57.7
3.80
70.7
50.8
15.2
8.4
60.5
3.82
73.5
53.1
15.8
15.2
8012
.55.
960
54.0
3.49
66.0
45.6
15.5
3.5
59.6
3.53
71.6
50.5
16.9
8.4
62.4
3.55
74.5
52.9
17.6
15.2
8017
.510
.960
54.7
3.39
66.3
45.4
16.2
3.5
60.4
3.42
72.0
50.3
17.6
8.4
63.2
3.44
75.0
52.8
18.4
15.2
Tab
le 3
.C
oo
ling
cap
acit
ies
5 to
ns
- E
XW
060
(co
nti
nu
ed)
Sou
rce
Load
Flo
w 7
.5 G
PM
Flo
w 1
2.5
GP
MFl
ow
17
.5 G
PM
EWT
°FFl
ow
G
PM
WP
D
FTEW
T°F
TC
Mb
tuh
Po
wer
kWH
R
Mb
tuh
LWT
°F
EER
WP
D
FTT
C
Mb
tuh
Po
wer
kW
HR
M
btu
hLW
T
°FEE
RW
PD
FT
TC
M
btu
hP
ow
er
kWH
R
Mb
tuh
LWT
°F
EER
WP
D
FT
18 WSHP-PRC022F-EN
Performance Data
807.
52.
470
61.0
3.81
74.0
53.7
16.0
3.3
67.2
3.85
80.4
59.2
17.5
8.2
70.4
3.87
83.6
62.0
18.2
14.8
8012
.55.
970
63.0
3.54
75.0
53.2
17.8
3.3
69.4
3.57
81.6
58.9
19.4
8.2
72.7
3.60
85.0
61.7
20.2
14.8
8017
.510
.970
63.8
3.43
75.5
53.0
18.6
3.3
70.3
3.47
82.2
58.8
20.3
8.2
73.7
3.49
85.6
61.6
21.1
14.8
807.
52.
480
70.4
3.89
83.7
61.2
18.1
3.3
77.6
3.93
91.1
67.6
19.7
8.0
81.3
3.96
94.9
70.7
20.6
14.4
8012
.55.
980
72.7
3.61
85.0
60.6
20.1
3.3
80.2
3.65
92.6
67.2
22.0
8.0
84.0
3.67
96.5
70.4
22.9
14.4
8017
.510
.980
73.7
3.50
85.6
60.4
21.0
3.3
81.2
3.54
93.3
67.0
22.9
8.0
85.1
3.57
97.3
70.3
23.9
14.4
807.
52.
485
75.5
3.95
89.0
64.9
19.1
3.2
83.3
3.99
96.9
71.7
20.9
7.9
87.2
4.02
100.
975
.021
.714
.2
8012
.55.
985
78.0
3.67
90.5
64.2
21.3
3.2
86.0
3.70
98.6
71.2
23.2
7.9
90.1
3.73
102.
874
.724
.214
.2
8017
.510
.985
79.0
3.56
91.1
63.9
22.2
3.2
87.1
3.59
99.4
71.1
24.2
7.9
91.2
3.62
103.
674
.625
.214
.2
907.
52.
450
42.2
4.23
56.6
38.7
10.0
3.6
46.5
4.27
61.1
42.6
10.9
8.7
48.7
4.30
63.4
44.4
11.3
15.7
9012
.55.
750
43.6
3.92
57.0
38.4
11.1
3.6
48.0
3.97
61.6
42.3
12.1
8.7
50.3
3.99
64.0
44.2
12.6
15.7
9017
.510
.450
44.1
3.81
57.1
38.2
11.6
3.6
48.7
3.85
61.8
42.2
12.6
8.7
51.0
3.87
64.2
44.2
13.2
15.7
907.
52.
460
49.8
4.27
64.4
46.7
11.7
3.5
54.9
4.31
69.7
51.2
12.7
8.4
57.6
4.34
72.4
53.4
13.3
15.2
9012
.55.
760
51.5
3.96
65.0
46.3
13.0
3.5
56.7
4.00
70.4
50.9
14.2
8.4
59.4
4.03
73.2
53.2
14.8
15.2
9017
.510
.460
52.1
3.84
65.2
46.1
13.6
3.5
57.5
3.88
70.7
50.8
14.8
8.4
60.2
3.91
73.6
53.1
15.4
15.2
907.
52.
470
58.1
4.31
72.8
54.5
13.5
3.3
64.1
4.36
78.9
59.8
14.7
8.2
67.1
4.39
82.1
62.3
15.3
14.8
9012
.55.
770
60.0
4.01
73.7
54.0
15.0
3.3
66.1
4.05
80.0
59.4
16.3
8.2
69.3
4.07
83.2
62.1
17.0
14.8
9017
.510
.470
60.8
3.89
74.0
53.8
15.6
3.3
67.0
3.93
80.4
59.3
17.1
8.2
70.2
3.95
83.7
62.0
17.8
14.8
907.
52.
480
67.1
4.39
82.1
62.1
15.3
3.3
74.0
4.44
89.2
68.2
16.7
8.0
77.6
4.47
92.8
71.1
17.4
14.4
9012
.55.
780
69.3
4.08
83.2
61.5
17.0
3.3
76.4
4.12
90.5
67.8
18.5
8.0
80.1
4.15
94.2
70.8
19.3
14.4
9017
.510
.480
70.2
3.96
83.7
61.3
17.7
3.3
77.4
4.00
91.1
67.6
19.4
8.0
81.1
4.02
94.9
70.7
20.2
14.4
907.
52.
485
72.0
4.45
87.2
65.8
16.2
3.2
79.4
4.49
94.7
72.3
17.7
7.9
83.2
4.52
98.6
75.5
18.4
14.2
9012
.55.
785
74.4
4.13
88.4
65.2
18.0
3.2
82.0
4.17
96.2
71.9
19.6
7.9
85.9
4.20
100.
275
.220
.514
.2
9017
.510
.485
75.3
4.01
89.0
64.9
18.8
3.2
83.0
4.05
96.9
71.7
20.5
7.9
87.0
4.08
100.
975
.121
.314
.2
100
7.5
2.3
5039
.54.
7955
.939
.58.
23.
643
.64.
8460
.143
.09.
08.
745
.74.
8762
.344
.89.
415
.7
100
12.5
5.6
5040
.84.
4556
.039
.19.
23.
645
.04.
5060
.342
.810
.08.
747
.14.
5362
.644
.610
.415
.7
100
17.5
10.0
5041
.34.
3256
.139
.09.
63.
645
.64.
3660
.542
.710
.48.
747
.84.
3962
.844
.510
.915
.7
100
7.5
2.3
6046
.94.
8363
.347
.59.
73.
551
.74.
8868
.351
.710
.68.
454
.14.
9170
.953
.811
.015
.2
100
12.5
5.6
6048
.44.
4863
.747
.110
.83.
553
.44.
5368
.851
.511
.88.
455
.94.
5671
.553
.612
.315
.2
100
17.5
10.0
6049
.04.
3563
.946
.911
.33.
554
.04.
4069
.151
.412
.38.
456
.64.
4271
.753
.512
.815
.2
100
7.5
2.3
7054
.84.
8771
.455
.411
.23.
360
.44.
9277
.260
.312
.38.
263
.34.
9680
.262
.812
.814
.8
100
12.5
5.6
7056
.64.
5272
.054
.912
.53.
362
.44.
5778
.060
.013
.68.
265
.44.
6081
.162
.514
.214
.8
100
17.5
10.0
7057
.34.
3972
.354
.713
.13.
363
.24.
4478
.359
.914
.28.
266
.24.
4681
.462
.414
.814
.8
Tab
le 3
.C
oo
ling
cap
acit
ies
5 to
ns
- E
XW
060
(co
nti
nu
ed)
Sou
rce
Load
Flo
w 7
.5 G
PM
Flo
w 1
2.5
GP
MFl
ow
17
.5 G
PM
EWT
°FFl
ow
G
PM
WP
D
FTEW
T°F
TC
Mb
tuh
Po
wer
kWH
R
Mb
tuh
LWT
°F
EER
WP
D
FTT
C
Mb
tuh
Po
wer
kW
HR
M
btu
hLW
T
°FEE
RW
PD
FT
TC
M
btu
hP
ow
er
kWH
R
Mb
tuh
LWT
°F
EER
WP
D
FT
Performance Data
WSHP-PRC022F-EN 19
100
7.5
2.3
8063
.54.
9480
.363
.112
.83.
370
.05.
0087
.068
.814
.08.
073
.35.
0390
.571
.614
.614
.4
100
12.5
5.6
8065
.54.
5981
.262
.514
.33.
372
.34.
6488
.168
.415
.68.
075
.74.
6791
.671
.316
.214
.4
100
17.5
10.0
8066
.44.
4581
.662
.314
.93.
373
.24.
5088
.668
.316
.38.
076
.74.
5392
.171
.216
.914
.4
100
7.5
2.3
8568
.15.
0085
.266
.813
.63.
275
.15.
0592
.373
.014
.97.
978
.75.
0896
.076
.015
.514
.2
100
12.5
5.6
8570
.34.
6486
.266
.215
.23.
277
.64.
6993
.672
.616
.57.
981
.34.
7297
.475
.717
.214
.2
100
17.5
10.0
8571
.34.
5086
.666
.015
.83.
278
.64.
5594
.172
.417
.37.
982
.34.
5897
.975
.618
.014
.2
110
7.5
2.2
5036
.65.
4255
.140
.26.
83.
640
.45.
4859
.143
.57.
48.
742
.35.
5261
.145
.27.
715
.7
110
12.5
5.4
5037
.85.
0355
.039
.97.
53.
641
.75.
0959
.043
.38.
28.
743
.75.
1261
.145
.08.
515
.7
110
17.5
9.7
5038
.34.
8855
.039
.87.
83.
642
.24.
9459
.143
.28.
58.
744
.24.
9761
.244
.98.
915
.7
110
7.5
2.2
6043
.75.
4562
.348
.48.
03.
548
.15.
5167
.052
.38.
78.
450
.45.
5569
.454
.29.
115
.2
110
12.5
5.4
6045
.15.
0662
.448
.08.
93.
549
.75.
1267
.252
.09.
78.
452
.15.
1569
.754
.010
.115
.2
110
17.5
9.7
6045
.74.
9162
.447
.89.
33.
550
.44.
9767
.351
.910
.18.
452
.85.
0069
.854
.010
.615
.2
110
7.5
2.2
7051
.35.
4970
.056
.39.
33.
356
.55.
5575
.561
.010
.28.
259
.25.
5878
.363
.210
.614
.8
110
12.5
5.4
7053
.05.
1070
.455
.910
.43.
358
.45.
1576
.060
.711
.38.
261
.25.
1978
.963
.011
.814
.8
110
17.5
9.7
7053
.74.
9570
.555
.710
.83.
359
.25.
0076
.260
.511
.88.
262
.05.
0379
.162
.912
.314
.8
110
7.5
2.2
8059
.65.
5578
.664
.110
.73.
365
.75.
6184
.969
.511
.78.
068
.95.
6588
.272
.112
.214
.4
110
12.5
5.4
8061
.65.
1679
.263
.611
.93.
367
.95.
2185
.769
.113
.08.
071
.15.
2589
.071
.913
.614
.4
110
17.5
9.7
8062
.45.
0079
.563
.412
.53.
368
.85.
0686
.069
.013
.68.
072
.05.
0989
.471
.814
.214
.4
110
7.5
2.2
8564
.15.
6083
.267
.911
.43.
270
.75.
6690
.073
.712
.57.
974
.15.
7093
.576
.513
.014
.2
110
12.5
5.4
8566
.25.
2084
.067
.312
.73.
273
.05.
2690
.973
.313
.97.
976
.55.
2994
.576
.314
.514
.2
110
17.5
9.7
8567
.15.
0584
.367
.113
.33.
273
.95.
1091
.373
.214
.57.
977
.55.
1395
.076
.115
.114
.2
120
7.5
2.0
5033
.66.
1254
.541
.05.
53.
637
.06.
1958
.144
.16.
08.
738
.86.
2360
.045
.66.
215
.7
120
12.5
5.2
5034
.75.
6954
.140
.86.
13.
638
.25.
7557
.843
.96.
68.
740
.05.
7859
.845
.46.
915
.7
120
17.5
9.3
5035
.15.
5254
.040
.66.
43.
638
.75.
5857
.843
.86.
98.
740
.65.
6159
.745
.47.
215
.7
120
7.5
2.0
6040
.46.
1561
.449
.26.
63.
544
.56.
2165
.752
.97.
28.
446
.76.
2568
.054
.77.
515
.2
120
12.5
5.2
6041
.75.
7161
.248
.97.
33.
546
.05.
7765
.752
.68.
08.
448
.25.
8168
.054
.58.
315
.2
120
17.5
9.3
6042
.25.
5461
.248
.77.
63.
546
.65.
6065
.752
.58.
38.
448
.85.
6368
.054
.48.
715
.2
120
7.5
2.0
7047
.76.
1868
.857
.37.
73.
352
.66.
2473
.961
.68.
48.
255
.16.
2876
.663
.78.
814
.8
120
12.5
5.2
7049
.35.
7468
.956
.98.
63.
354
.45.
8074
.161
.39.
48.
256
.95.
8376
.963
.59.
814
.8
120
17.5
9.3
7049
.95.
5768
.956
.79.
03.
355
.15.
6374
.361
.29.
88.
257
.75.
6677
.063
.410
.214
.8
120
7.5
2.0
8055
.86.
2377
.165
.18.
93.
361
.56.
3083
.070
.29.
88.
064
.46.
3486
.172
.610
.214
.4
120
12.5
5.2
8057
.65.
7977
.364
.610
.03.
363
.55.
8583
.569
.810
.98.
066
.55.
8986
.672
.411
.314
.4
120
17.5
9.3
8058
.35.
6277
.564
.410
.43.
364
.35.
6883
.769
.711
.38.
067
.45.
7186
.972
.311
.814
.4
Tab
le 3
.C
oo
ling
cap
acit
ies
5 to
ns
- E
XW
060
(co
nti
nu
ed)
Sou
rce
Load
Flo
w 7
.5 G
PM
Flo
w 1
2.5
GP
MFl
ow
17
.5 G
PM
EWT
°FFl
ow
G
PM
WP
D
FTEW
T°F
TC
Mb
tuh
Po
wer
kWH
R
Mb
tuh
LWT
°F
EER
WP
D
FTT
C
Mb
tuh
Po
wer
kW
HR
M
btu
hLW
T
°FEE
RW
PD
FT
TC
M
btu
hP
ow
er
kWH
R
Mb
tuh
LWT
°F
EER
WP
D
FT
20 WSHP-PRC022F-EN
Performance Data
120
7.5
2.0
8560
.16.
2881
.569
.09.
63.
266
.36.
3487
.974
.410
.47.
969
.46.
3891
.277
.110
.914
.2
120
12.5
5.2
8562
.15.
8381
.968
.410
.73.
268
.45.
8988
.574
.111
.67.
971
.75.
9391
.976
.812
.114
.2
120
17.5
9.3
8562
.95.
6582
.268
.211
.13.
269
.35.
7188
.873
.912
.17.
972
.65.
7592
.376
.712
.614
.2
For
AN
SI/
AH
RI/
ASH
RAE/
ISO
1325
6-2
cert
ified
rat
ings
, re
fer
to t
he A
NSI/
AH
RI/
ASH
RAE/
ISO
1325
6-2
WLH
P, G
WH
P an
d G
LHP
perf
orm
ance
tab
le.
EWT=
Ent
erin
g W
ater
Tem
pera
ture
; LW
T =
Lea
ving
Wat
er T
empe
ratu
re W
PD =
Wat
ersi
de P
ress
ure
Dro
p; T
C =
Tot
al C
oolin
g Cap
acity
HA =
Hea
t of
Abs
orpt
ion;
CO
P =
Coe
ffic
ient
of
Perf
orm
ance
; G
PM =
Gal
lons
per
Min
ute;
Sou
rce
is s
omet
imes
cal
led
the
outd
oor
side
; Lo
ad is
som
etim
es c
alle
d th
e in
door
sid
e.
Tab
le 3
.C
oo
ling
cap
acit
ies
5 to
ns
- E
XW
060
(co
nti
nu
ed)
Sou
rce
Load
Flo
w 7
.5 G
PM
Flo
w 1
2.5
GP
MFl
ow
17
.5 G
PM
EWT
°FFl
ow
G
PM
WP
D
FTEW
T°F
TC
Mb
tuh
Po
wer
kWH
R
Mb
tuh
LWT
°F
EER
WP
D
FTT
C
Mb
tuh
Po
wer
kW
HR
M
btu
hLW
T
°FEE
RW
PD
FT
TC
M
btu
hP
ow
er
kWH
R
Mb
tuh
LWT
°F
EER
WP
D
FT
Tab
le 4
.H
eati
ng
cap
acit
ies
5 to
ns
- E
XW
060
So
urc
e
Load
Flo
w 7
.5 G
PM
Flo
w 1
2.5
GP
MFl
ow
17
.5 G
PM
EWT
°FFl
ow
G
PM
WP
D
FTE
WT
°FH
C
Mb
tuh
Po
wer
kW
HA
M
btu
hLW
T
°FE
ERW
PD
FT
HC
M
btu
hP
ow
er
kWH
A
Mb
tuh
LWT
°F
EER
WP
D
FTH
C
Mb
tuh
Po
wer
kW
HA
M
btu
hLW
T
°FEE
RW
PD
FT
257.
54.
360
43.2
2.83
33.5
71.5
4.5
3.5
43.5
2.70
34.3
67.0
4.7
8.4
43.6
2.67
34.5
65.0
4.8
15.2
2512
.59.
360
46.2
2.83
36.6
72.3
4.8
3.5
46.6
2.71
37.3
67.5
5.0
8.4
46.7
2.67
37.6
65.3
5.1
15.2
2517
.516
.560
47.7
2.83
38.0
72.7
4.9
3.5
48.1
2.71
38.8
67.7
5.2
8.4
48.2
2.67
39.1
65.5
5.3
15.2
257.
54.
370
42.5
3.25
31.4
81.3
3.8
3.3
42.9
3.11
32.2
76.9
4.0
8.2
43.0
3.07
32.5
74.9
4.1
14.8
2512
.59.
370
45.5
3.25
34.4
82.1
4.1
3.3
45.8
3.11
35.2
77.3
4.3
8.2
46.0
3.07
35.5
75.3
4.4
14.8
2517
.516
.570
46.9
3.26
35.8
82.5
4.2
3.3
47.3
3.11
36.7
77.6
4.5
8.2
47.4
3.07
36.9
75.4
4.5
14.8
257.
54.
380
41.8
3.72
29.1
91.1
3.3
3.3
42.1
3.56
30.0
86.7
3.5
8.0
42.2
3.51
30.3
84.8
3.5
14.4
2512
.59.
380
44.7
3.73
32.0
91.9
3.5
3.3
45.1
3.56
32.9
87.2
3.7
8.0
45.2
3.51
33.2
85.2
3.8
14.4
2517
.516
.580
46.1
3.73
33.4
92.3
3.6
3.3
46.5
3.57
34.3
87.4
3.8
8.0
46.6
3.52
34.6
85.3
3.9
14.4
257.
54.
390
41.1
4.26
26.6
101.
02.
83.
241
.44.
0727
.596
.63.
07.
841
.54.
0227
.894
.73.
014
.1
2512
.59.
390
44.0
4.26
29.4
101.
73.
03.
244
.34.
0830
.497
.13.
27.
844
.44.
0230
.795
.13.
214
.1
2517
.516
.590
45.4
4.27
30.8
102.
13.
13.
245
.74.
0831
.897
.33.
37.
845
.84.
0232
.195
.23.
314
.1
257.
54.
310
040
.44.
8723
.811
0.8
2.4
3.1
40.7
4.66
24.8
106.
52.
67.
640
.84.
6025
.110
4.7
2.6
13.7
2512
.59.
310
043
.24.
8826
.611
1.5
2.6
3.1
43.6
4.66
27.7
107.
02.
77.
643
.74.
6028
.010
5.0
2.8
13.7
2517
.516
.510
044
.64.
8828
.011
1.9
2.7
3.1
45.0
4.67
29.0
107.
22.
87.
645
.14.
6029
.410
5.2
2.9
13.7
257.
54.
311
039
.85.
5820
.712
0.6
2.1
3.0
40.1
5.34
21.9
116.
42.
27.
440
.25.
2722
.211
4.6
2.2
13.4
2512
.59.
311
042
.65.
5923
.512
1.3
2.2
3.0
42.9
5.34
24.7
116.
92.
47.
443
.05.
2725
.011
4.9
2.4
13.4
2517
.516
.511
043
.95.
5924
.812
1.7
2.3
3.0
44.3
5.35
26.0
117.
12.
47.
444
.45.
2726
.411
5.1
2.5
13.4
357.
53.
660
50.7
2.81
41.1
73.5
5.3
3.5
51.1
2.69
41.9
68.2
5.6
8.4
51.2
2.66
42.1
65.8
5.6
15.2
3512
.58.
260
54.2
2.82
44.6
74.5
5.6
3.5
54.6
2.69
45.4
68.7
5.9
8.4
54.8
2.66
45.7
66.3
6.0
15.2
3517
.514
.960
55.9
2.82
46.3
74.9
5.8
3.5
56.4
2.70
47.2
69.0
6.1
8.4
56.5
2.66
47.4
66.5
6.2
15.2
357.
53.
670
49.8
3.24
38.7
83.3
4.5
3.3
50.2
3.10
39.6
78.0
4.7
8.2
50.3
3.06
39.9
75.7
4.8
14.8
Performance Data
WSHP-PRC022F-EN 21
3512
.58.
270
53.3
3.24
42.2
84.2
4.8
3.3
53.7
3.10
43.1
78.6
5.1
8.2
53.8
3.06
43.4
76.2
5.2
14.8
3517
.514
.970
55.0
3.25
43.9
84.7
5.0
3.3
55.4
3.11
44.8
78.9
5.2
8.2
55.5
3.06
45.1
76.3
5.3
14.8
357.
53.
680
48.9
3.72
36.2
93.0
3.9
3.3
49.3
3.55
37.2
87.9
4.1
8.0
49.4
3.50
37.5
85.6
4.1
14.4
3512
.58.
280
52.3
3.72
39.6
94.0
4.1
3.3
52.7
3.56
40.6
88.4
4.3
8.0
52.9
3.51
40.9
86.0
4.4
14.4
3517
.514
.980
54.0
3.72
41.3
94.4
4.3
3.3
54.4
3.56
42.3
88.7
4.5
8.0
54.5
3.51
42.6
86.2
4.6
14.4
357.
53.
690
48.0
4.25
33.5
102.
83.
33.
248
.44.
0634
.597
.73.
57.
848
.54.
0134
.895
.53.
514
.1
3512
.58.
290
51.4
4.25
36.9
103.
73.
53.
251
.84.
0737
.998
.33.
77.
851
.94.
0138
.295
.93.
814
.1
3517
.514
.990
53.0
4.25
38.5
104.
13.
73.
253
.44.
0739
.598
.53.
87.
853
.54.
0139
.896
.13.
914
.1
357.
53.
610
047
.14.
8530
.611
2.6
2.8
3.1
47.5
4.64
31.7
107.
63.
07.
647
.64.
5832
.010
5.4
3.0
13.7
3512
.58.
210
050
.44.
8633
.811
3.4
3.0
3.1
50.8
4.65
35.0
108.
13.
27.
650
.94.
5835
.310
5.8
3.3
13.7
3517
.514
.910
052
.04.
8635
.411
3.9
3.1
3.1
52.4
4.65
36.6
108.
43.
37.
652
.64.
5936
.910
6.0
3.4
13.7
357.
53.
611
046
.35.
5527
.312
2.3
2.4
3.0
46.6
5.31
28.5
117.
52.
67.
446
.85.
2428
.911
5.3
2.6
13.4
3512
.58.
211
049
.55.
5530
.612
3.2
2.6
3.0
49.9
5.31
31.8
118.
02.
87.
450
.05.
2432
.211
5.7
2.8
13.4
3517
.514
.911
051
.15.
5632
.112
3.6
2.7
3.0
51.5
5.31
33.4
118.
22.
87.
451
.65.
2433
.711
5.9
2.9
13.4
357.
53.
612
045
.56.
3523
.813
2.1
2.1
2.9
45.9
6.07
25.1
127.
32.
27.
246
.05.
9925
.512
5.3
2.2
13.1
3512
.58.
212
048
.76.
3527
.013
3.0
2.2
2.9
49.1
6.08
28.3
127.
82.
47.
249
.25.
9928
.712
5.6
2.4
13.1
3517
.514
.912
050
.26.
3628
.513
3.4
2.3
2.9
50.6
6.08
29.9
128.
12.
47.
250
.76.
0030
.312
5.8
2.5
13.1
457.
53.
160
58.0
2.83
48.4
75.5
6.0
3.5
58.5
2.71
49.3
69.4
6.3
8.4
58.6
2.67
49.5
66.7
6.4
15.2
4512
.57.
360
62.1
2.83
52.4
76.6
6.4
3.5
62.6
2.71
53.3
70.0
6.8
8.4
62.7
2.67
53.6
67.2
6.9
15.2
4517
.513
.660
64.1
2.84
54.4
77.1
6.6
3.5
64.6
2.71
55.3
70.3
7.0
8.4
64.7
2.67
55.6
67.4
7.1
15.2
457.
53.
170
57.0
3.26
45.8
85.2
5.1
3.3
57.4
3.12
46.8
79.2
5.4
8.2
57.6
3.08
47.0
76.6
5.5
14.8
4512
.57.
370
60.9
3.27
49.8
86.3
5.5
3.3
61.4
3.12
50.8
79.8
5.8
8.2
61.6
3.08
51.1
77.0
5.9
14.8
4517
.513
.670
62.9
3.27
51.7
86.8
5.6
3.3
63.4
3.13
52.7
80.1
5.9
8.2
63.5
3.08
53.0
77.3
6.0
14.8
457.
53.
180
55.9
3.74
43.1
94.9
4.4
3.3
56.3
3.57
44.1
89.0
4.6
8.0
56.4
3.52
44.4
86.4
4.7
14.4
4512
.57.
380
59.8
3.74
47.0
95.9
4.7
3.3
60.2
3.58
48.0
89.6
4.9
8.0
60.4
3.53
48.3
86.9
5.0
14.4
4517
.513
.680
61.6
3.74
48.9
96.4
4.8
3.3
62.1
3.58
49.9
89.9
5.1
8.0
62.3
3.53
50.2
87.1
5.2
14.4
457.
53.
190
54.7
4.26
40.2
104.
63.
83.
255
.24.
0841
.298
.84.
07.
855
.34.
0241
.696
.34.
014
.1
4512
.57.
390
58.6
4.27
44.0
105.
64.
03.
259
.04.
0845
.199
.44.
27.
859
.24.
0345
.496
.84.
314
.1
4517
.513
.690
60.4
4.27
45.8
106.
14.
13.
260
.94.
0846
.999
.74.
47.
861
.04.
0347
.397
.04.
414
.1
457.
53.
110
053
.64.
8637
.011
4.3
3.2
3.1
54.0
4.65
38.2
108.
63.
47.
654
.24.
5938
.510
6.2
3.5
13.7
4512
.57.
310
057
.44.
8740
.811
5.3
3.5
3.1
57.8
4.65
41.9
109.
33.
67.
658
.04.
5942
.310
6.6
3.7
13.7
4517
.513
.610
059
.24.
8742
.611
5.8
3.6
3.1
59.6
4.66
43.8
109.
53.
87.
659
.84.
5944
.110
6.8
3.8
13.7
457.
53.
111
052
.55.
5533
.612
4.0
2.8
3.0
52.9
5.30
34.8
118.
52.
97.
453
.15.
2335
.211
6.1
3.0
13.4
Tab
le 4
.H
eati
ng
cap
acit
ies
5 to
ns
- E
XW
060
(co
nti
nu
ed)
So
urc
e
Load
Flo
w 7
.5 G
PM
Flo
w 1
2.5
GP
MFl
ow
17
.5 G
PM
EWT
°FFl
ow
G
PM
WP
D
FTE
WT
°FH
C
Mb
tuh
Po
wer
kW
HA
M
btu
hLW
T
°FE
ERW
PD
FT
HC
M
btu
hP
ow
er
kWH
A
Mb
tuh
LWT
°F
EER
WP
D
FTH
C
Mb
tuh
Po
wer
kW
HA
M
btu
hLW
T
°FEE
RW
PD
FT
22 WSHP-PRC022F-EN
Performance Data
4512
.57.
311
056
.25.
5537
.312
5.0
3.0
3.0
56.7
5.31
38.5
119.
13.
17.
456
.85.
2338
.911
6.5
3.2
13.4
4517
.513
.611
058
.05.
5539
.012
5.5
3.1
3.0
58.4
5.31
40.3
119.
43.
27.
458
.65.
2440
.711
6.7
3.3
13.4
457.
53.
112
051
.56.
3329
.913
3.7
2.4
2.9
51.9
6.05
31.2
128.
32.
57.
252
.05.
9731
.712
5.9
2.6
13.1
4512
.57.
312
055
.16.
3333
.513
4.7
2.5
2.9
55.5
6.06
34.9
128.
92.
77.
255
.75.
9735
.312
6.4
2.7
13.1
4517
.513
.612
056
.86.
3435
.213
5.2
2.6
2.9
57.3
6.06
36.6
129.
22.
87.
257
.45.
9837
.012
6.6
2.8
13.1
557.
52.
760
65.7
2.87
55.9
77.5
6.7
3.5
66.3
2.75
56.9
70.6
7.1
8.4
66.4
2.71
57.2
67.6
7.2
15.2
5512
.56.
760
70.3
2.87
60.5
78.8
7.2
3.5
70.9
2.75
61.5
71.3
7.6
8.4
71.1
2.71
61.8
68.1
7.7
15.2
5517
.512
.560
72.6
2.87
62.8
79.4
7.4
3.5
73.1
2.75
63.8
71.7
7.8
8.4
73.3
2.71
64.1
68.4
7.9
15.2
557.
52.
770
64.4
3.31
53.1
87.2
5.7
3.3
64.9
3.16
54.1
80.4
6.0
8.2
65.1
3.12
54.4
77.4
6.1
14.8
5512
.56.
770
68.9
3.31
57.6
88.4
6.1
3.3
69.5
3.16
58.7
81.1
6.4
8.2
69.6
3.12
59.0
78.0
6.5
14.8
5517
.512
.570
71.1
3.31
59.8
89.0
6.3
3.3
71.7
3.17
60.9
81.5
6.6
8.2
71.8
3.12
61.2
78.2
6.7
14.8
557.
52.
780
63.0
3.78
50.2
96.8
4.9
3.3
63.6
3.61
51.2
90.2
5.2
8.0
63.7
3.57
51.5
87.3
5.2
14.4
5512
.56.
780
67.5
3.78
54.6
98.0
5.2
3.3
68.0
3.62
55.7
90.9
5.5
8.0
68.2
3.57
56.0
87.8
5.6
14.4
5517
.512
.580
69.6
3.78
56.7
98.6
5.4
3.3
70.1
3.62
57.8
91.2
5.7
8.0
70.3
3.57
58.1
88.0
5.8
14.4
557.
52.
790
61.7
4.30
47.0
106.
44.
23.
262
.24.
1248
.199
.94.
47.
862
.34.
0648
.597
.14.
514
.1
5512
.56.
790
66.0
4.31
51.3
107.
64.
53.
266
.54.
1252
.410
0.6
4.7
7.8
66.7
4.06
52.8
97.6
4.8
14.1
5517
.512
.590
68.1
4.31
53.4
108.
24.
63.
268
.64.
1254
.510
1.0
4.9
7.8
68.8
4.06
54.9
97.9
5.0
14.1
557.
52.
710
060
.34.
8943
.611
6.1
3.6
3.1
60.8
4.68
44.8
109.
73.
87.
660
.94.
6245
.210
7.0
3.9
13.7
5512
.56.
710
064
.54.
8947
.811
7.2
3.9
3.1
65.0
4.68
49.0
110.
44.
17.
665
.24.
6249
.410
7.4
4.1
13.7
5517
.512
.510
066
.54.
9049
.811
7.7
4.0
3.1
67.1
4.69
51.1
110.
74.
27.
667
.24.
6251
.510
7.7
4.3
13.7
557.
52.
711
058
.95.
5639
.912
5.7
3.1
3.0
59.4
5.32
41.2
119.
53.
37.
459
.55.
2541
.611
6.8
3.3
13.4
5512
.56.
711
063
.05.
5744
.112
6.8
3.3
3.0
63.6
5.32
45.4
120.
23.
57.
463
.75.
2545
.811
7.3
3.6
13.4
5517
.512
.511
065
.05.
5746
.012
7.3
3.4
3.0
65.6
5.33
47.4
120.
53.
67.
465
.75.
2547
.811
7.5
3.7
13.4
557.
52.
712
057
.66.
3336
.013
5.4
2.7
2.9
58.1
6.05
37.4
129.
32.
87.
258
.25.
9737
.812
6.7
2.9
13.1
5512
.56.
712
061
.66.
3340
.013
6.4
2.9
2.9
62.1
6.06
41.5
129.
93.
07.
262
.35.
9741
.912
7.1
3.1
13.1
5517
.512
.512
063
.66.
3442
.013
7.0
2.9
2.9
64.1
6.06
43.4
130.
33.
17.
264
.35.
9843
.912
7.3
3.2
13.1
6510
.04.
260
77.3
2.92
67.3
80.6
7.7
3.5
77.9
2.80
68.4
72.5
8.2
8.4
78.1
2.76
68.7
68.9
8.3
15.2
6515
.08.
860
80.8
2.93
70.8
81.5
8.1
3.5
81.4
2.80
71.9
73.0
8.5
8.4
81.6
2.76
72.2
69.3
8.7
15.2
657.
52.
560
74.2
2.92
64.2
79.8
7.4
3.5
74.8
2.80
65.2
72.0
7.8
8.4
74.9
2.76
65.5
68.6
8.0
15.2
657.
52.
570
72.6
3.36
61.1
89.3
6.3
3.3
73.1
3.22
62.2
81.7
6.7
8.2
73.3
3.17
62.5
78.4
6.8
14.8
6512
.56.
370
77.6
3.36
66.2
90.7
6.8
3.3
78.3
3.22
67.3
82.5
7.1
8.2
78.4
3.17
67.6
79.0
7.2
14.8
6517
.511
.770
80.1
3.37
68.6
91.4
7.0
3.3
80.7
3.22
69.7
82.9
7.3
8.2
80.9
3.18
70.1
79.2
7.5
14.8
657.
52.
580
70.9
3.83
57.8
98.9
5.4
3.3
71.5
3.67
59.0
91.4
5.7
8.0
71.6
3.62
59.3
88.2
5.8
14.4
Tab
le 4
.H
eati
ng
cap
acit
ies
5 to
ns
- E
XW
060
(co
nti
nu
ed)
So
urc
e
Load
Flo
w 7
.5 G
PM
Flo
w 1
2.5
GP
MFl
ow
17
.5 G
PM
EWT
°FFl
ow
G
PM
WP
D
FTE
WT
°FH
C
Mb
tuh
Po
wer
kW
HA
M
btu
hLW
T
°FE
ERW
PD
FT
HC
M
btu
hP
ow
er
kWH
A
Mb
tuh
LWT
°F
EER
WP
D
FTH
C
Mb
tuh
Po
wer
kW
HA
M
btu
hLW
T
°FEE
RW
PD
FT
Performance Data
WSHP-PRC022F-EN 23
6512
.56.
380
75.9
3.84
62.8
100.
25.
83.
376
.53.
6763
.992
.26.
18.
076
.63.
6264
.388
.86.
214
.4
6517
.511
.780
78.3
3.84
65.2
100.
96.
03.
378
.93.
6766
.492
.66.
38.
079
.13.
6266
.789
.06.
414
.4
657.
52.
590
69.2
4.35
54.4
108.
54.
73.
269
.84.
1655
.610
1.2
4.9
7.8
69.9
4.11
55.9
98.0
5.0
14.1
6512
.56.
390
74.1
4.36
59.2
109.
85.
03.
274
.74.
1760
.410
1.9
5.3
7.8
74.8
4.11
60.8
98.6
5.3
14.1
6517
.511
.790
76.4
4.36
61.5
110.
45.
13.
277
.04.
1762
.810
2.3
5.4
7.8
77.2
4.11
63.2
98.8
5.5
14.1
657.
52.
510
067
.54.
9350
.711
8.0
4.0
3.1
68.1
4.72
52.0
110.
94.
27.
668
.24.
6552
.410
7.8
4.3
13.7
6512
.56.
310
072
.34.
9455
.411
9.3
4.3
3.1
72.8
4.72
56.7
111.
74.
57.
673
.04.
6657
.110
8.3
4.6
13.7
6517
.511
.710
074
.64.
9457
.711
9.9
4.4
3.1
75.1
4.72
59.0
112.
04.
77.
675
.34.
6659
.410
8.6
4.7
13.7
657.
52.
511
065
.95.
5946
.812
7.6
3.5
3.0
66.4
5.35
48.2
120.
63.
67.
466
.65.
2748
.611
7.6
3.7
13.4
6512
.56.
311
070
.55.
5951
.412
8.8
3.7
3.0
71.0
5.35
52.8
121.
43.
97.
471
.25.
2853
.211
8.1
4.0
13.4
6517
.511
.711
072
.75.
6053
.612
9.4
3.8
3.0
73.3
5.35
55.0
121.
74.
07.
473
.55.
2855
.511
8.4
4.1
13.4
657.
52.
512
064
.36.
3442
.613
7.1
3.0
2.9
64.8
6.06
44.1
130.
43.
17.
264
.95.
9844
.512
7.4
3.2
13.1
6512
.56.
312
068
.86.
3447
.113
8.3
3.2
2.9
69.3
6.07
48.6
131.
13.
37.
269
.55.
9849
.012
7.9
3.4
13.1
6517
.511
.712
070
.96.
3549
.313
8.9
3.3
2.9
71.5
6.07
50.8
131.
43.
57.
271
.75.
9951
.212
8.2
3.5
13.1
757.
52.
560
83.7
2.98
73.6
82.3
8.2
3.5
84.4
2.85
74.7
73.5
8.7
8.4
84.6
2.81
75.0
69.7
8.8
15.2
7512
.56.
060
89.6
2.98
79.4
83.9
8.8
3.5
90.3
2.85
80.6
74.4
9.3
8.4
90.5
2.81
80.9
70.3
9.4
15.2
7517
.511
.160
92.4
2.98
82.2
84.6
9.1
3.5
93.2
2.85
83.4
74.9
9.6
8.4
93.4
2.81
83.8
70.7
9.7
15.2
757.
52.
570
81.8
3.42
70.1
91.8
7.0
3.3
82.4
3.27
71.3
83.2
7.4
8.2
82.6
3.23
71.6
79.4
7.5
14.8
7512
.56.
070
87.5
3.42
75.8
93.3
7.5
3.3
88.2
3.28
77.0
84.1
7.9
8.2
88.4
3.23
77.4
80.1
8.0
14.8
7517
.511
.170
90.3
3.43
78.6
94.1
7.7
3.3
91.0
3.28
79.8
84.6
8.1
8.2
91.2
3.23
80.2
80.4
8.3
14.8
757.
52.
580
79.8
3.89
66.5
101.
36.
03.
380
.53.
7267
.792
.96.
38.
080
.63.
6768
.189
.26.
414
.4
7512
.56.
080
85.4
3.89
72.1
102.
86.
43.
386
.13.
7373
.493
.86.
88.
086
.33.
6773
.789
.96.
914
.4
7517
.511
.180
88.1
3.90
74.8
103.
56.
63.
388
.83.
7376
.194
.27.
08.
089
.03.
6876
.590
.27.
114
.4
757.
52.
590
77.8
4.41
62.8
110.
75.
23.
278
.44.
2164
.010
2.5
5.5
7.8
78.6
4.16
64.4
99.0
5.5
14.1
7512
.56.
090
83.2
4.41
68.2
112.
25.
53.
283
.94.
2269
.510
3.4
5.8
7.8
84.1
4.16
69.9
99.6
5.9
14.1
7517
.511
.190
85.9
4.41
70.8
112.
95.
73.
286
.64.
2272
.210
3.9
6.0
7.8
86.8
4.16
72.6
99.9
6.1
14.1
757.
52.
510
075
.84.
9858
.812
0.2
4.5
3.1
76.4
4.76
60.1
112.
24.
77.
676
.64.
7060
.610
8.8
4.8
13.7
7512
.56.
010
081
.14.
9864
.112
1.6
4.8
3.1
81.7
4.76
65.5
113.
15.
07.
681
.94.
7065
.910
9.4
5.1
13.7
7517
.511
.110
083
.74.
9866
.612
2.3
4.9
3.1
84.3
4.77
68.1
113.
55.
27.
684
.54.
7068
.510
9.7
5.3
13.7
757.
52.
511
073
.85.
6254
.612
9.7
3.8
3.0
74.4
5.38
56.0
121.
94.
17.
474
.65.
3056
.511
8.5
4.1
13.4
7512
.56.
011
078
.95.
6259
.813
1.1
4.1
3.0
79.6
5.38
61.2
122.
74.
37.
479
.85.
3061
.711
9.1
4.4
13.4
7517
.511
.111
081
.45.
6362
.213
1.7
4.2
3.0
82.1
5.38
63.7
123.
14.
57.
482
.35.
3164
.211
9.4
4.5
13.4
757.
52.
512
071
.86.
3550
.113
9.2
3.3
2.9
72.4
6.07
51.7
131.
63.
57.
272
.65.
9952
.112
8.3
3.5
13.1
Tab
le 4
.H
eati
ng
cap
acit
ies
5 to
ns
- E
XW
060
(co
nti
nu
ed)
So
urc
e
Load
Flo
w 7
.5 G
PM
Flo
w 1
2.5
GP
MFl
ow
17
.5 G
PM
EWT
°FFl
ow
G
PM
WP
D
FTE
WT
°FH
C
Mb
tuh
Po
wer
kW
HA
M
btu
hLW
T
°FE
ERW
PD
FT
HC
M
btu
hP
ow
er
kWH
A
Mb
tuh
LWT
°F
EER
WP
D
FTH
C
Mb
tuh
Po
wer
kW
HA
M
btu
hLW
T
°FEE
RW
PD
FT
24 WSHP-PRC022F-EN
Performance Data
7512
.56.
012
076
.86.
3555
.214
0.5
3.5
2.9
77.4
6.08
56.7
132.
43.
77.
277
.65.
9957
.212
8.9
3.8
13.1
7517
.511
.112
079
.36.
3657
.614
1.1
3.7
2.9
79.9
6.08
59.1
132.
83.
87.
280
.16.
0059
.612
9.2
3.9
13.1
857.
52.
460
94.8
3.03
84.5
85.3
9.2
3.5
95.6
2.90
85.7
75.3
9.7
8.4
95.8
2.86
86.0
70.9
9.8
15.2
8512
.55.
860
101.
43.
0391
.187
.19.
83.
510
2.3
2.90
92.4
76.4
10.3
8.4
102.
52.
8692
.771
.710
.515
.2
8517
.510
.660
104.
73.
0494
.387
.910
.13.
510
5.5
2.90
95.6
76.9
10.6
8.4
105.
72.
8696
.072
.110
.815
.2
857.
52.
470
92.5
3.48
80.7
94.7
7.8
3.3
93.3
3.33
81.9
84.9
8.2
8.2
93.5
3.28
82.3
80.7
8.4
14.8
8512
.55.
870
99.0
3.48
87.1
96.4
8.3
3.3
99.8
3.33
88.4
86.0
8.8
8.2
100.
03.
2888
.881
.48.
914
.8
8517
.510
.670
102.
13.
4890
.397
.28.
63.
310
2.9
3.33
91.6
86.5
9.1
8.2
103.
23.
2892
.081
.89.
214
.8
857.
52.
480
90.2
3.95
76.7
104.
16.
73.
390
.93.
7778
.094
.57.
18.
091
.13.
7278
.490
.47.
214
.4
8512
.55.
880
96.5
3.95
83.0
105.
77.
23.
397
.33.
7884
.495
.67.
58.
097
.53.
7284
.891
.17.
714
.4
8517
.510
.680
99.6
3.95
86.1
106.
57.
43.
310
0.3
3.78
87.4
96.1
7.8
8.0
100.
63.
7387
.991
.57.
914
.4
857.
52.
490
87.8
4.45
72.6
113.
45.
83.
288
.54.
2674
.010
4.2
6.1
7.8
88.7
4.20
74.4
100.
16.
214
.1
8512
.55.
890
94.0
4.46
78.7
115.
16.
23.
294
.74.
2680
.210
5.2
6.5
7.8
94.9
4.20
80.6
100.
86.
614
.1
8517
.510
.690
96.9
4.46
81.7
115.
86.
43.
297
.74.
2783
.110
5.6
6.7
7.8
97.9
4.21
83.6
101.
26.
814
.1
857.
52.
410
085
.45.
0168
.312
2.8
5.0
3.1
86.1
4.80
69.7
113.
85.
37.
686
.34.
7370
.210
9.9
5.3
13.7
8512
.55.
810
091
.45.
0274
.312
4.4
5.3
3.1
92.1
4.80
75.7
114.
75.
67.
692
.34.
7376
.211
0.6
5.7
13.7
8517
.510
.610
094
.35.
0277
.212
5.1
5.5
3.1
95.0
4.80
78.7
115.
25.
87.
695
.34.
7479
.111
0.9
5.9
13.7
857.
52.
411
083
.05.
6463
.813
2.1
4.3
3.0
83.7
5.40
65.3
123.
44.
57.
483
.95.
3265
.711
9.6
4.6
13.4
8512
.55.
811
088
.95.
6569
.613
3.7
4.6
3.0
89.6
5.40
71.1
124.
34.
97.
489
.85.
3371
.612
0.3
4.9
13.4
8517
.510
.611
091
.75.
6572
.413
4.4
4.8
3.0
92.4
5.41
73.9
124.
85.
07.
492
.65.
3374
.412
0.6
5.1
13.4
857.
52.
412
080
.76.
3659
.014
1.5
3.7
2.9
81.3
6.08
60.6
133.
03.
97.
281
.56.
0061
.112
9.3
4.0
13.1
8512
.55.
812
086
.36.
3664
.614
3.0
4.0
2.9
87.0
6.08
66.3
133.
94.
27.
287
.26.
0066
.813
0.0
4.3
13.1
8517
.510
.612
089
.16.
3667
.414
3.8
4.1
2.9
89.8
6.09
69.0
134.
44.
37.
290
.06.
0069
.513
0.3
4.4
13.1
For
AN
SI/
AH
RI/
ASH
RAE/
ISO
1325
6-2
cert
ified
rat
ings
, re
fer
to t
he A
NSI/
AH
RI/
ASH
RAE/
ISO
1325
6-2
WLH
P, G
WH
P an
d G
LHP
perf
orm
ance
tab
le.
EWT=
Ent
erin
g W
ater
Tem
pera
ture
; LW
T =
Lea
ving
Wat
er T
empe
ratu
re W
PD =
Wat
ersi
de P
ress
ure
Dro
p; T
C =
Tot
al C
oolin
g Cap
acity
HA =
Hea
t of
Abs
orpt
ion;
CO
P =
Coe
ffic
ient
of
Perf
orm
ance
; G
PM =
Gal
lons
per
Min
ute;
Sou
rce
is s
omet
imes
cal
led
the
outd
oor
side
; Lo
ad is
som
etim
es c
alle
d th
e in
door
sid
e.
Tab
le 4
.H
eati
ng
cap
acit
ies
5 to
ns
- E
XW
060
(co
nti
nu
ed)
So
urc
e
Load
Flo
w 7
.5 G
PM
Flo
w 1
2.5
GP
MFl
ow
17
.5 G
PM
EWT
°FFl
ow
G
PM
WP
D
FTE
WT
°FH
C
Mb
tuh
Po
wer
kW
HA
M
btu
hLW
T
°FE
ERW
PD
FT
HC
M
btu
hP
ow
er
kWH
A
Mb
tuh
LWT
°F
EER
WP
D
FTH
C
Mb
tuh
Po
wer
kW
HA
M
btu
hLW
T
°FEE
RW
PD
FT
Tab
le 5
.C
oo
ling
cap
acit
ies
10 t
on
s -
EX
W12
0
Sou
rce
Load
Flo
w 1
5 G
PM
Flo
w 2
5 G
PM
Flo
w 3
5 G
PM
EWT
°FFl
ow
G
PM
WP
D
FTE
WT
°F
TC
M
btu
hP
ow
er
kWH
R
Mb
tuh
LWT
°F
EER
WP
D
FTTC
M
btu
hP
ow
er
kWH
R
Mb
tuh
LWT
°F
EER
WP
D
FTTC
M
btu
hP
ow
er
kWH
R
Mb
tuh
LWT
°F
EER
WP
D
FT
5015
.04.
350
102.
34.
9511
9.2
36.4
20.7
3.6
112.
85.
0112
9.9
41.0
22.5
8.7
118.
25.
0413
5.4
43.2
23.5
15.6
5025
.011
.250
105.
74.
6012
1.4
35.9
23.0
3.6
116.
54.
6513
2.4
40.7
25.1
8.7
122.
04.
6813
8.0
43.0
26.1
15.6
Performance Data
WSHP-PRC022F-EN 25
5035
.020
.450
107.
04.
4612
2.3
35.7
24.0
3.6
118.
04.
5113
3.4
40.6
26.2
8.7
123.
64.
5413
9.1
42.9
27.2
15.6
5015
.04.
360
120.
05.
0113
7.1
44.0
23.9
3.5
132.
35.
0714
9.6
49.4
26.1
8.5
138.
65.
1015
6.0
52.1
27.2
15.2
5025
.011
.260
123.
94.
6513
9.8
43.5
26.6
3.5
136.
64.
7015
2.6
49.1
29.0
8.5
143.
14.
7315
9.3
51.8
30.2
15.2
5035
.020
.460
125.
54.
5214
0.9
43.3
27.8
3.5
138.
44.
5715
3.9
48.9
30.3
8.5
145.
04.
5916
0.6
51.7
31.6
15.2
5015
.04.
370
139.
55.
1015
6.9
51.4
27.3
3.4
153.
75.
1517
1.3
57.7
29.8
8.2
161.
15.
1917
8.8
60.8
31.1
14.8
5025
.011
.270
144.
04.
7316
0.2
50.8
30.4
3.4
158.
84.
7817
5.1
57.3
33.2
8.2
166.
34.
8218
2.8
60.5
34.5
14.8
5035
.020
.470
145.
94.
5916
1.6
50.6
31.8
3.4
160.
84.
6417
6.7
57.1
34.6
8.2
168.
54.
6718
4.4
60.4
36.1
14.8
5015
.04.
380
160.
75.
2217
8.6
58.6
30.8
3.2
177.
25.
2819
5.2
65.8
33.6
8.0
185.
75.
3120
3.8
69.4
35.0
14.3
5025
.011
.280
166.
04.
8518
2.5
57.9
34.3
3.2
183.
04.
9019
9.7
65.4
37.4
8.0
191.
74.
9320
8.6
69.0
38.9
14.3
5035
.020
.480
168.
14.
7018
4.2
57.6
35.8
3.2
185.
44.
7520
1.6
65.2
39.0
8.0
194.
24.
7821
0.6
68.9
40.6
14.3
5015
.04.
385
172.
15.
3019
0.1
62.1
32.5
3.2
189.
75.
3520
8.0
69.8
35.4
7.8
198.
75.
3921
7.1
73.6
36.9
14.1
5025
.011
.285
177.
74.
9219
4.4
61.3
36.1
3.2
195.
94.
9721
2.8
69.3
39.4
7.8
205.
25.
0022
2.3
73.3
41.0
14.1
5035
.020
.485
180.
04.
7719
6.3
61.0
37.7
3.2
198.
44.
8221
4.9
69.1
41.1
7.8
207.
94.
8522
4.5
73.1
42.8
14.1
6015
.03.
750
97.0
5.72
116.
637
.117
.03.
610
7.0
5.79
126.
741
.418
.58.
711
2.1
5.82
132.
043
.619
.315
.6
6025
.010
.150
100.
25.
3111
8.3
36.6
18.9
3.6
110.
55.
3712
8.8
41.2
20.6
8.7
115.
85.
4113
4.2
43.4
21.4
15.6
6035
.018
.450
101.
55.
1611
9.1
36.5
19.7
3.6
111.
95.
2112
9.7
41.0
21.5
8.7
117.
35.
2513
5.2
43.3
22.4
15.6
6015
.03.
760
114.
75.
8013
4.5
44.7
19.8
3.5
126.
45.
8614
6.4
49.9
21.6
8.5
132.
45.
9015
2.6
52.4
22.4
15.2
6025
.010
.160
118.
45.
3913
6.8
44.2
22.0
3.5
130.
55.
4414
9.1
49.6
24.0
8.5
136.
85.
4815
5.5
52.2
25.0
15.2
6035
.018
.460
119.
95.
2313
7.8
44.0
22.9
3.5
132.
25.
2815
0.3
49.4
25.0
8.5
138.
55.
3215
6.7
52.1
26.1
15.2
6015
.03.
770
134.
05.
9115
4.1
52.1
22.7
3.4
147.
75.
9716
8.1
58.2
24.7
8.2
154.
76.
0117
5.3
61.2
25.7
14.8
6025
.010
.170
138.
35.
4915
7.1
51.6
25.2
3.4
152.
55.
5417
1.4
57.8
27.5
8.2
159.
85.
5817
8.8
60.9
28.6
14.8
6035
.018
.470
140.
15.
3215
8.3
51.3
26.3
3.4
154.
55.
3817
2.9
57.6
28.7
8.2
161.
95.
4118
0.3
60.8
29.9
14.8
6015
.03.
780
154.
96.
0617
5.6
59.3
25.6
3.2
170.
86.
1219
1.7
66.3
27.9
8.0
179.
06.
1620
0.0
69.8
29.1
14.3
6025
.010
.180
160.
05.
6217
9.2
58.7
28.5
3.2
176.
45.
6819
5.8
65.9
31.0
8.0
184.
85.
7220
4.3
69.4
32.3
14.3
6035
.018
.480
162.
15.
4618
0.7
58.4
29.7
3.2
178.
75.
5119
7.5
65.7
32.4
8.0
187.
25.
5520
6.2
69.3
33.7
14.3
6015
.03.
785
166.
16.
1518
7.0
62.9
27.0
3.2
183.
16.
2120
4.3
70.4
29.5
7.8
191.
86.
2521
3.2
74.0
30.7
14.1
6025
.010
.185
171.
55.
7119
0.9
62.1
30.0
3.2
189.
05.
7720
8.7
69.9
32.8
7.8
198.
15.
8021
7.9
73.7
34.1
14.1
6035
.018
.485
173.
75.
5419
2.6
61.8
31.4
3.2
191.
55.
6021
0.6
69.7
34.2
7.8
200.
65.
6321
9.9
73.5
35.6
14.1
7015
.03.
450
94.0
6.57
116.
437
.514
.33.
610
3.6
6.64
126.
341
.715
.68.
710
8.6
6.68
131.
443
.816
.315
.6
7025
.09.
450
97.1
6.10
117.
937
.115
.93.
610
7.0
6.16
128.
141
.417
.48.
711
2.1
6.20
133.
343
.618
.115
.6
7035
.017
.250
98.3
5.92
118.
536
.916
.63.
610
8.4
5.98
128.
841
.318
.18.
711
3.6
6.02
134.
143
.518
.915
.6
7015
.03.
460
111.
06.
6513
3.7
45.2
16.7
3.5
122.
36.
7214
5.3
50.2
18.2
8.5
128.
26.
7715
1.3
52.7
18.9
15.2
7025
.09.
460
114.
66.
1813
5.7
44.7
18.6
3.5
126.
36.
2414
7.6
49.9
20.2
8.5
132.
46.
2815
3.8
52.4
21.1
15.2
Tab
le 5
.C
oo
ling
cap
acit
ies
10 t
on
s -
EX
W12
0 (c
on
tin
ued
)
Sou
rce
Load
Flo
w 1
5 G
PM
Flo
w 2
5 G
PM
Flo
w 3
5 G
PM
EWT
°FFl
ow
G
PM
WP
D
FTE
WT
°F
TC
M
btu
hP
ow
er
kWH
R
Mb
tuh
LWT
°F
EER
WP
D
FTTC
M
btu
hP
ow
er
kWH
R
Mb
tuh
LWT
°F
EER
WP
D
FTTC
M
btu
hP
ow
er
kWH
R
Mb
tuh
LWT
°F
EER
WP
D
FT
26 WSHP-PRC022F-EN
Performance Data
7035
.017
.260
116.
15.
9913
6.5
44.5
19.4
3.5
128.
06.
0614
8.7
49.8
21.1
8.5
134.
16.
1015
4.9
52.3
22.0
15.2
7015
.03.
470
129.
56.
7715
2.7
52.7
19.1
3.4
142.
86.
8516
6.2
58.6
20.9
8.2
149.
66.
8917
3.1
61.4
21.7
14.8
7025
.09.
470
133.
86.
2915
5.2
52.2
21.3
3.4
147.
56.
3616
9.2
58.2
23.2
8.2
154.
56.
4017
6.3
61.2
24.2
14.8
7035
.017
.270
135.
56.
1015
6.3
51.9
22.2
3.4
149.
46.
1717
0.4
58.0
24.2
8.2
156.
56.
2117
7.7
61.1
25.2
14.8
7015
.03.
480
149.
76.
9417
3.4
60.0
21.6
3.2
165.
07.
0118
9.0
66.8
23.5
8.0
172.
97.
0519
7.0
70.1
24.5
14.3
7025
.09.
480
154.
66.
4417
6.5
59.4
24.0
3.2
170.
46.
5119
2.6
66.4
26.2
8.0
178.
56.
5520
0.9
69.8
27.3
14.3
7035
.017
.280
156.
66.
2517
7.9
59.1
25.1
3.2
172.
66.
3219
4.2
66.2
27.3
8.0
180.
96.
3620
2.6
69.7
28.5
14.3
7015
.03.
485
160.
37.
0418
4.4
63.6
22.8
3.2
176.
87.
1120
1.1
70.9
24.9
7.8
185.
27.
1620
9.6
74.4
25.9
14.1
7025
.09.
485
165.
66.
5318
7.9
62.9
25.3
3.2
182.
56.
6020
5.1
70.4
27.6
7.8
191.
36.
6521
3.9
74.1
28.8
14.1
7035
.017
.285
167.
76.
3418
9.4
62.6
26.5
3.2
184.
96.
4120
6.8
70.2
28.9
7.8
193.
76.
4521
5.8
73.9
30.0
14.1
8015
.03.
150
90.1
7.50
115.
638
.012
.03.
699
.37.
5812
5.2
42.1
13.1
8.7
104.
07.
6213
0.1
44.1
13.6
15.6
8025
.09.
050
93.0
6.96
116.
837
.613
.43.
610
2.5
7.03
126.
541
.814
.68.
710
7.4
7.08
131.
643
.915
.215
.6
8035
.016
.450
94.2
6.75
117.
337
.414
.03.
610
3.9
6.83
127.
241
.715
.28.
710
8.8
6.87
132.
343
.815
.815
.6
8015
.03.
160
106.
27.
5813
2.1
45.8
14.0
3.5
117.
17.
6614
3.2
50.6
15.3
8.5
122.
77.
7114
9.0
53.0
15.9
15.2
8025
.09.
060
109.
77.
0413
3.7
45.4
15.6
3.5
120.
97.
1114
5.2
50.3
17.0
8.5
126.
77.
1615
1.1
52.8
17.7
15.2
8035
.016
.460
111.
16.
8313
4.4
45.2
16.3
3.5
122.
56.
9014
6.0
50.2
17.7
8.5
128.
36.
9515
2.0
52.7
18.5
15.2
8015
.03.
170
123.
97.
7015
0.2
53.5
16.1
3.4
136.
67.
7916
3.1
59.1
17.5
8.2
143.
17.
8416
9.8
61.8
18.3
14.8
8025
.09.
070
127.
97.
1515
2.3
52.9
17.9
3.4
141.
07.
2316
5.7
58.7
19.5
8.2
147.
87.
2717
2.6
61.6
20.3
14.8
8035
.016
.470
129.
66.
9415
3.3
52.7
18.7
3.4
142.
97.
0116
6.8
58.6
20.4
8.2
149.
77.
0617
3.8
61.4
21.2
14.8
8015
.03.
180
143.
17.
8716
9.9
60.9
18.2
3.2
157.
77.
9618
4.9
67.4
19.8
8.0
165.
38.
0119
2.6
70.6
20.6
14.3
8025
.09.
080
147.
77.
3117
2.7
60.3
20.2
3.2
162.
97.
3918
8.1
67.0
22.0
8.0
170.
67.
4419
6.0
70.2
22.9
14.3
8035
.016
.480
149.
77.
0917
3.9
60.0
21.1
3.2
165.
07.
1718
9.5
66.8
23.0
8.0
172.
97.
2219
7.5
70.1
24.0
14.3
8015
.03.
185
153.
27.
9818
0.4
64.6
19.2
3.2
168.
98.
0719
6.4
71.5
20.9
7.8
177.
08.
1220
4.7
74.9
21.8
14.1
8025
.09.
085
158.
27.
4118
3.5
63.9
21.4
3.2
174.
47.
4920
0.0
71.0
23.3
7.8
182.
77.
5420
8.5
74.6
24.2
14.1
8035
.016
.485
160.
37.
1918
4.8
63.6
22.3
3.2
176.
77.
2720
1.5
70.9
24.3
7.8
185.
17.
3121
0.1
74.4
25.3
14.1
9015
.02.
950
85.1
8.52
114.
238
.710
.03.
693
.88.
6212
3.2
42.5
10.9
8.7
98.3
8.67
127.
944
.411
.315
.6
9025
.08.
850
87.9
7.91
114.
938
.311
.13.
696
.98.
0012
4.2
42.3
12.1
8.7
101.
58.
0512
9.0
44.2
12.6
15.6
9035
.015
.950
89.0
7.68
115.
238
.111
.63.
698
.17.
7612
4.6
42.1
12.6
8.7
102.
87.
8112
9.5
44.1
13.2
15.6
9015
.02.
960
100.
48.
6012
9.7
46.6
11.7
3.5
110.
78.
6914
0.3
51.1
12.7
8.5
116.
08.
7414
5.8
53.4
13.3
15.2
9025
.08.
860
103.
77.
9813
0.9
46.2
13.0
3.5
114.
38.
0714
1.8
50.9
14.2
8.5
119.
78.
1214
7.5
53.2
14.7
15.2
9035
.015
.960
105.
07.
7513
1.4
46.0
13.6
3.5
115.
87.
8314
2.5
50.7
14.8
8.5
121.
37.
8814
8.2
53.1
15.4
15.2
9015
.02.
970
117.
28.
7114
6.9
54.4
13.4
3.4
129.
28.
8115
9.2
59.7
14.7
8.2
135.
38.
8616
5.6
62.3
15.3
14.8
9025
.08.
870
121.
08.
0914
8.6
53.9
15.0
3.4
133.
48.
1816
1.3
59.3
16.3
8.2
139.
88.
2316
7.8
62.0
17.0
14.8
Tab
le 5
.C
oo
ling
cap
acit
ies
10 t
on
s -
EX
W12
0 (c
on
tin
ued
)
Sou
rce
Load
Flo
w 1
5 G
PM
Flo
w 2
5 G
PM
Flo
w 3
5 G
PM
EWT
°FFl
ow
G
PM
WP
D
FTE
WT
°F
TC
M
btu
hP
ow
er
kWH
R
Mb
tuh
LWT
°F
EER
WP
D
FTTC
M
btu
hP
ow
er
kWH
R
Mb
tuh
LWT
°F
EER
WP
D
FTTC
M
btu
hP
ow
er
kWH
R
Mb
tuh
LWT
°F
EER
WP
D
FT
Performance Data
WSHP-PRC022F-EN 27
9035
.015
.970
122.
67.
8514
9.4
53.7
15.6
3.4
135.
17.
9416
2.2
59.2
17.0
8.2
141.
67.
9916
8.8
61.9
17.7
14.8
9015
.02.
980
135.
48.
8816
5.7
61.9
15.2
3.2
149.
38.
9817
9.9
68.1
16.6
8.0
156.
49.
0418
7.2
71.1
17.3
14.3
9025
.08.
880
139.
88.
2516
8.0
61.4
17.0
3.2
154.
28.
3418
2.6
67.7
18.5
8.0
161.
58.
3919
0.1
70.8
19.3
14.3
9035
.015
.980
141.
68.
0016
9.0
61.1
17.7
3.2
156.
28.
0918
3.8
67.5
19.3
8.0
163.
68.
1419
1.4
70.7
20.1
14.3
9015
.02.
985
145.
18.
9917
5.7
65.7
16.1
3.2
159.
99.
0919
0.9
72.2
17.6
7.8
167.
69.
1419
8.8
75.4
18.3
14.1
9025
.08.
885
149.
88.
3517
8.3
65.0
17.9
3.2
165.
18.
4419
3.9
71.8
19.6
7.8
173.
08.
4920
2.0
75.1
20.4
14.1
9035
.015
.985
151.
78.
1017
9.4
64.8
18.7
3.2
167.
38.
1919
5.2
71.6
20.4
7.8
175.
38.
2420
3.4
75.0
21.3
14.1
100
15.0
2.8
5079
.59.
6611
2.4
39.4
8.2
3.6
87.6
9.77
120.
943
.09.
08.
791
.89.
8312
5.3
44.8
9.3
15.6
100
25.0
8.6
5082
.18.
9711
2.7
39.1
9.1
3.6
90.5
9.07
121.
442
.810
.08.
794
.89.
1312
5.9
44.6
10.4
15.6
100
35.0
15.6
5083
.18.
7111
2.8
38.9
9.5
3.6
91.6
8.80
121.
742
.710
.48.
796
.08.
8612
6.2
44.5
10.8
15.6
100
15.0
2.8
6094
.09.
7212
7.1
47.5
9.7
3.5
103.
69.
8213
7.1
51.7
10.5
8.5
108.
59.
8814
2.3
53.8
11.0
15.2
100
25.0
8.6
6097
.09.
0212
7.8
47.1
10.8
3.5
107.
09.
1213
8.1
51.4
11.7
8.5
112.
19.
1814
3.4
53.6
12.2
15.2
100
35.0
15.6
6098
.38.
7512
8.2
46.9
11.2
3.5
108.
48.
8513
8.6
51.3
12.2
8.5
113.
58.
9114
3.9
53.5
12.8
15.2
100
15.0
2.8
7010
9.9
9.82
143.
455
.311
.23.
412
1.2
9.92
155.
160
.312
.28.
212
7.0
9.99
161.
062
.712
.714
.8
100
25.0
8.6
7011
3.5
9.12
144.
654
.912
.53.
412
5.1
9.21
156.
660
.013
.68.
213
1.1
9.27
162.
862
.514
.114
.8
100
35.0
15.6
7011
5.0
8.85
145.
254
.713
.03.
412
6.8
8.94
157.
359
.914
.28.
213
2.8
9.00
163.
562
.414
.814
.8
100
15.0
2.8
8012
7.3
9.98
161.
363
.012
.83.
214
0.3
10.0
817
4.7
68.8
13.9
8.0
147.
010
.15
181.
671
.614
.514
.3
100
25.0
8.6
8013
1.4
9.26
163.
062
.514
.23.
214
4.9
9.36
176.
868
.415
.58.
015
1.8
9.42
184.
071
.316
.114
.3
100
35.0
15.6
8013
3.1
8.99
163.
862
.214
.83.
214
6.8
9.08
177.
868
.316
.28.
015
3.8
9.14
185.
071
.216
.814
.3
100
15.0
2.8
8513
6.5
10.0
817
0.9
66.8
13.5
3.2
150.
410
.19
185.
273
.014
.87.
815
7.6
10.2
519
2.6
76.0
15.4
14.1
100
25.0
8.6
8514
0.9
9.36
172.
866
.215
.13.
215
5.4
9.46
187.
672
.616
.47.
816
2.8
9.52
195.
375
.717
.114
.1
100
35.0
15.6
8514
2.7
9.08
173.
766
.015
.73.
215
7.4
9.18
188.
772
.417
.17.
816
4.9
9.24
196.
475
.617
.914
.1
110
15.0
2.6
5073
.510
.93
110.
840
.26.
73.
681
.111
.05
118.
843
.57.
38.
785
.011
.12
122.
945
.17.
615
.6
110
25.0
8.5
5075
.910
.15
110.
639
.97.
53.
683
.710
.26
118.
743
.38.
28.
787
.710
.32
123.
045
.08.
515
.6
110
35.0
15.4
5076
.99.
8511
0.5
39.7
7.8
3.6
84.8
9.95
118.
843
.28.
58.
788
.910
.02
123.
044
.98.
915
.6
110
15.0
2.6
6087
.310
.95
124.
748
.48.
03.
596
.311
.07
134.
152
.38.
78.
510
0.9
11.1
413
8.9
54.2
9.1
15.2
110
25.0
8.5
6090
.210
.17
124.
948
.08.
93.
599
.410
.28
134.
552
.09.
78.
510
4.2
10.3
413
9.5
54.0
10.1
15.2
110
35.0
15.4
6091
.39.
8712
5.0
47.8
9.3
3.5
100.
79.
9713
4.7
51.9
10.1
8.5
105.
510
.04
139.
854
.010
.515
.2
110
15.0
2.6
7010
2.5
11.0
314
0.1
56.3
9.3
3.4
113.
011
.15
151.
061
.010
.18.
211
8.4
11.2
215
6.7
63.2
10.6
14.8
110
25.0
8.5
7010
5.8
10.2
414
0.8
55.9
10.3
3.4
116.
710
.35
152.
060
.711
.38.
212
2.3
10.4
215
7.8
63.0
11.7
14.8
110
35.0
15.4
7010
7.2
9.94
141.
155
.710
.83.
411
8.2
10.0
415
2.5
60.5
11.8
8.2
123.
810
.11
158.
362
.912
.314
.8
110
15.0
2.6
8011
9.0
11.1
715
7.1
64.1
10.7
3.2
131.
211
.29
169.
869
.511
.68.
013
7.5
11.3
617
6.3
72.1
12.1
14.3
110
25.0
8.5
8012
2.9
10.3
715
8.3
63.6
11.9
3.2
135.
510
.48
171.
369
.212
.98.
014
2.0
10.5
517
8.0
71.9
13.5
14.3
Tab
le 5
.C
oo
ling
cap
acit
ies
10 t
on
s -
EX
W12
0 (c
on
tin
ued
)
Sou
rce
Load
Flo
w 1
5 G
PM
Flo
w 2
5 G
PM
Flo
w 3
5 G
PM
EWT
°FFl
ow
G
PM
WP
D
FTE
WT
°F
TC
M
btu
hP
ow
er
kWH
R
Mb
tuh
LWT
°F
EER
WP
D
FTTC
M
btu
hP
ow
er
kWH
R
Mb
tuh
LWT
°F
EER
WP
D
FTTC
M
btu
hP
ow
er
kWH
R
Mb
tuh
LWT
°F
EER
WP
D
FT
28 WSHP-PRC022F-EN
Performance Data
110
35.0
15.4
8012
4.5
10.0
615
8.9
63.4
12.4
3.2
137.
310
.17
172.
069
.013
.58.
014
3.8
10.2
317
8.8
71.8
14.1
14.3
110
15.0
2.6
8512
7.8
11.2
616
6.2
68.0
11.3
3.2
140.
911
.38
179.
873
.712
.47.
814
7.6
11.4
518
6.7
76.6
12.9
14.1
110
25.0
8.5
8513
2.0
10.4
516
7.7
67.4
12.6
3.2
145.
510
.57
181.
673
.413
.87.
815
2.5
10.6
318
8.7
76.3
14.3
14.1
110
35.0
15.4
8513
3.7
10.1
516
8.3
67.2
13.2
3.2
147.
410
.25
182.
473
.214
.47.
815
4.4
10.3
218
9.7
76.2
15.0
14.1
120
15.0
2.4
5067
.612
.33
109.
741
.05.
53.
674
.512
.47
117.
144
.06.
08.
778
.112
.54
120.
945
.56.
215
.6
120
25.0
8.4
5069
.811
.45
108.
940
.76.
13.
676
.911
.57
116.
443
.86.
68.
780
.611
.65
120.
445
.46.
915
.6
120
35.0
15.3
5070
.711
.11
108.
640
.66.
43.
677
.911
.23
116.
343
.86.
98.
781
.711
.30
120.
245
.37.
215
.6
120
15.0
2.4
6080
.712
.32
122.
749
.26.
53.
588
.912
.45
131.
452
.97.
18.
593
.212
.53
136.
054
.77.
415
.2
120
25.0
8.4
6083
.311
.44
122.
348
.97.
33.
591
.911
.56
131.
352
.77.
98.
596
.211
.63
135.
954
.58.
315
.2
120
35.0
15.3
6084
.411
.10
122.
348
.77.
63.
593
.011
.22
131.
352
.68.
38.
597
.511
.29
136.
054
.48.
615
.2
120
15.0
2.4
7095
.212
.36
137.
357
.37.
73.
410
4.9
12.4
914
7.6
61.6
8.4
8.2
109.
912
.57
152.
863
.78.
714
.8
120
25.0
8.4
7098
.311
.48
137.
456
.98.
63.
410
8.3
11.6
014
7.9
61.3
9.3
8.2
113.
511
.67
153.
363
.59.
714
.8
120
35.0
15.3
7099
.511
.14
137.
556
.78.
93.
410
9.7
11.2
614
8.2
61.2
9.7
8.2
115.
011
.33
153.
663
.410
.114
.8
120
15.0
2.4
8011
1.0
12.4
715
3.5
65.2
8.9
3.2
122.
312
.60
165.
470
.29.
78.
012
8.2
12.6
817
1.5
72.7
10.1
14.3
120
25.0
8.4
8011
4.6
11.5
815
4.1
64.7
9.9
3.2
126.
311
.70
166.
369
.910
.88.
013
2.4
11.7
717
2.6
72.4
11.2
14.3
120
35.0
15.3
8011
6.1
11.2
315
4.4
64.5
10.3
3.2
128.
011
.35
166.
769
.811
.38.
013
4.1
11.4
317
3.1
72.3
11.7
14.3
120
15.0
2.4
8511
9.4
12.5
516
2.2
69.1
9.5
3.2
131.
612
.68
174.
974
.510
.47.
813
7.9
12.7
618
1.5
77.1
10.8
14.1
120
25.0
8.4
8512
3.3
11.6
516
3.0
68.6
10.6
3.2
135.
911
.78
176.
174
.111
.57.
814
2.4
11.8
518
2.8
76.9
12.0
14.1
120
35.0
15.3
8512
4.9
11.3
116
3.5
68.4
11.0
3.2
137.
711
.43
176.
774
.012
.07.
814
4.2
11.5
018
3.5
76.8
12.5
14.1
For
AN
SI/
AH
RI/
ASH
RAE/
ISO
1325
6-2
cert
ified
rat
ings
, re
fer
to t
he A
NSI/
AH
RI/
ASH
RAE/
ISO
1325
6-2
WLH
P, G
WH
P an
d G
LHP
perf
orm
ance
tab
le.
EWT=
Ent
erin
g W
ater
Tem
pera
ture
; LW
T =
Lea
ving
Wat
er T
empe
ratu
re W
PD =
Wat
ersi
de P
ress
ure
Dro
p; T
C =
Tot
al C
oolin
g Cap
acity
HA =
Hea
t of
Abs
orpt
ion;
CO
P =
Coe
ffic
ient
of
Perf
orm
ance
; G
PM =
Gal
lons
per
Min
ute;
Sou
rce
is s
omet
imes
cal
led
the
outd
oor
side
; Lo
ad is
som
etim
es c
alle
d th
e in
door
sid
e.
Tab
le 5
.C
oo
ling
cap
acit
ies
10 t
on
s -
EX
W12
0 (c
on
tin
ued
)
Sou
rce
Load
Flo
w 1
5 G
PM
Flo
w 2
5 G
PM
Flo
w 3
5 G
PM
EWT
°FFl
ow
G
PM
WP
D
FTE
WT
°F
TC
M
btu
hP
ow
er
kWH
R
Mb
tuh
LWT
°F
EER
WP
D
FTTC
M
btu
hP
ow
er
kWH
R
Mb
tuh
LWT
°F
EER
WP
D
FTTC
M
btu
hP
ow
er
kWH
R
Mb
tuh
LWT
°F
EER
WP
D
FT
Tab
le 6
.H
eati
ng
cap
acit
ies
10 t
on
s -
EX
W12
0
Sou
rce
Load
Flo
w 1
5 G
PM
Flo
w 2
5 G
PM
Flo
w 3
5 G
PM
EWT
°FFl
ow
G
PM
WP
D
FTE
WT
°FH
C
Mb
tuh
Po
wer
kW
HA
M
btu h
LWT
°FE
ER
WP
D
FTH
C
Mb
tuh
Po
wer
kW
HA
M
btu
hLW
T °F
EER
WP
D
FTH
C
Mb
tuh
Po
wer
kW
HA
M
btu
hLW
T °F
EER
WP
D
FT
2515
.09.
360
90.5
6.19
69.4
72.1
4.3
3.5
91.2
5.92
71.0
67.3
4.5
8.5
91.4
5.84
71.5
65.2
4.6
15.2
2525
.019
.960
96.8
6.19
75.7
72.9
4.6
3.5
97.6
5.92
77.4
67.8
4.8
8.5
97.8
5.84
77.9
65.6
4.9
15.2
2535
.033
.860
99.9
6.19
78.7
73.3
4.7
3.5
100.
75.
9280
.468
.15.
08.
510
0.9
5.84
80.9
65.8
5.1
15.2
2515
.09.
370
87.8
7.00
63.9
81.7
3.7
3.4
88.5
6.70
65.6
77.1
3.9
8.2
88.7
6.61
66.1
75.1
3.9
14.8
2525
.019
.970
93.9
7.01
70.0
82.5
3.9
3.4
94.6
6.70
71.8
77.6
4.1
8.2
94.9
6.61
72.3
75.4
4.2
14.8
2535
.033
.870
96.9
7.01
72.9
82.9
4.0
3.4
97.6
6.71
74.8
77.8
4.3
8.2
97.9
6.61
75.3
75.6
4.3
14.8
Performance Data
WSHP-PRC022F-EN 29
2515
.09.
380
85.2
7.93
58.1
91.4
3.1
3.2
85.9
7.59
60.0
86.9
3.3
8.0
86.1
7.48
60.6
84.9
3.4
14.3
2525
.019
.980
91.2
7.94
64.1
92.2
3.4
3.2
91.9
7.59
66.0
87.4
3.5
8.0
92.1
7.49
66.6
85.3
3.6
14.3
2535
.033
.880
94.1
7.94
66.9
92.5
3.5
3.2
94.8
7.60
68.9
87.6
3.7
8.0
95.0
7.49
69.5
85.4
3.7
14.3
2515
.09.
390
82.9
8.99
52.2
101.
02.
73.
283
.58.
6054
.296
.72.
87.
783
.78.
4854
.894
.82.
914
.0
2525
.019
.990
88.6
9.00
57.9
101.
82.
93.
289
.48.
6160
.097
.13.
07.
789
.68.
4960
.695
.13.
114
.0
2535
.033
.890
91.5
9.00
60.7
102.
23.
03.
292
.28.
6162
.897
.43.
17.
792
.48.
4963
.495
.33.
214
.0
2515
.09.
310
080
.710
.20
45.9
110.
82.
33.
181
.49.
7548
.110
6.5
2.4
7.6
81.6
9.62
48.8
104.
72.
513
.6
2525
.019
.910
086
.410
.20
51.6
111.
52.
53.
187
.19.
7653
.810
7.0
2.6
7.6
87.3
9.62
54.4
105.
02.
713
.6
2535
.033
.810
089
.110
.21
54.3
111.
92.
63.
189
.89.
7756
.510
7.2
2.7
7.6
90.1
9.63
57.2
105.
12.
713
.6
2515
.09.
311
078
.911
.56
39.5
120.
52.
03.
079
.611
.06
41.8
116.
42.
17.
479
.810
.90
42.5
114.
62.
113
.4
2525
.019
.911
084
.511
.57
45.0
121.
32.
13.
085
.111
.06
47.4
116.
82.
37.
485
.310
.91
48.1
114.
92.
313
.4
2535
.033
.811
087
.111
.57
47.6
121.
62.
23.
087
.811
.07
50.0
117.
02.
37.
488
.010
.92
50.8
115.
02.
413
.4
3515
.06.
260
102.
56.
0681
.873
.75.
03.
510
3.3
5.79
83.5
68.3
5.2
8.5
103.
55.
7284
.065
.95.
315
.2
3525
.014
.760
109.
66.
0688
.974
.65.
33.
511
0.5
5.80
90.7
68.8
5.6
8.5
110.
85.
7291
.366
.35.
715
.2
3535
.026
.060
113.
16.
0792
.475
.15.
53.
511
4.0
5.80
94.2
69.1
5.8
8.5
114.
35.
7294
.766
.55.
915
.2
3515
.06.
270
100.
06.
9176
.483
.34.
23.
410
0.8
6.61
78.3
78.1
4.5
8.2
101.
16.
5278
.875
.84.
514
.8
3525
.014
.770
107.
06.
9283
.484
.34.
53.
410
7.9
6.62
85.3
78.6
4.8
8.2
108.
16.
5285
.976
.24.
914
.8
3535
.026
.070
110.
46.
9286
.884
.74.
73.
411
1.3
6.62
88.7
78.9
4.9
8.2
111.
66.
5389
.376
.45.
014
.8
3515
.06.
280
97.6
7.87
70.8
93.0
3.6
3.2
98.4
7.53
72.7
87.9
3.8
8.0
98.7
7.42
73.3
85.6
3.9
14.3
3525
.014
.780
104.
57.
8777
.693
.93.
93.
210
5.3
7.53
79.6
88.4
4.1
8.0
105.
67.
4380
.286
.04.
214
.3
3535
.026
.080
107.
87.
8880
.994
.44.
03.
210
8.6
7.54
82.9
88.7
4.2
8.0
108.
97.
4383
.586
.24.
314
.3
3515
.06.
290
95.3
8.94
64.8
102.
73.
13.
296
.18.
5566
.997
.73.
37.
796
.38.
4367
.595
.53.
314
.0
3525
.014
.790
102.
08.
9571
.510
3.6
3.3
3.2
102.
88.
5673
.698
.23.
57.
710
3.1
8.44
74.3
95.9
3.6
14.0
3535
.026
.090
105.
28.
9574
.710
4.0
3.4
3.2
106.
18.
5676
.998
.53.
67.
710
6.3
8.44
77.5
96.1
3.7
14.0
3515
.06.
210
093
.210
.14
58.6
112.
42.
73.
193
.99.
7060
.810
7.5
2.8
7.6
94.1
9.57
61.5
105.
42.
913
.6
3525
.014
.710
099
.710
.15
65.0
113.
32.
93.
110
0.5
9.71
67.3
108.
03.
07.
610
0.7
9.57
68.0
105.
83.
113
.6
3535
.026
.010
010
2.8
10.1
668
.211
3.7
3.0
3.1
103.
79.
7170
.510
8.3
3.1
7.6
103.
99.
5871
.210
5.9
3.2
13.6
3515
.06.
211
091
.211
.49
52.0
122.
22.
33.
091
.910
.99
54.4
117.
42.
47.
492
.110
.84
55.1
115.
32.
513
.4
3525
.014
.711
097
.611
.50
58.3
123.
02.
53.
098
.311
.00
60.8
117.
92.
67.
498
.610
.85
61.6
115.
62.
713
.4
3535
.026
.011
010
0.7
11.5
161
.412
3.4
2.6
3.0
101.
511
.01
63.9
118.
12.
77.
410
1.7
10.8
664
.711
5.8
2.7
13.4
3515
.06.
212
089
.513
.00
45.1
131.
92.
02.
990
.212
.44
47.7
127.
22.
17.
290
.412
.27
48.5
125.
22.
213
.1
3525
.014
.712
095
.713
.01
51.3
132.
82.
22.
996
.512
.44
54.0
127.
72.
37.
296
.712
.27
54.8
125.
52.
313
.1
3535
.026
.012
098
.713
.02
54.3
133.
22.
22.
999
.512
.45
57.0
128.
02.
37.
299
.812
.28
57.8
125.
72.
413
.1
Tab
le 6
.H
eati
ng
cap
acit
ies
10 t
on
s -
EX
W12
0 (c
on
tin
ued
)
Sou
rce
Load
Flo
w 1
5 G
PM
Flo
w 2
5 G
PM
Flo
w 3
5 G
PM
EWT
°FFl
ow
G
PM
WP
D
FTE
WT
°FH
C
Mb
tuh
Po
wer
kW
HA
M
btu h
LWT
°FE
ER
WP
D
FTH
C
Mb
tuh
Po
wer
kW
HA
M
btu
hLW
T °F
EER
WP
D
FTH
C
Mb
tuh
Po
wer
kW
HA
M
btu
hLW
T °F
EER
WP
D
FT
30 WSHP-PRC022F-EN
Performance Data
4515
.04.
860
114.
15.
9993
.775
.25.
63.
511
5.0
5.73
95.5
69.2
5.9
8.5
115.
35.
6596
.066
.66.
015
.2
4525
.012
.160
122.
15.
9910
1.6
76.3
6.0
3.5
123.
15.
7310
3.5
69.8
6.3
8.5
123.
45.
6510
4.1
67.0
6.4
15.2
4535
.021
.860
126.
05.
9910
5.5
76.8
6.2
3.5
127.
05.
7310
7.4
70.2
6.5
8.5
127.
35.
6510
8.0
67.3
6.6
15.2
4515
.04.
870
111.
86.
8788
.384
.94.
83.
411
2.7
6.57
90.2
79.0
5.0
8.2
112.
96.
4890
.876
.55.
114
.8
4525
.012
.170
119.
66.
8796
.185
.95.
13.
412
0.5
6.57
98.1
79.6
5.4
8.2
120.
86.
4898
.776
.95.
514
.8
4535
.021
.870
123.
46.
8899
.986
.45.
33.
412
4.4
6.58
101.
979
.95.
58.
212
4.7
6.49
102.
577
.15.
614
.8
4515
.04.
880
109.
47.
8482
.694
.64.
13.
211
0.2
7.50
84.6
88.8
4.3
8.0
110.
57.
4085
.286
.34.
414
.3
4525
.012
.180
117.
07.
8590
.295
.64.
43.
211
7.9
7.51
92.3
89.4
4.6
8.0
118.
27.
4092
.986
.84.
714
.3
4535
.021
.880
120.
77.
8593
.996
.14.
53.
212
1.7
7.51
96.0
89.7
4.7
8.0
122.
07.
4196
.787
.04.
814
.3
4515
.04.
890
106.
98.
9276
.510
4.3
3.5
3.2
107.
88.
5378
.698
.63.
77.
710
8.0
8.42
79.3
96.2
3.8
14.0
4525
.012
.190
114.
48.
9383
.910
5.3
3.8
3.2
115.
38.
5486
.299
.24.
07.
711
5.6
8.42
86.8
96.6
4.0
14.0
4535
.021
.890
118.
08.
9387
.510
5.7
3.9
3.2
118.
98.
5489
.899
.54.
17.
711
9.2
8.43
90.5
96.8
4.1
14.0
4515
.04.
810
010
4.5
10.1
270
.011
3.9
3.0
3.1
105.
39.
6872
.310
8.4
3.2
7.6
105.
69.
5473
.010
6.0
3.2
13.6
4525
.012
.110
011
1.8
10.1
277
.211
4.9
3.2
3.1
112.
79.
6879
.610
9.0
3.4
7.6
113.
09.
5580
.410
6.5
3.5
13.6
4535
.021
.810
011
5.3
10.1
380
.811
5.4
3.3
3.1
116.
39.
6983
.210
9.3
3.5
7.6
116.
59.
5683
.910
6.7
3.6
13.6
4515
.04.
811
010
2.1
11.4
463
.112
3.6
2.6
3.0
103.
010
.95
65.6
118.
22.
87.
410
3.2
10.8
066
.411
5.9
2.8
13.4
4525
.012
.111
010
9.3
11.4
570
.212
4.6
2.8
3.0
110.
210
.95
72.8
118.
82.
97.
411
0.4
10.8
073
.611
6.3
3.0
13.4
4535
.021
.811
011
2.7
11.4
673
.612
5.0
2.9
3.0
113.
610
.96
76.2
119.
13.
07.
411
3.9
10.8
177
.011
6.5
3.1
13.4
4515
.04.
812
099
.912
.92
55.8
133.
32.
32.
910
0.7
12.3
658
.512
8.1
2.4
7.2
101.
012
.19
59.4
125.
82.
413
.1
4525
.012
.112
010
6.9
12.9
362
.813
4.3
2.4
2.9
107.
812
.37
65.6
128.
62.
67.
210
8.0
12.2
066
.412
6.2
2.6
13.1
4535
.021
.812
011
0.3
12.9
466
.113
4.7
2.5
2.9
111.
212
.38
68.9
128.
92.
67.
211
1.5
12.2
169
.812
6.4
2.7
13.1
5515
.04.
060
126.
45.
9710
6.1
76.9
6.2
3.5
127.
45.
7110
8.0
70.2
6.5
8.5
127.
75.
6310
8.5
67.3
6.6
15.2
5525
.010
.660
135.
35.
9711
4.9
78.0
6.6
3.5
136.
35.
7111
6.9
70.9
7.0
8.5
136.
75.
6311
7.5
67.8
7.1
15.2
5535
.019
.360
139.
65.
9711
9.2
78.6
6.8
3.5
140.
75.
7112
1.2
71.3
7.2
8.5
141.
05.
6412
1.8
68.1
7.3
15.2
5515
.04.
070
124.
06.
8710
0.5
86.5
5.3
3.4
125.
06.
5710
2.5
80.0
5.6
8.2
125.
36.
4810
3.1
77.2
5.7
14.8
5525
.010
.670
132.
76.
8810
9.2
87.7
5.7
3.4
133.
76.
5811
1.3
80.7
6.0
8.2
134.
06.
4911
1.9
77.7
6.1
14.8
5535
.019
.370
136.
96.
8811
3.4
88.2
5.8
3.4
137.
96.
5811
5.5
81.0
6.1
8.2
138.
36.
4911
6.1
77.9
6.2
14.8
5515
.04.
080
121.
47.
8694
.596
.24.
53.
212
2.3
7.51
96.7
89.8
4.8
8.0
122.
67.
4197
.387
.04.
814
.3
5525
.010
.680
129.
87.
8610
3.0
97.3
4.8
3.2
130.
97.
5210
5.2
90.5
5.1
8.0
131.
27.
4210
5.9
87.5
5.2
14.3
5535
.019
.380
134.
07.
8710
7.1
97.9
5.0
3.2
135.
07.
5210
9.3
90.8
5.3
8.0
135.
37.
4211
0.0
87.7
5.3
14.3
5515
.04.
090
118.
68.
9388
.110
5.8
3.9
3.2
119.
58.
5490
.499
.64.
17.
711
9.8
8.43
91.1
96.8
4.2
14.0
5525
.010
.690
126.
98.
9496
.410
6.9
4.2
3.2
127.
98.
5598
.710
0.2
4.4
7.7
128.
28.
4399
.497
.34.
514
.0
5535
.019
.390
130.
98.
9410
0.4
107.
54.
33.
213
1.9
8.55
102.
710
0.6
4.5
7.7
132.
38.
4410
3.5
97.6
4.6
14.0
Tab
le 6
.H
eati
ng
cap
acit
ies
10 t
on
s -
EX
W12
0 (c
on
tin
ued
)
Sou
rce
Load
Flo
w 1
5 G
PM
Flo
w 2
5 G
PM
Flo
w 3
5 G
PM
EWT
°FFl
ow
G
PM
WP
D
FTE
WT
°FH
C
Mb
tuh
Po
wer
kW
HA
M
btu h
LWT
°FE
ER
WP
D
FTH
C
Mb
tuh
Po
wer
kW
HA
M
btu
hLW
T °F
EER
WP
D
FTH
C
Mb
tuh
Po
wer
kW
HA
M
btu
hLW
T °F
EER
WP
D
FT
Performance Data
WSHP-PRC022F-EN 31
5515
.04.
010
011
5.7
10.1
181
.211
5.4
3.4
3.1
116.
69.
6783
.610
9.3
3.5
7.6
116.
99.
5484
.410
6.7
3.6
13.6
5525
.010
.610
012
3.8
10.1
289
.311
6.5
3.6
3.1
124.
89.
6891
.811
0.0
3.8
7.6
125.
19.
5492
.510
7.1
3.8
13.6
5535
.019
.310
012
7.7
10.1
293
.211
7.0
3.7
3.1
128.
89.
6895
.711
0.3
3.9
7.6
129.
19.
5596
.510
7.4
4.0
13.6
5515
.04.
011
011
2.8
11.4
173
.912
5.0
2.9
3.0
113.
710
.92
76.5
119.
13.
17.
411
4.0
10.7
777
.311
6.5
3.1
13.4
5525
.010
.611
012
0.7
11.4
281
.812
6.1
3.1
3.0
121.
710
.92
84.4
119.
73.
37.
412
2.0
10.7
785
.211
7.0
3.3
13.4
5535
.019
.311
012
4.5
11.4
385
.512
6.6
3.2
3.0
125.
510
.93
88.2
120.
03.
47.
412
5.8
10.7
889
.011
7.2
3.4
13.4
5515
.04.
012
011
0.0
12.8
566
.113
4.7
2.5
2.9
110.
812
.29
68.9
128.
92.
67.
211
1.1
12.1
269
.712
6.3
2.7
13.1
5525
.010
.612
011
7.6
12.8
673
.813
5.7
2.7
2.9
118.
612
.30
76.6
129.
52.
87.
211
8.9
12.1
377
.512
6.8
2.9
13.1
5535
.019
.312
012
1.4
12.8
677
.513
6.2
2.8
2.9
122.
312
.31
80.3
129.
82.
97.
212
2.6
12.1
481
.212
7.0
3.0
13.1
6520
.06.
660
146.
36.
0012
5.9
79.5
7.1
3.5
147.
55.
7412
7.9
71.8
7.5
8.5
147.
95.
6612
8.6
68.4
7.7
15.2
6530
.013
.360
153.
06.
0013
2.5
80.4
7.5
3.5
154.
25.
7413
4.6
72.3
7.9
8.5
154.
55.
6613
5.2
68.8
8.0
15.2
6515
.03.
560
140.
56.
0012
0.0
78.7
6.9
3.5
141.
65.
7412
2.0
71.3
7.2
8.5
141.
95.
6612
2.6
68.1
7.3
15.2
6515
.03.
570
137.
76.
9211
4.1
88.4
5.8
3.4
138.
86.
6211
6.2
81.1
6.1
8.2
139.
26.
5311
6.9
78.0
6.2
14.8
6525
.09.
770
147.
46.
9212
3.7
89.6
6.2
3.4
148.
56.
6212
5.9
81.9
6.6
8.2
148.
96.
5312
6.6
78.5
6.7
14.8
6535
.017
.870
152.
06.
9312
8.4
90.3
6.4
3.4
153.
26.
6313
0.6
82.3
6.8
8.2
153.
66.
5413
1.3
78.8
6.9
14.8
6515
.03.
580
134.
77.
9110
7.7
98.0
5.0
3.2
135.
87.
5611
0.0
90.9
5.3
8.0
136.
17.
4611
0.6
87.8
5.3
14.3
6525
.09.
780
144.
17.
9111
7.1
99.2
5.3
3.2
145.
37.
5711
9.4
91.6
5.6
8.0
145.
67.
4612
0.1
88.3
5.7
14.3
6535
.017
.880
148.
77.
9212
1.7
99.8
5.5
3.2
149.
97.
5712
4.0
92.0
5.8
8.0
150.
27.
4712
4.7
88.6
5.9
14.3
6515
.03.
590
131.
48.
9710
0.8
107.
54.
33.
213
2.5
8.58
103.
210
0.6
4.5
7.7
132.
88.
4610
3.9
97.6
4.6
14.0
6525
.09.
790
140.
68.
9711
0.0
108.
74.
63.
214
1.7
8.58
112.
410
1.3
4.8
7.7
142.
18.
4711
3.2
98.1
4.9
14.0
6535
.017
.890
145.
08.
9811
4.4
109.
34.
73.
214
6.2
8.59
116.
910
1.7
5.0
7.7
146.
68.
4711
7.6
98.4
5.1
14.0
6515
.03.
510
012
7.9
10.1
393
.411
7.1
3.7
3.1
128.
99.
6995
.911
0.3
3.9
7.6
129.
29.
5596
.610
7.4
4.0
13.6
6525
.09.
710
013
6.9
10.1
310
2.3
118.
24.
03.
113
8.0
9.69
104.
911
1.0
4.2
7.6
138.
39.
5610
5.7
107.
94.
213
.6
6535
.017
.810
014
1.2
10.1
410
6.6
118.
84.
13.
114
2.3
9.70
109.
211
1.4
4.3
7.6
142.
79.
5711
0.0
108.
24.
413
.6
6515
.03.
511
012
4.3
11.3
985
.412
6.6
3.2
3.0
125.
310
.90
88.1
120.
03.
47.
412
5.6
10.7
588
.911
7.2
3.4
13.4
6525
.09.
711
013
3.0
11.4
094
.112
7.7
3.4
3.0
134.
010
.90
96.8
120.
73.
67.
413
4.4
10.7
597
.711
7.7
3.7
13.4
6535
.017
.811
013
7.2
11.4
198
.312
8.3
3.5
3.0
138.
310
.91
101.
012
1.1
3.7
7.4
138.
610
.76
101.
911
7.9
3.8
13.4
6515
.03.
512
012
0.6
12.7
876
.913
6.1
2.8
2.9
121.
512
.22
79.8
129.
72.
97.
212
1.8
12.0
680
.712
7.0
3.0
13.1
6525
.09.
712
012
9.0
12.7
985
.313
7.2
3.0
2.9
130.
012
.23
88.3
130.
43.
17.
213
0.3
12.0
689
.212
7.4
3.2
13.1
6535
.017
.812
013
3.1
12.8
089
.413
7.7
3.0
2.9
134.
112
.24
92.4
130.
73.
27.
213
4.5
12.0
793
.212
7.7
3.3
13.1
7515
.03.
360
157.
26.
0813
6.5
81.0
7.6
3.5
158.
55.
8113
8.7
72.7
8.0
8.5
158.
95.
7313
9.3
69.1
8.1
15.2
7525
.09.
260
168.
26.
0814
7.5
82.4
8.1
3.5
169.
65.
8214
9.7
73.6
8.5
8.5
170.
05.
7415
0.4
69.7
8.7
15.2
7535
.016
.860
173.
66.
0815
2.8
83.1
8.4
3.5
174.
95.
8215
5.1
74.0
8.8
8.5
175.
45.
7415
5.8
70.0
9.0
15.2
Tab
le 6
.H
eati
ng
cap
acit
ies
10 t
on
s -
EX
W12
0 (c
on
tin
ued
)
Sou
rce
Load
Flo
w 1
5 G
PM
Flo
w 2
5 G
PM
Flo
w 3
5 G
PM
EWT
°FFl
ow
G
PM
WP
D
FTE
WT
°FH
C
Mb
tuh
Po
wer
kW
HA
M
btu h
LWT
°FE
ER
WP
D
FTH
C
Mb
tuh
Po
wer
kW
HA
M
btu
hLW
T °F
EER
WP
D
FTH
C
Mb
tuh
Po
wer
kW
HA
M
btu
hLW
T °F
EER
WP
D
FT
32 WSHP-PRC022F-EN
Performance Data
7515
.03.
370
154.
07.
0113
0.1
90.5
6.4
3.4
155.
36.
7013
2.4
82.4
6.8
8.2
155.
66.
6113
3.1
78.9
6.9
14.8
7525
.09.
270
164.
87.
0114
0.9
92.0
6.9
3.4
166.
16.
7014
3.2
83.3
7.3
8.2
166.
56.
6114
3.9
79.5
7.4
14.8
7535
.016
.870
170.
07.
0114
6.1
92.7
7.1
3.4
171.
46.
7114
8.5
83.7
7.5
8.2
171.
86.
6214
9.2
79.8
7.6
14.8
7515
.03.
380
150.
47.
9912
3.1
100.
15.
53.
215
1.6
7.64
125.
592
.15.
88.
015
2.0
7.53
126.
288
.75.
914
.3
7525
.09.
280
160.
97.
9913
3.6
101.
55.
93.
216
2.2
7.64
136.
193
.06.
28.
016
2.6
7.54
136.
989
.36.
314
.3
7535
.016
.880
166.
08.
0013
8.7
102.
16.
13.
216
7.3
7.65
141.
293
.46.
48.
016
7.7
7.54
142.
089
.66.
514
.3
7515
.03.
390
146.
49.
0311
5.6
109.
54.
73.
214
7.6
8.64
118.
110
1.8
5.0
7.7
147.
98.
5211
8.8
98.5
5.1
14.0
7525
.09.
290
156.
69.
0412
5.8
110.
95.
13.
215
7.9
8.65
128.
410
2.6
5.4
7.7
158.
38.
5312
9.2
99.0
5.4
14.0
7535
.016
.890
161.
69.
0413
0.7
111.
55.
23.
216
2.9
8.65
133.
410
3.0
5.5
7.7
163.
38.
5313
4.2
99.3
5.6
14.0
7515
.03.
310
014
2.1
10.1
610
7.4
118.
94.
13.
114
3.2
9.72
110.
111
1.5
4.3
7.6
143.
69.
5811
0.9
108.
24.
413
.6
7525
.09.
210
015
2.0
10.1
711
7.3
120.
34.
43.
115
3.3
9.72
120.
111
2.3
4.6
7.6
153.
69.
5912
0.9
108.
84.
713
.6
7535
.016
.810
015
6.9
10.1
712
2.1
120.
94.
53.
115
8.1
9.73
124.
911
2.6
4.8
7.6
158.
59.
6012
5.7
109.
14.
813
.6
7515
.03.
311
013
7.5
11.3
898
.712
8.3
3.5
3.0
138.
610
.89
101.
512
1.1
3.7
7.4
139.
010
.74
102.
311
7.9
3.8
13.4
7525
.09.
211
014
7.2
11.3
910
8.3
129.
63.
83.
014
8.3
10.8
911
1.2
121.
94.
07.
414
8.7
10.7
411
2.0
118.
54.
113
.4
7535
.016
.811
015
1.8
11.4
011
2.9
130.
23.
93.
015
3.0
10.9
011
5.8
122.
24.
17.
415
3.4
10.7
511
6.7
118.
84.
213
.4
7515
.03.
312
013
2.8
12.7
189
.413
7.7
3.1
2.9
133.
812
.16
92.3
130.
73.
27.
213
4.2
11.9
993
.212
7.7
3.3
13.1
7525
.09.
212
014
2.1
12.7
298
.613
8.9
3.3
2.9
143.
212
.17
101.
713
1.5
3.4
7.2
143.
512
.00
102.
612
8.2
3.5
13.1
7535
.016
.812
014
6.6
12.7
310
3.1
139.
53.
42.
914
7.7
12.1
810
6.2
131.
83.
67.
214
8.1
12.0
110
7.1
128.
53.
613
.1
8515
.03.
060
177.
86.
2015
6.6
83.7
8.4
3.5
179.
25.
9315
9.0
74.3
8.9
8.5
179.
65.
8515
9.7
70.3
9.0
15.2
8525
.08.
960
190.
26.
2016
9.1
85.4
9.0
3.5
191.
75.
9317
1.5
75.3
9.5
8.5
192.
25.
8517
2.2
71.0
9.6
15.2
8535
.016
.160
196.
36.
2117
5.1
86.2
9.3
3.5
197.
85.
9417
7.6
75.8
9.8
8.5
198.
35.
8617
8.3
71.3
9.9
15.2
8515
.03.
070
173.
97.
1314
9.6
93.2
7.1
3.4
175.
36.
8215
2.0
84.0
7.5
8.2
175.
76.
7315
2.8
80.0
7.7
14.8
8525
.08.
970
186.
17.
1316
1.7
94.8
7.6
3.4
187.
66.
8216
4.3
85.0
8.1
8.2
188.
06.
7316
5.0
80.7
8.2
14.8
8535
.016
.170
192.
07.
1416
7.6
95.6
7.9
3.4
193.
56.
8317
0.2
85.5
8.3
8.2
194.
06.
7317
1.0
81.1
8.4
14.8
8515
.03.
080
169.
58.
1014
1.9
102.
66.
13.
217
0.9
7.74
144.
493
.76.
58.
017
1.3
7.64
145.
289
.86.
614
.3
8525
.08.
980
181.
48.
1015
3.7
104.
26.
63.
218
2.8
7.75
156.
494
.66.
98.
018
3.2
7.64
157.
290
.57.
014
.3
8535
.016
.180
187.
18.
1115
9.4
104.
96.
83.
218
8.6
7.75
162.
195
.17.
18.
018
9.0
7.65
162.
990
.87.
214
.3
8515
.03.
090
164.
69.
1213
3.5
112.
05.
33.
216
5.9
8.72
136.
210
3.3
5.6
7.7
166.
38.
6013
7.0
99.5
5.7
14.0
8525
.08.
990
176.
19.
1214
5.0
113.
55.
73.
217
7.5
8.73
147.
810
4.2
6.0
7.7
178.
08.
6114
8.6
100.
26.
114
.0
8535
.016
.190
181.
79.
1315
0.5
114.
25.
83.
218
3.2
8.73
153.
410
4.7
6.1
7.7
183.
68.
6115
4.2
100.
56.
214
.0
8515
.03.
010
015
9.3
10.2
112
4.5
121.
24.
63.
116
0.6
9.76
127.
311
2.8
4.8
7.6
161.
09.
6312
8.1
109.
24.
913
.6
8525
.08.
910
017
0.5
10.2
113
5.6
122.
74.
93.
117
1.8
9.77
138.
511
3.7
5.2
7.6
172.
29.
6413
9.3
109.
85.
213
.6
8535
.016
.110
017
5.9
10.2
214
1.0
123.
45.
03.
117
7.3
9.78
143.
911
4.2
5.3
7.6
177.
79.
6414
4.8
110.
25.
413
.6
Tab
le 6
.H
eati
ng
cap
acit
ies
10 t
on
s -
EX
W12
0 (c
on
tin
ued
)
Sou
rce
Load
Flo
w 1
5 G
PM
Flo
w 2
5 G
PM
Flo
w 3
5 G
PM
EWT
°FFl
ow
G
PM
WP
D
FTE
WT
°FH
C
Mb
tuh
Po
wer
kW
HA
M
btu h
LWT
°FE
ER
WP
D
FTH
C
Mb
tuh
Po
wer
kW
HA
M
btu
hLW
T °F
EER
WP
D
FTH
C
Mb
tuh
Po
wer
kW
HA
M
btu
hLW
T °F
EER
WP
D
FT
Performance Data
WSHP-PRC022F-EN 33
8515
.03.
011
015
3.6
11.3
811
4.8
130.
54.
03.
015
4.9
10.8
811
7.7
122.
44.
27.
415
5.2
10.7
311
8.6
118.
94.
213
.4
8525
.08.
911
016
4.4
11.3
912
5.5
131.
94.
23.
016
5.7
10.8
912
8.5
123.
34.
57.
416
6.1
10.7
412
9.4
119.
54.
513
.4
8535
.016
.111
016
9.6
11.3
913
0.7
132.
64.
43.
017
0.9
10.9
013
3.7
123.
74.
67.
417
1.3
10.7
513
4.7
119.
84.
713
.4
8515
.03.
012
014
7.6
12.6
510
4.5
139.
73.
42.
914
8.8
12.1
010
7.5
131.
93.
67.
214
9.2
11.9
310
8.4
128.
53.
713
.1
8525
.08.
912
015
8.0
12.6
511
4.8
141.
13.
72.
915
9.2
12.1
011
7.9
132.
73.
97.
215
9.6
11.9
411
8.9
129.
13.
913
.1
8535
.016
.112
016
3.0
12.6
611
9.7
141.
73.
82.
916
4.3
12.1
112
2.9
133.
14.
07.
216
4.6
11.9
512
3.9
129.
44.
013
.1
For
AN
SI/
AH
RI/
ASH
RAE/
ISO
1325
6-2
cert
ified
rat
ings
, re
fer
to t
he A
NSI/
AH
RI/
ASH
RAE/
ISO
1325
6-2
WLH
P, G
WH
P an
d G
LHP
perf
orm
ance
tab
le.
EWT=
Ent
erin
g W
ater
Tem
pera
ture
; LW
T =
Lea
ving
Wat
er T
empe
ratu
re W
PD =
Wat
ersi
de P
ress
ure
Dro
p; T
C =
Tot
al C
oolin
g Cap
acity
HA =
Hea
t of
Abs
orpt
ion;
CO
P =
Coe
ffic
ient
of
Perf
orm
ance
; G
PM =
Gal
lons
per
Min
ute;
Sou
rce
is s
omet
imes
cal
led
the
outd
oor
side
; Lo
ad is
som
etim
es c
alle
d th
e in
door
sid
e.
Tab
le 6
.H
eati
ng
cap
acit
ies
10 t
on
s -
EX
W12
0 (c
on
tin
ued
)
Sou
rce
Load
Flo
w 1
5 G
PM
Flo
w 2
5 G
PM
Flo
w 3
5 G
PM
EWT
°FFl
ow
G
PM
WP
D
FTE
WT
°FH
C
Mb
tuh
Po
wer
kW
HA
M
btu h
LWT
°FE
ER
WP
D
FTH
C
Mb
tuh
Po
wer
kW
HA
M
btu
hLW
T °F
EER
WP
D
FTH
C
Mb
tuh
Po
wer
kW
HA
M
btu
hLW
T °F
EER
WP
D
FT
Tab
le 7
.C
oo
ling
cap
acit
ies
20 t
on
s -
EX
W24
0
Sou
rce
Load
Flo
w 3
0 G
PM
Flo
w 5
0 G
PM
Flo
w 7
0 G
PM
EWT
°FFl
ow
G
PM
WP
D
FTEW
T °F
TC
Mb
tuh
Po
wer
kW
HR
M
btu
hLW
T °F
EER
WP
D
FTTC
M
btu
hP
ow
er
kWH
R
Mb
tuh
LWT
°FEE
RW
PD
FT
TC
M
btu
hP
ow
er
kWH
R
Mb
tuh
LWT
°F
EER
WP
D
FT
5030
.03.
450
189.
19.
5722
1.8
37.4
19.8
3.6
208.
59.
6824
1.6
41.7
21.5
8.7
218.
59.
7425
1.7
43.8
22.4
15.7
5050
.08.
150
195.
38.
8922
5.7
37.0
22.0
3.6
215.
38.
9924
6.0
41.4
24.0
8.7
225.
69.
0425
6.5
43.6
25.0
15.7
5070
.014
.150
197.
98.
6322
7.3
36.8
22.9
3.6
218.
18.
7224
7.9
41.3
25.0
8.7
228.
58.
7725
8.5
43.5
26.0
15.7
5030
.03.
460
220.
99.
8825
4.6
45.3
22.4
3.5
243.
69.
9827
7.6
50.3
24.4
8.4
255.
210
.05
289.
552
.725
.415
.2
5050
.08.
160
228.
19.
1725
9.4
44.8
24.9
3.5
251.
59.
2728
3.1
49.9
27.1
8.4
263.
59.
3329
5.4
52.5
28.3
15.2
5070
.014
.160
231.
18.
9026
1.5
44.6
26.0
3.5
254.
88.
9928
5.5
49.8
28.3
8.4
266.
99.
0529
7.8
52.4
29.5
15.2
5030
.03.
470
256.
310
.26
291.
352
.925
.03.
328
2.5
10.3
731
7.9
58.7
27.2
8.2
296.
010
.43
331.
661
.528
.414
.8
5050
.08.
170
264.
69.
5229
7.1
52.4
27.8
3.3
291.
79.
6332
4.6
58.3
30.3
8.2
305.
79.
6933
8.7
61.3
31.6
14.8
5070
.014
.170
268.
19.
2429
9.6
52.1
29.0
3.3
295.
59.
3432
7.4
58.2
31.6
8.2
309.
69.
4034
1.7
61.2
32.9
14.8
5030
.03.
480
296.
610
.73
333.
260
.227
.73.
232
7.0
10.8
436
4.0
66.9
30.2
8.0
342.
610
.91
379.
970
.231
.414
.5
5050
.08.
180
306.
39.
9634
0.3
59.6
30.8
3.2
337.
710
.07
372.
166
.533
.58.
035
3.8
10.1
338
8.4
69.9
34.9
14.5
5070
.014
.180
310.
39.
6634
3.3
59.3
32.1
3.2
342.
19.
7737
5.4
66.3
35.0
8.0
358.
49.
8339
2.0
69.8
36.5
14.5
5030
.03.
485
319.
111
.00
356.
763
.729
.03.
235
1.9
11.1
138
9.8
70.9
31.7
7.9
368.
711
.18
406.
874
.533
.014
.3
5050
.08.
185
329.
610
.21
364.
463
.032
.33.
236
3.3
10.3
239
8.6
70.5
35.2
7.9
380.
710
.38
416.
174
.136
.714
.3
5070
.014
.185
333.
89.
9136
7.7
62.7
33.7
3.2
368.
110
.01
402.
270
.336
.87.
938
5.6
10.0
842
0.0
74.0
38.3
14.3
6030
.03.
050
181.
910
.88
219.
037
.916
.73.
620
0.6
11.0
023
8.1
42.0
18.2
8.7
210.
111
.07
247.
944
.019
.015
.7
6050
.07.
450
187.
810
.10
222.
337
.518
.63.
620
7.1
10.2
124
1.9
41.7
20.3
8.7
217.
010
.27
252.
043
.821
.115
.7
6070
.013
.050
190.
39.
8022
3.7
37.3
19.4
3.6
209.
89.
9124
3.6
41.6
21.2
8.7
219.
89.
9725
3.8
43.7
22.0
15.7
6030
.03.
060
213.
111
.19
251.
345
.819
.03.
523
4.9
11.3
127
3.6
50.6
20.8
8.4
246.
211
.38
285.
053
.021
.615
.2
6050
.07.
460
220.
110
.39
255.
545
.321
.23.
524
2.6
10.5
027
8.5
50.3
23.1
8.4
254.
210
.57
290.
352
.724
.015
.2
34 WSHP-PRC022F-EN
Performance Data
6070
.013
.060
222.
910
.08
257.
345
.122
.13.
524
5.8
10.1
928
0.5
50.2
24.1
8.4
257.
510
.26
292.
552
.625
.115
.2
6030
.03.
070
247.
611
.59
287.
153
.521
.43.
327
2.9
11.7
231
2.9
59.1
23.3
8.2
286.
011
.79
326.
261
.824
.314
.8
6050
.07.
470
255.
610
.76
292.
453
.023
.83.
328
1.9
10.8
831
9.0
58.7
25.9
8.2
295.
310
.95
332.
761
.627
.014
.8
6070
.013
.070
259.
010
.44
294.
652
.724
.83.
328
5.5
10.5
632
1.5
58.6
27.0
8.2
299.
110
.62
335.
461
.528
.214
.8
6030
.03.
080
286.
812
.09
328.
060
.923
.73.
231
6.2
12.2
235
7.9
67.4
25.9
8.0
331.
312
.29
373.
270
.526
.914
.5
6050
.07.
480
296.
111
.22
334.
460
.326
.43.
232
6.5
11.3
436
5.2
66.9
28.8
8.0
342.
111
.41
381.
070
.230
.014
.5
6070
.013
.080
300.
010
.89
337.
260
.027
.63.
233
0.8
11.0
036
8.3
66.8
30.1
8.0
346.
511
.07
384.
370
.131
.314
.5
6030
.03.
085
308.
612
.37
350.
964
.425
.03.
234
0.3
12.5
038
2.9
71.4
27.2
7.9
356.
512
.58
399.
574
.828
.314
.3
6050
.07.
485
318.
711
.48
357.
963
.827
.83.
235
1.4
11.6
139
1.0
70.9
30.3
7.9
368.
111
.68
408.
074
.531
.514
.3
6070
.013
.085
322.
911
.14
360.
963
.529
.03.
235
6.0
11.2
639
4.4
70.8
31.6
7.9
372.
911
.33
411.
674
.332
.914
.3
7030
.02.
850
174.
712
.28
216.
638
.414
.23.
619
2.6
12.4
123
4.9
42.3
15.5
8.7
201.
812
.49
244.
444
.216
.215
.7
7050
.06.
950
180.
411
.40
219.
338
.015
.83.
619
8.9
11.5
223
8.2
42.0
17.3
8.7
208.
311
.59
247.
944
.018
.015
.7
7070
.012
.350
182.
711
.06
220.
537
.816
.53.
620
1.4
11.1
823
9.6
41.9
18.0
8.7
211.
111
.25
249.
544
.018
.815
.7
7030
.02.
860
205.
112
.59
248.
146
.316
.33.
522
6.2
12.7
226
9.6
51.0
17.8
8.4
237.
012
.80
280.
753
.218
.515
.2
7050
.06.
960
211.
811
.69
251.
745
.918
.13.
523
3.5
11.8
127
3.9
50.7
19.8
8.4
244.
711
.89
285.
353
.020
.615
.2
7070
.012
.360
214.
611
.34
253.
345
.718
.93.
523
6.6
11.4
627
5.7
50.5
20.6
8.4
247.
911
.53
287.
252
.921
.515
.2
7030
.02.
870
238.
612
.99
283.
054
.118
.43.
326
3.1
13.1
330
7.9
59.5
20.0
8.2
275.
613
.21
320.
762
.120
.914
.8
7050
.06.
970
246.
412
.06
287.
653
.620
.43.
327
1.7
12.1
931
3.3
59.1
22.3
8.2
284.
612
.27
326.
561
.923
.214
.8
7070
.012
.370
249.
611
.70
289.
553
.421
.33.
327
5.2
11.8
331
5.6
59.0
23.3
8.2
288.
311
.90
329.
061
.824
.214
.8
7030
.02.
880
276.
613
.49
322.
661
.620
.53.
230
4.9
13.6
435
1.5
67.8
22.4
8.0
319.
513
.72
366.
370
.923
.314
.5
7050
.06.
980
285.
612
.53
328.
361
.022
.83.
231
4.9
12.6
635
8.1
67.4
24.9
8.0
329.
912
.74
373.
470
.625
.914
.5
7070
.012
.380
289.
312
.16
330.
860
.723
.83.
231
9.0
12.2
936
0.9
67.2
26.0
8.0
334.
212
.36
376.
470
.527
.014
.5
7030
.02.
885
297.
713
.78
344.
765
.221
.63.
232
8.2
13.9
337
5.7
71.9
23.6
7.9
343.
914
.02
391.
775
.224
.514
.3
7050
.06.
985
307.
412
.80
351.
164
.524
.03.
233
8.9
12.9
338
3.0
71.4
26.2
7.9
355.
113
.02
399.
574
.927
.314
.3
7070
.012
.385
311.
412
.42
353.
864
.225
.13.
234
3.3
12.5
538
6.1
71.3
27.4
7.9
359.
712
.63
402.
874
.728
.514
.3
8030
.02.
750
167.
213
.81
214.
338
.912
.13.
618
4.3
13.9
523
1.9
42.6
13.2
8.7
193.
114
.04
241.
044
.513
.815
.7
8050
.06.
650
172.
612
.82
216.
438
.513
.53.
619
0.3
12.9
523
4.5
42.4
14.7
8.7
199.
413
.04
243.
944
.315
.315
.7
8070
.011
.850
174.
912
.44
217.
338
.314
.13.
619
2.8
12.5
723
5.7
42.3
15.3
8.7
202.
012
.65
245.
244
.216
.015
.7
8030
.02.
760
196.
814
.10
244.
946
.914
.03.
521
7.0
14.2
526
5.6
51.3
15.2
8.4
227.
314
.34
276.
353
.515
.915
.2
8050
.06.
660
203.
213
.09
247.
946
.515
.53.
522
4.1
13.2
326
9.2
51.0
16.9
8.4
234.
713
.31
280.
253
.317
.615
.2
8070
.011
.860
205.
912
.70
249.
246
.316
.23.
522
7.0
12.8
427
0.8
50.9
17.7
8.4
237.
812
.92
281.
953
.218
.415
.2
8030
.02.
770
229.
114
.49
278.
654
.715
.83.
325
2.6
14.6
530
2.6
59.9
17.2
8.2
264.
714
.74
315.
062
.418
.014
.8
8050
.06.
670
236.
613
.45
282.
554
.217
.63.
326
0.9
13.6
030
7.3
59.6
19.2
8.2
273.
313
.69
320.
062
.220
.014
.8
8070
.011
.870
239.
713
.06
284.
354
.018
.43.
326
4.3
13.2
030
9.3
59.4
20.0
8.2
276.
913
.28
322.
262
.120
.814
.8
8030
.02.
780
265.
714
.99
316.
862
.317
.73.
229
2.9
15.1
534
4.6
68.3
19.3
8.0
306.
915
.25
358.
971
.220
.114
.5
8050
.06.
680
274.
413
.92
321.
961
.719
.73.
230
2.5
14.0
735
0.5
67.9
21.5
8.0
316.
914
.16
365.
270
.922
.414
.5
Tab
le 7
.C
oo
ling
cap
acit
ies
20 t
on
s -
EX
W24
0 (c
on
tin
ued
)
Sou
rce
Load
Flo
w 3
0 G
PM
Flo
w 5
0 G
PM
Flo
w 7
0 G
PM
EWT
°FFl
ow
G
PM
WP
D
FTEW
T °F
TC
Mb
tuh
Po
wer
kW
HR
M
btu
hLW
T °F
EER
WP
D
FTTC
M
btu
hP
ow
er
kWH
R
Mb
tuh
LWT
°FEE
RW
PD
FT
TC
M
btu
hP
ow
er
kWH
R
Mb
tuh
LWT
°F
EER
WP
D
FT
Performance Data
WSHP-PRC022F-EN 35
8070
.011
.880
277.
913
.50
324.
061
.520
.63.
230
6.4
13.6
535
3.0
67.7
22.4
8.0
321.
013
.74
367.
970
.823
.414
.5
8030
.02.
785
286.
015
.28
338.
165
.918
.73.
231
5.3
15.4
436
8.0
72.4
20.4
7.9
330.
415
.54
383.
475
.621
.314
.3
8050
.06.
685
295.
314
.19
343.
765
.320
.83.
232
5.6
14.3
437
4.5
72.0
22.7
7.9
341.
114
.43
390.
475
.323
.614
.3
8070
.011
.885
299.
213
.77
346.
265
.121
.73.
232
9.8
13.9
137
7.3
71.8
23.7
7.9
345.
614
.00
393.
475
.124
.714
.3
9030
.02.
650
159.
215
.50
212.
139
.410
.33.
617
5.5
15.6
722
9.0
43.0
11.2
8.7
183.
915
.77
237.
744
.711
.715
.7
9050
.06.
450
164.
414
.40
213.
539
.011
.43.
618
1.2
14.5
523
0.9
42.8
12.5
8.7
189.
914
.64
239.
944
.613
.015
.7
9070
.011
.450
166.
513
.97
214.
238
.911
.93.
618
3.6
14.1
223
1.8
42.7
13.0
8.7
192.
414
.21
240.
944
.513
.515
.7
9030
.02.
660
187.
815
.77
241.
647
.511
.93.
520
7.1
15.9
426
1.5
51.7
13.0
8.4
217.
016
.04
271.
753
.813
.515
.2
9050
.06.
460
194.
014
.64
243.
947
.113
.23.
521
3.8
14.8
026
4.3
51.4
14.5
8.4
224.
014
.89
274.
953
.615
.015
.2
9070
.011
.460
196.
514
.20
245.
046
.913
.83.
521
6.6
14.3
626
5.6
51.3
15.1
8.4
227.
014
.45
276.
353
.515
.715
.2
9030
.02.
670
218.
916
.13
274.
055
.413
.63.
324
1.4
16.3
129
7.0
60.3
14.8
8.2
252.
916
.41
308.
962
.815
.414
.8
9050
.06.
470
226.
014
.98
277.
254
.915
.13.
324
9.2
15.1
430
0.9
60.0
16.5
8.2
261.
115
.24
313.
162
.517
.114
.8
9070
.011
.470
229.
014
.54
278.
654
.715
.83.
325
2.5
14.6
930
2.6
59.9
17.2
8.2
264.
514
.79
315.
062
.417
.914
.8
9030
.02.
680
253.
916
.61
310.
663
.115
.33.
227
9.9
16.7
933
7.3
68.8
16.7
8.0
293.
316
.90
351.
071
.617
.414
.5
9050
.06.
480
262.
215
.42
314.
862
.517
.03.
228
9.1
15.5
934
2.3
68.4
18.5
8.0
302.
915
.69
356.
471
.319
.314
.5
9070
.011
.480
265.
614
.97
316.
762
.317
.73.
229
2.8
15.1
334
4.5
68.3
19.4
8.0
306.
815
.22
358.
871
.220
.214
.5
9030
.02.
685
273.
416
.90
331.
066
.816
.23.
230
1.4
17.0
835
9.7
72.9
17.6
7.9
315.
817
.19
374.
476
.018
.414
.3
9050
.06.
485
282.
315
.69
335.
866
.218
.03.
231
1.2
15.8
536
5.3
72.6
19.6
7.9
326.
115
.96
380.
575
.720
.414
.3
9070
.011
.485
285.
915
.22
337.
965
.918
.83.
231
5.3
15.3
936
7.8
72.4
20.5
7.9
330.
315
.48
383.
175
.621
.314
.3
100
30.0
2.5
5015
0.4
17.4
120
9.9
40.0
8.6
3.6
165.
917
.60
225.
943
.49.
48.
717
3.8
17.7
123
4.2
45.0
9.8
15.7
100
50.0
6.2
5015
5.4
16.1
721
0.5
39.6
9.6
3.6
171.
316
.34
227.
143
.110
.58.
717
9.5
16.4
523
5.6
44.9
10.9
15.7
100
70.0
11.2
5015
7.4
15.6
921
0.9
39.5
10.0
3.6
173.
515
.86
227.
643
.110
.98.
718
1.8
15.9
623
6.3
44.8
11.4
15.7
100
30.0
2.5
6017
8.0
17.6
323
8.1
48.1
10.1
3.5
196.
217
.82
257.
052
.211
.08.
420
5.6
17.9
326
6.8
54.1
11.5
15.2
100
50.0
6.2
6018
3.8
16.3
723
9.6
47.7
11.2
3.5
202.
616
.54
259.
151
.912
.28.
421
2.3
16.6
526
9.1
53.9
12.8
15.2
100
70.0
11.2
6018
6.2
15.8
824
0.4
47.6
11.7
3.5
205.
216
.05
260.
051
.812
.88.
421
5.0
16.1
627
0.2
53.9
13.3
15.2
100
30.0
2.5
7020
7.7
17.9
626
8.9
56.2
11.6
3.3
228.
918
.15
290.
960
.812
.68.
223
9.9
18.2
730
2.2
63.1
13.1
14.8
100
50.0
6.2
7021
4.4
16.6
727
1.3
55.7
12.9
3.3
236.
416
.85
293.
960
.514
.08.
224
7.7
16.9
630
5.6
62.9
14.6
14.8
100
70.0
11.2
7021
7.2
16.1
827
2.4
55.5
13.4
3.3
239.
516
.35
295.
360
.414
.68.
225
0.9
16.4
630
7.1
62.8
15.2
14.8
100
30.0
2.5
8024
1.0
18.4
030
3.8
63.9
13.1
3.2
265.
718
.60
329.
269
.414
.38.
027
8.4
18.7
234
2.3
72.0
14.9
14.5
100
50.0
6.2
8024
8.9
17.0
830
7.2
63.4
14.6
3.2
274.
417
.27
333.
369
.015
.98.
028
7.5
17.3
834
6.8
71.8
16.5
14.5
100
70.0
11.2
8025
2.1
16.5
830
8.7
63.2
15.2
3.2
277.
916
.76
335.
168
.916
.68.
029
1.2
16.8
634
8.8
71.7
17.3
14.5
100
30.0
2.5
8525
9.5
18.6
732
3.2
67.7
13.9
3.2
286.
118
.87
350.
573
.615
.27.
929
9.8
18.9
936
4.6
76.4
15.8
14.3
100
50.0
6.2
8526
8.0
17.3
332
7.1
67.1
15.5
3.2
295.
417
.52
355.
273
.216
.97.
930
9.5
17.6
336
9.7
76.2
17.6
14.3
100
70.0
11.2
8527
1.5
16.8
232
8.9
66.9
16.1
3.2
299.
317
.00
357.
373
.017
.67.
931
3.6
17.1
137
2.0
76.0
18.3
14.3
110
30.0
2.5
5014
0.7
19.5
720
7.5
40.6
7.2
3.6
155.
119
.78
222.
643
.87.
88.
716
2.5
19.9
123
0.5
45.4
8.2
15.7
110
50.0
6.1
5014
5.3
18.1
720
7.3
40.3
8.0
3.6
160.
218
.37
222.
943
.68.
78.
716
7.8
18.4
823
0.9
45.2
9.1
15.7
Tab
le 7
.C
oo
ling
cap
acit
ies
20 t
on
s -
EX
W24
0 (c
on
tin
ued
)
Sou
rce
Load
Flo
w 3
0 G
PM
Flo
w 5
0 G
PM
Flo
w 7
0 G
PM
EWT
°FFl
ow
G
PM
WP
D
FTEW
T °F
TC
Mb
tuh
Po
wer
kW
HR
M
btu
hLW
T °F
EER
WP
D
FTTC
M
btu
hP
ow
er
kWH
R
Mb
tuh
LWT
°FEE
RW
PD
FT
TC
M
btu
hP
ow
er
kWH
R
Mb
tuh
LWT
°F
EER
WP
D
FT
36 WSHP-PRC022F-EN
Performance Data
110
70.0
10.9
5014
7.2
17.6
320
7.4
40.2
8.3
3.6
162.
317
.82
223.
143
.59.
18.
717
0.0
17.9
423
1.2
45.1
9.5
15.7
110
30.0
2.5
6016
7.0
19.7
323
4.3
48.9
8.5
3.5
184.
119
.94
252.
152
.69.
28.
419
2.9
20.0
726
1.4
54.5
9.6
15.2
110
50.0
6.1
6017
2.4
18.3
123
4.9
48.5
9.4
3.5
190.
118
.51
253.
352
.410
.38.
419
9.2
18.6
326
2.7
54.3
10.7
15.2
110
70.0
10.9
6017
4.7
17.7
723
5.3
48.4
9.8
3.5
192.
617
.96
253.
952
.310
.78.
420
1.8
18.0
826
3.5
54.2
11.2
15.2
110
30.0
2.5
7019
5.1
20.0
026
3.4
57.0
9.8
3.3
215.
120
.21
284.
161
.410
.68.
222
5.4
20.3
429
4.8
63.6
11.1
14.8
110
50.0
6.1
7020
1.5
18.5
726
4.9
56.6
10.9
3.3
222.
218
.77
286.
261
.111
.88.
223
2.8
18.8
929
7.2
63.3
12.3
14.8
110
70.0
10.9
7020
4.1
18.0
226
5.6
56.4
11.3
3.3
225.
118
.21
287.
261
.012
.48.
223
5.8
18.3
329
8.3
63.3
12.9
14.8
110
30.0
2.5
8022
6.7
20.4
029
6.3
64.9
11.1
3.2
249.
920
.62
320.
370
.012
.18.
026
1.9
20.7
533
2.7
72.5
12.6
14.5
110
50.0
6.1
8023
4.1
18.9
429
8.7
64.4
12.4
3.2
258.
119
.14
323.
469
.713
.58.
027
0.4
19.2
633
6.1
72.3
14.0
14.5
110
70.0
10.9
8023
7.1
18.3
829
9.8
64.2
12.9
3.2
261.
418
.57
324.
869
.514
.18.
027
3.9
18.6
933
7.7
72.2
14.7
14.5
110
30.0
2.5
8524
4.2
20.6
431
4.6
68.7
11.8
3.2
269.
220
.86
340.
474
.212
.97.
928
2.1
21.0
035
3.7
76.9
13.4
14.3
110
50.0
6.1
8525
2.2
19.1
731
7.6
68.2
13.2
3.2
278.
019
.37
344.
173
.914
.47.
929
1.3
19.4
935
7.8
76.7
14.9
14.3
110
70.0
10.9
8525
5.4
18.6
031
8.9
68.0
13.7
3.2
281.
618
.80
345.
873
.715
.07.
929
5.1
18.9
235
9.6
76.6
15.6
14.3
120
30.0
2.5
5012
9.7
22.0
220
4.8
41.4
5.9
3.6
143.
022
.25
218.
944
.36.
48.
714
9.8
22.3
922
6.2
45.7
6.7
15.7
120
50.0
6.0
5013
3.9
20.4
420
3.7
41.1
6.6
3.6
147.
720
.66
218.
244
.17.
18.
715
4.7
20.7
922
5.7
45.6
7.4
15.7
120
70.0
10.8
5013
5.7
19.8
320
3.4
41.0
6.8
3.6
149.
620
.05
218.
044
.07.
58.
715
6.7
20.1
722
5.6
45.5
7.8
15.7
120
30.0
2.5
6015
4.6
22.0
923
0.0
49.7
7.0
3.5
170.
422
.33
246.
753
.27.
68.
417
8.6
22.4
725
5.3
54.9
7.9
15.2
120
50.0
6.0
6015
9.6
20.5
122
9.6
49.4
7.8
3.5
176.
020
.73
246.
853
.08.
58.
418
4.4
20.8
725
5.6
54.7
8.8
15.2
120
70.0
10.8
6016
1.7
19.9
122
9.7
49.2
8.1
3.5
178.
320
.12
247.
052
.98.
98.
418
6.8
20.2
525
5.9
54.7
9.2
15.2
120
30.0
2.5
7018
1.1
22.3
025
7.2
57.9
8.1
3.3
199.
722
.54
276.
662
.08.
98.
220
9.2
22.6
828
6.6
64.0
9.2
14.8
120
50.0
6.0
7018
7.0
20.7
025
7.7
57.5
9.0
3.3
206.
220
.93
277.
661
.89.
98.
221
6.0
21.0
628
7.9
63.8
10.3
14.8
120
70.0
10.8
7018
9.5
20.0
925
8.0
57.4
9.4
3.3
208.
920
.31
278.
261
.610
.38.
221
8.8
20.4
428
8.6
63.7
10.7
14.8
120
30.0
2.5
8021
0.7
22.6
328
8.0
66.0
9.3
3.2
232.
322
.88
310.
470
.710
.28.
024
3.4
23.0
232
2.0
73.0
10.6
14.5
120
50.0
6.0
8021
7.6
21.0
128
9.3
65.5
10.4
3.2
239.
921
.24
312.
470
.411
.38.
025
1.4
21.3
732
4.3
72.8
11.8
14.5
120
70.0
10.8
8022
0.4
20.3
929
0.0
65.3
10.8
3.2
243.
020
.61
313.
470
.311
.88.
025
4.6
20.7
432
5.4
72.7
12.3
14.5
120
30.0
2.5
8522
7.2
22.8
530
5.2
69.9
9.9
3.2
250.
423
.10
329.
375
.010
.87.
926
2.4
23.2
434
1.7
77.5
11.3
14.3
120
50.0
6.0
8523
4.6
21.2
230
7.0
69.4
11.1
3.2
258.
621
.44
331.
874
.712
.17.
927
1.0
21.5
834
4.6
77.3
12.6
14.3
120
70.0
10.8
8523
7.6
20.5
930
7.9
69.2
11.5
3.2
262.
020
.81
333.
074
.512
.67.
927
4.5
20.9
434
6.0
77.2
13.1
14.3
For
AN
SI/
AH
RI/
ASH
RAE/
ISO
1325
6-2
cert
ified
rat
ings
, re
fer
to t
he A
NSI/
AH
RI/
ASH
RAE/
ISO
1325
6-2
WLH
P, G
WH
P an
d G
LHP
perf
orm
ance
tab
le.
EWT=
Ent
erin
g W
ater
Tem
pera
ture
; LW
T =
Lea
ving
Wat
er T
empe
ratu
re W
PD =
Wat
ersi
de P
ress
ure
Dro
p; T
C =
Tot
al C
oolin
g Cap
acity
HA =
Hea
t of
Abs
orpt
ion;
CO
P =
Coe
ffic
ient
of
Perf
orm
ance
; G
PM =
Gal
lons
per
Min
ute;
Sou
rce
is s
omet
imes
cal
led
the
outd
oor
side
; Lo
ad is
som
etim
es c
alle
d th
e in
door
sid
e.
Tab
le 7
.C
oo
ling
cap
acit
ies
20 t
on
s -
EX
W24
0 (c
on
tin
ued
)
Sou
rce
Load
Flo
w 3
0 G
PM
Flo
w 5
0 G
PM
Flo
w 7
0 G
PM
EWT
°FFl
ow
G
PM
WP
D
FTEW
T °F
TC
Mb
tuh
Po
wer
kW
HR
M
btu
hLW
T °F
EER
WP
D
FTTC
M
btu
hP
ow
er
kWH
R
Mb
tuh
LWT
°FEE
RW
PD
FT
TC
M
btu
hP
ow
er
kWH
R
Mb
tuh
LWT
°F
EER
WP
D
FT
Performance Data
WSHP-PRC022F-EN 37
Tab
le 8
.H
eati
ng
cap
acit
ies
20 t
on
s
So
urc
e
Load
Flo
w 3
0 G
PM
Flo
w 5
0 G
PM
Flo
w 7
0 G
PM
EW
T °F
Flo
w
GP
MW
PD
FT
EWT
°FH
C
Mb
tuh
Po
wer
kW
HA
M
btu
hLW
T °F
CO
PW
PD
FT
HC
M
btu
hP
ow
er
kWH
A
Mb
tuh
LWT
°F
CO
PW
PD
FT
HC
M
btu
hP
ow
er
kWH
A
Mb
tuh
LWT
°FC
OP
WP
D
FT
2530
.04.
560
153.
510
.64
117.
270
.24.
23.
515
4.8
10.1
712
0.0
66.2
4.5
8.4
155.
110
.04
120.
964
.44.
515
.2
2550
.011
.460
164.
310
.64
128.
071
.04.
53.
516
5.6
10.1
813
0.8
66.6
4.8
8.4
166.
010
.04
131.
764
.74.
815
.2
2570
.019
.660
169.
510
.65
133.
171
.34.
73.
517
0.8
10.1
913
6.1
66.8
4.9
8.4
171.
210
.05
136.
964
.95.
015
.2
2530
.04.
570
151.
512
.03
110.
580
.13.
73.
315
2.7
11.5
011
3.4
76.1
3.9
8.2
153.
111
.35
114.
474
.44.
014
.8
2550
.011
.470
162.
112
.03
121.
080
.83.
93.
316
3.4
11.5
112
4.1
76.5
4.2
8.2
163.
811
.35
125.
074
.74.
214
.8
2570
.019
.670
167.
212
.04
126.
181
.14.
13.
316
8.6
11.5
212
9.2
76.7
4.3
8.2
169.
011
.36
130.
274
.84.
414
.8
2530
.04.
580
149.
713
.60
103.
390
.03.
23.
215
0.9
13.0
110
6.5
86.0
3.4
8.0
151.
312
.83
107.
584
.33.
514
.5
2550
.011
.480
160.
213
.61
113.
890
.73.
43.
216
1.5
13.0
211
7.1
86.5
3.6
8.0
161.
912
.84
118.
184
.63.
714
.5
2570
.019
.680
165.
313
.62
118.
891
.03.
63.
216
6.6
13.0
212
2.1
86.7
3.7
8.0
167.
012
.85
123.
284
.83.
814
.5
2530
.04.
590
148.
215
.39
95.6
99.9
2.8
3.2
149.
414
.72
99.1
96.0
3.0
7.8
149.
714
.52
100.
294
.33.
014
.1
2550
.011
.490
158.
515
.40
106.
010
0.6
3.0
3.2
159.
814
.73
109.
596
.43.
27.
816
0.2
14.5
311
0.6
94.6
3.2
14.1
2570
.019
.690
163.
615
.41
111.
010
0.9
3.1
3.2
164.
914
.74
114.
596
.63.
37.
816
5.3
14.5
411
5.6
94.7
3.3
14.1
2530
.04.
510
014
6.7
17.4
487
.210
9.8
2.5
3.1
147.
916
.68
91.0
105.
92.
67.
614
8.2
16.4
592
.110
4.2
2.6
13.7
2550
.011
.410
015
7.0
17.4
597
.411
0.5
2.6
3.1
158.
216
.69
101.
310
6.3
2.8
7.6
158.
616
.46
102.
410
4.5
2.8
13.7
2570
.019
.610
016
1.9
17.4
610
2.4
110.
82.
73.
116
3.2
16.7
010
6.2
106.
52.
97.
616
3.6
16.4
710
7.4
104.
72.
913
.7
2530
.04.
511
014
5.3
19.7
777
.811
9.7
2.2
3.0
146.
518
.91
81.9
115.
92.
37.
414
6.8
18.6
583
.111
4.2
2.3
13.4
2550
.011
.411
015
5.5
19.7
987
.912
0.4
2.3
3.0
156.
718
.92
92.1
116.
32.
47.
415
7.1
18.6
693
.411
4.5
2.5
13.4
2570
.019
.611
016
0.4
19.8
092
.812
0.7
2.4
3.0
161.
618
.94
97.0
116.
52.
57.
416
2.0
18.6
898
.311
4.6
2.5
13.4
3530
.04.
360
179.
510
.68
143.
072
.04.
93.
518
0.9
10.2
114
6.0
67.2
5.2
8.4
181.
310
.07
147.
065
.25.
315
.2
3550
.09.
960
192.
010
.68
155.
672
.85.
33.
519
3.6
10.2
215
8.7
67.7
5.5
8.4
194.
010
.08
159.
665
.55.
615
.2
3570
.016
.960
198.
110
.69
161.
673
.25.
43.
519
9.7
10.2
316
4.8
68.0
5.7
8.4
200.
210
.09
165.
765
.75.
815
.2
3530
.04.
370
176.
812
.07
135.
681
.84.
33.
317
8.2
11.5
513
8.8
77.1
4.5
8.2
178.
711
.39
139.
875
.14.
614
.8
3550
.09.
970
189.
212
.08
148.
082
.64.
63.
319
0.7
11.5
515
1.3
77.6
4.8
8.2
191.
211
.39
152.
375
.54.
914
.8
3570
.016
.970
195.
212
.09
153.
983
.04.
73.
319
6.7
11.5
615
7.3
77.9
5.0
8.2
197.
211
.40
158.
375
.65.
114
.8
3530
.04.
380
174.
413
.64
127.
991
.63.
73.
217
5.8
13.0
413
1.3
87.0
3.9
8.0
176.
212
.87
132.
385
.04.
014
.5
3550
.09.
980
186.
613
.65
140.
192
.44.
03.
218
8.1
13.0
514
3.6
87.5
4.2
8.0
188.
612
.87
144.
685
.44.
314
.5
3570
.016
.980
192.
513
.66
145.
992
.84.
13.
219
4.1
13.0
614
9.5
87.8
4.4
8.0
194.
512
.88
150.
685
.64.
414
.5
3530
.04.
390
172.
215
.41
119.
610
1.5
3.3
3.2
173.
514
.74
123.
296
.93.
47.
817
4.0
14.5
412
4.3
95.0
3.5
14.1
3550
.09.
990
184.
215
.42
131.
610
2.3
3.5
3.2
185.
714
.75
135.
397
.43.
77.
818
6.1
14.5
513
6.5
95.3
3.7
14.1
3570
.016
.990
190.
015
.43
137.
410
2.7
3.6
3.2
191.
514
.76
141.
297
.73.
87.
819
2.0
14.5
614
2.3
95.5
3.9
14.1
3530
.04.
310
017
0.0
17.4
411
0.5
111.
32.
93.
117
1.3
16.6
811
4.4
106.
93.
07.
617
1.7
16.4
511
5.6
104.
93.
113
.7
3550
.09.
910
018
1.9
17.4
512
2.3
112.
13.
13.
118
3.3
16.6
912
6.3
107.
33.
27.
618
3.8
16.4
612
7.6
105.
33.
313
.7
3570
.016
.910
018
7.6
17.4
612
8.0
112.
53.
13.
118
9.1
16.7
013
2.1
107.
63.
37.
618
9.6
16.4
713
3.3
105.
43.
413
.7
3530
.04.
311
016
7.8
19.7
410
0.4
121.
22.
53.
016
9.1
18.8
810
4.7
116.
82.
67.
416
9.5
18.6
210
5.9
114.
82.
713
.4
3550
.09.
911
017
9.5
19.7
511
2.1
122.
02.
73.
018
0.9
18.9
011
6.4
117.
22.
87.
418
1.4
18.6
411
7.8
115.
22.
913
.4
3570
.016
.911
018
5.2
19.7
711
7.7
122.
32.
73.
018
6.7
18.9
112
2.1
117.
52.
97.
418
7.1
18.6
512
3.5
115.
32.
913
.4
38 WSHP-PRC022F-EN
Performance Data
3530
.04.
312
016
5.5
22.3
789
.113
1.0
2.2
2.9
166.
821
.39
93.8
126.
72.
37.
216
7.2
21.1
095
.212
4.8
2.3
13.1
3550
.09.
912
017
7.0
22.3
810
0.7
131.
82.
32.
917
8.4
21.4
110
5.4
127.
12.
47.
217
8.9
21.1
110
6.8
125.
12.
513
.1
3570
.016
.912
018
2.6
22.4
010
6.2
132.
22.
42.
918
4.1
21.4
211
1.0
127.
42.
57.
218
4.5
21.1
311
2.4
125.
32.
613
.1
4530
.03.
660
206.
610
.89
169.
573
.85.
63.
520
8.3
10.4
217
2.7
68.3
5.9
8.4
208.
810
.27
173.
766
.06.
015
.2
4550
.08.
560
221.
110
.90
183.
974
.75.
93.
522
2.8
10.4
218
7.3
68.9
6.3
8.4
223.
410
.28
188.
366
.46.
415
.2
4570
.014
.860
228.
110
.90
190.
975
.26.
13.
522
9.9
10.4
319
4.3
69.2
6.5
8.4
230.
410
.29
195.
366
.66.
615
.2
4530
.03.
670
203.
212
.28
161.
283
.54.
83.
320
4.8
11.7
516
4.7
78.2
5.1
8.2
205.
311
.59
165.
775
.95.
214
.8
4550
.08.
570
217.
412
.29
175.
484
.55.
23.
321
9.1
11.7
517
9.0
78.8
5.5
8.2
219.
611
.59
180.
076
.35.
614
.8
4570
.014
.870
224.
212
.30
182.
384
.95.
33.
322
6.0
11.7
618
5.9
79.0
5.6
8.2
226.
611
.60
187.
076
.55.
714
.8
4530
.03.
680
199.
913
.84
152.
693
.34.
23.
220
1.5
13.2
415
6.3
88.1
4.5
8.0
201.
913
.06
157.
485
.84.
514
.5
4550
.08.
580
213.
813
.85
166.
694
.34.
53.
221
5.5
13.2
517
0.3
88.6
4.8
8.0
216.
113
.06
171.
586
.24.
814
.5
4570
.014
.880
220.
613
.86
173.
394
.74.
73.
222
2.4
13.2
617
7.1
88.9
4.9
8.0
222.
913
.07
178.
386
.45.
014
.5
4530
.03.
690
196.
715
.60
143.
410
3.1
3.7
3.2
198.
314
.92
147.
397
.93.
97.
819
8.7
14.7
214
8.5
95.7
4.0
14.1
4550
.08.
590
210.
415
.61
157.
210
4.0
4.0
3.2
212.
114
.93
161.
298
.54.
27.
821
2.6
14.7
316
2.4
96.1
4.2
14.1
4570
.014
.890
217.
115
.62
163.
810
4.5
4.1
3.2
218.
814
.94
167.
898
.84.
37.
821
9.4
14.7
416
9.1
96.3
4.4
14.1
4530
.03.
610
019
3.5
17.6
013
3.5
112.
93.
23.
119
5.1
16.8
313
7.6
107.
83.
47.
619
5.5
16.6
013
8.9
105.
63.
513
.7
4550
.08.
510
020
7.1
17.6
114
7.0
113.
83.
43.
120
8.7
16.8
415
1.2
108.
33.
67.
620
9.2
16.6
115
2.5
106.
03.
713
.7
4570
.014
.810
021
3.6
17.6
215
3.5
114.
23.
63.
121
5.3
16.8
515
7.8
108.
63.
77.
621
5.8
16.6
215
9.1
106.
23.
813
.7
4530
.03.
611
019
0.3
19.8
712
2.5
122.
72.
83.
019
1.8
19.0
012
7.0
117.
73.
07.
419
2.3
18.7
412
8.3
115.
53.
013
.4
4550
.08.
511
020
3.6
19.8
813
5.8
123.
63.
03.
020
5.2
19.0
114
0.3
118.
23.
27.
420
5.7
18.7
514
1.7
115.
93.
213
.4
4570
.014
.811
021
0.1
19.8
914
2.2
124.
03.
13.
021
1.7
19.0
314
6.8
118.
53.
37.
421
2.2
18.7
714
8.2
116.
13.
313
.4
4530
.03.
612
018
7.0
22.4
511
0.3
132.
52.
42.
918
8.4
21.4
711
5.2
127.
52.
67.
218
8.9
21.1
811
6.6
125.
42.
613
.1
4550
.08.
512
020
0.0
22.4
612
3.4
133.
32.
62.
920
1.6
21.4
812
8.3
128.
12.
77.
220
2.1
21.1
912
9.8
125.
82.
813
.1
4570
.014
.812
020
6.4
22.4
812
9.6
133.
82.
72.
920
8.0
21.5
013
4.6
128.
32.
87.
220
8.5
21.2
013
6.1
126.
02.
913
.1
5530
.03.
260
235.
911
.23
197.
675
.76.
23.
523
7.8
10.7
420
1.1
69.5
6.5
8.4
238.
410
.59
202.
266
.86.
615
.2
5550
.07.
760
252.
411
.24
214.
176
.86.
63.
525
4.4
10.7
521
7.7
70.2
6.9
8.4
255.
010
.60
218.
867
.37.
015
.2
5570
.013
.560
260.
411
.25
222.
077
.46.
83.
526
2.5
10.7
622
5.8
70.5
7.1
8.4
263.
110
.61
226.
967
.57.
315
.2
5530
.03.
270
231.
412
.62
188.
385
.45.
43.
323
3.2
12.0
719
2.0
79.3
5.7
8.2
233.
811
.91
193.
176
.75.
814
.8
5550
.07.
770
247.
612
.63
204.
586
.55.
73.
324
9.5
12.0
820
8.3
80.0
6.1
8.2
250.
111
.91
209.
577
.16.
214
.8
5570
.013
.570
255.
412
.64
212.
387
.05.
93.
325
7.4
12.0
921
6.2
80.3
6.2
8.2
258.
011
.92
217.
477
.46.
314
.8
5530
.03.
280
227.
014
.17
178.
695
.14.
73.
222
8.8
13.5
518
2.5
89.2
4.9
8.0
229.
313
.37
183.
786
.65.
014
.5
5550
.07.
780
242.
914
.18
194.
596
.25.
03.
224
4.8
13.5
619
8.5
89.8
5.3
8.0
245.
413
.37
199.
787
.05.
414
.5
5570
.013
.580
250.
614
.19
202.
196
.75.
23.
225
2.5
13.5
720
6.2
90.1
5.5
8.0
253.
213
.38
207.
587
.25.
514
.5
5530
.03.
290
222.
715
.91
168.
410
4.8
4.1
3.2
224.
415
.21
172.
599
.04.
37.
822
5.0
15.0
117
3.8
96.4
4.4
14.1
5550
.07.
790
238.
215
.92
183.
910
5.9
4.4
3.2
240.
115
.22
188.
299
.64.
67.
824
0.7
15.0
218
9.5
96.9
4.7
14.1
5570
.013
.590
245.
815
.93
191.
410
6.4
4.5
3.2
247.
715
.23
195.
799
.94.
87.
824
8.3
15.0
319
7.0
97.1
4.8
14.1
Tab
le 8
.H
eati
ng
cap
acit
ies
20 t
on
s (c
on
tin
ued
)
So
urc
e
Load
Flo
w 3
0 G
PM
Flo
w 5
0 G
PM
Flo
w 7
0 G
PM
EW
T °F
Flo
w
GP
MW
PD
FT
EWT
°FH
C
Mb
tuh
Po
wer
kW
HA
M
btu
hLW
T °F
CO
PW
PD
FT
HC
M
btu
hP
ow
er
kWH
A
Mb
tuh
LWT
°F
CO
PW
PD
FT
HC
M
btu
hP
ow
er
kWH
A
Mb
tuh
LWT
°FC
OP
WP
D
FT
Performance Data
WSHP-PRC022F-EN 39
5530
.03.
210
021
8.3
17.8
715
7.3
114.
63.
63.
122
0.1
17.1
016
1.7
108.
83.
87.
622
0.6
16.8
616
3.0
106.
33.
813
.7
5550
.07.
710
023
3.6
17.8
817
2.5
115.
63.
83.
123
5.4
17.1
117
7.1
109.
44.
07.
623
6.0
16.8
717
8.4
106.
74.
113
.7
5570
.013
.510
024
1.0
17.9
017
9.9
116.
13.
93.
124
2.9
17.1
218
4.5
109.
74.
27.
624
3.5
16.8
818
5.8
107.
04.
213
.7
5530
.03.
211
021
3.9
20.1
114
5.2
124.
33.
13.
021
5.6
19.2
314
9.9
118.
63.
37.
421
6.1
18.9
715
1.3
116.
23.
313
.4
5550
.07.
711
022
8.8
20.1
216
0.2
125.
33.
33.
023
0.6
19.2
416
5.0
119.
23.
57.
423
1.2
18.9
816
6.4
116.
63.
613
.4
5570
.013
.511
023
6.1
20.1
316
7.3
125.
73.
43.
023
7.9
19.2
617
2.2
119.
53.
67.
423
8.5
18.9
917
3.7
116.
83.
713
.4
5530
.03.
212
020
9.2
22.6
413
2.0
133.
92.
72.
921
0.9
21.6
513
7.0
128.
42.
97.
221
1.4
21.3
613
8.5
126.
02.
913
.1
5550
.07.
712
022
3.8
22.6
514
6.5
134.
92.
92.
922
5.6
21.6
715
1.7
129.
03.
17.
222
6.2
21.3
715
3.2
126.
53.
113
.1
5570
.013
.512
023
0.9
22.6
715
3.6
135.
43.
02.
923
2.8
21.6
815
8.8
129.
33.
17.
223
3.3
21.3
816
0.3
126.
73.
213
.1
6540
.04.
960
279.
511
.66
239.
778
.67.
03.
528
1.7
11.1
624
3.7
71.3
7.4
8.4
282.
411
.00
244.
968
.17.
515
.2
6560
.09.
660
292.
111
.68
252.
379
.57.
33.
529
4.5
11.1
725
6.4
71.8
7.7
8.4
295.
211
.01
257.
668
.47.
915
.2
6530
.02.
960
268.
311
.66
228.
577
.96.
73.
527
0.4
11.1
623
2.3
70.8
7.1
8.4
271.
111
.00
233.
567
.77.
215
.2
6530
.02.
970
262.
513
.05
217.
987
.55.
93.
326
4.6
12.4
822
2.0
80.6
6.2
8.2
265.
212
.31
223.
277
.66.
314
.8
6550
.07.
170
280.
813
.06
236.
388
.76.
33.
328
3.1
12.4
924
0.4
81.3
6.6
8.2
283.
712
.32
241.
778
.16.
814
.8
6570
.012
.670
289.
713
.06
245.
189
.36.
53.
329
2.0
12.5
024
9.4
81.7
6.8
8.2
292.
712
.32
250.
678
.47.
014
.8
6530
.02.
980
256.
714
.58
207.
097
.15.
23.
225
8.8
13.9
421
1.2
90.4
5.4
8.0
259.
413
.75
212.
587
.45.
514
.5
6550
.07.
180
274.
714
.59
224.
998
.35.
53.
227
6.9
13.9
522
9.3
91.1
5.8
8.0
277.
513
.76
230.
687
.95.
914
.5
6570
.012
.680
283.
414
.60
233.
698
.95.
73.
228
5.6
13.9
623
8.0
91.4
6.0
8.0
286.
313
.77
239.
388
.26.
114
.5
6530
.02.
990
251.
016
.29
195.
410
6.7
4.5
3.2
253.
015
.59
199.
810
0.1
4.8
7.8
253.
615
.37
201.
297
.24.
814
.1
6550
.07.
190
268.
616
.30
212.
910
7.9
4.8
3.2
270.
715
.59
217.
510
0.8
5.1
7.8
271.
415
.38
218.
997
.85.
214
.1
6570
.012
.690
277.
116
.32
221.
410
8.5
5.0
3.2
279.
315
.61
226.
010
1.2
5.2
7.8
280.
015
.39
227.
498
.05.
314
.1
6530
.02.
910
024
5.3
18.2
318
3.1
116.
43.
93.
124
7.2
17.4
418
7.7
109.
94.
27.
624
7.8
17.2
018
9.1
107.
14.
213
.7
6550
.07.
110
026
2.4
18.2
420
0.2
117.
54.
23.
126
4.5
17.4
520
5.0
110.
64.
47.
626
5.1
17.2
120
6.4
107.
64.
513
.7
6570
.012
.610
027
0.7
18.2
520
8.4
118.
04.
33.
127
2.9
17.4
621
3.3
110.
94.
67.
627
3.5
17.2
221
4.8
107.
84.
713
.7
6530
.02.
911
023
9.3
20.4
216
9.7
126.
03.
43.
024
1.3
19.5
317
4.6
119.
73.
67.
424
1.8
19.2
617
6.1
116.
93.
713
.4
6550
.07.
111
025
6.1
20.4
318
6.4
127.
13.
73.
025
8.1
19.5
419
1.4
120.
33.
97.
425
8.7
19.2
719
3.0
117.
43.
913
.4
6570
.012
.611
026
4.2
20.4
519
4.4
127.
63.
83.
026
6.3
19.5
619
9.5
120.
74.
07.
426
6.9
19.2
920
1.1
117.
64.
113
.4
6530
.02.
912
023
3.2
22.9
015
5.0
135.
53.
02.
923
5.0
21.9
016
0.3
129.
43.
17.
223
5.6
21.6
016
1.9
126.
73.
213
.1
6550
.07.
112
024
9.5
22.9
117
1.3
136.
63.
22.
925
1.5
21.9
217
6.7
130.
13.
47.
225
2.1
21.6
217
8.3
127.
23.
413
.1
6570
.012
.612
025
7.4
22.9
317
9.1
137.
23.
32.
925
9.4
21.9
318
4.6
130.
43.
57.
226
0.1
21.6
318
6.2
127.
43.
513
.1
7530
.02.
760
304.
712
.14
263.
280
.37.
43.
530
7.1
11.6
226
7.4
72.3
7.7
8.4
307.
811
.46
268.
768
.87.
915
.2
7550
.06.
760
326.
012
.15
284.
581
.77.
93.
532
8.6
11.6
228
8.9
73.1
8.3
8.4
329.
411
.46
290.
269
.48.
415
.2
7570
.012
.060
336.
312
.16
294.
882
.48.
13.
533
9.0
11.6
329
9.3
73.6
8.5
8.4
339.
811
.47
300.
669
.78.
715
.2
7530
.02.
770
297.
313
.52
251.
289
.86.
43.
329
9.7
12.9
325
5.6
82.0
6.8
8.2
300.
412
.75
256.
978
.66.
914
.8
7550
.06.
770
318.
113
.53
272.
091
.26.
93.
332
0.7
12.9
427
6.5
82.8
7.3
8.2
321.
412
.76
277.
979
.27.
414
.8
7570
.012
.070
328.
213
.54
282.
091
.97.
13.
333
0.8
12.9
528
6.6
83.2
7.5
8.2
331.
612
.77
288.
079
.57.
614
.8
Tab
le 8
.H
eati
ng
cap
acit
ies
20 t
on
s (c
on
tin
ued
)
So
urc
e
Load
Flo
w 3
0 G
PM
Flo
w 5
0 G
PM
Flo
w 7
0 G
PM
EW
T °F
Flo
w
GP
MW
PD
FT
EWT
°FH
C
Mb
tuh
Po
wer
kW
HA
M
btu
hLW
T °F
CO
PW
PD
FT
HC
M
btu
hP
ow
er
kWH
A
Mb
tuh
LWT
°F
CO
PW
PD
FT
HC
M
btu
hP
ow
er
kWH
A
Mb
tuh
LWT
°FC
OP
WP
D
FT
40 WSHP-PRC022F-EN
Performance Data
7530
.02.
780
290.
115
.03
238.
799
.35.
73.
229
2.4
14.3
824
3.3
91.7
6.0
8.0
293.
114
.18
244.
788
.46.
114
.5
7550
.06.
780
310.
315
.04
259.
010
0.7
6.0
3.2
312.
814
.39
263.
792
.56.
48.
031
3.6
14.1
926
5.1
89.0
6.5
14.5
7570
.012
.080
320.
215
.05
268.
810
1.3
6.2
3.2
322.
714
.40
273.
692
.96.
68.
032
3.5
14.2
027
5.0
89.2
6.7
14.5
7530
.02.
790
282.
716
.72
225.
710
8.8
5.0
3.2
285.
015
.99
230.
410
1.4
5.2
7.8
285.
715
.77
231.
898
.25.
314
.1
7550
.06.
790
302.
516
.73
245.
411
0.2
5.3
3.2
304.
916
.00
250.
310
2.2
5.6
7.8
305.
715
.78
251.
898
.75.
714
.1
7570
.012
.090
312.
116
.74
254.
911
0.8
5.5
3.2
314.
616
.01
259.
910
2.6
5.8
7.8
315.
315
.79
261.
499
.05.
814
.1
7530
.02.
710
027
5.3
18.6
221
1.8
118.
44.
33.
127
7.5
17.8
121
6.7
111.
14.
67.
627
8.2
17.5
721
8.2
107.
94.
613
.7
7550
.06.
710
029
4.6
18.6
323
1.0
119.
64.
63.
129
6.9
17.8
223
6.1
111.
94.
97.
629
7.6
17.5
823
7.6
108.
55.
013
.7
7570
.012
.010
030
3.9
18.6
424
0.3
120.
34.
83.
130
6.3
17.8
324
5.4
112.
35.
07.
630
7.0
17.5
924
7.0
108.
85.
113
.7
7530
.02.
711
026
7.7
20.7
619
6.8
127.
83.
83.
026
9.8
19.8
620
2.0
120.
84.
07.
427
0.5
19.5
920
3.6
117.
74.
013
.4
7550
.06.
711
028
6.4
20.7
821
5.5
129.
14.
03.
028
8.7
19.8
722
0.9
121.
54.
37.
428
9.4
19.6
022
2.5
118.
34.
313
.4
7570
.012
.011
029
5.5
20.7
922
4.5
129.
74.
23.
029
7.8
19.8
923
0.0
121.
94.
47.
429
8.6
19.6
123
1.6
118.
54.
513
.4
7530
.02.
712
025
9.8
23.1
918
0.7
137.
33.
32.
926
1.9
22.1
818
6.2
130.
53.
57.
226
2.5
21.8
818
7.8
127.
53.
513
.1
7550
.06.
712
027
8.0
23.2
119
8.8
138.
53.
52.
928
0.2
22.2
020
4.4
131.
23.
77.
228
0.9
21.8
920
6.1
128.
03.
813
.1
7570
.012
.012
028
6.8
23.2
220
7.5
139.
13.
62.
928
9.1
22.2
121
3.2
131.
63.
87.
228
9.8
21.9
121
5.0
128.
33.
913
.1
8530
.02.
660
346.
012
.64
302.
983
.18.
03.
534
8.8
12.0
930
7.5
74.0
8.5
8.4
349.
611
.92
308.
970
.08.
615
.2
8550
.06.
560
370.
212
.64
327.
084
.78.
63.
537
3.1
12.0
933
1.9
74.9
9.0
8.4
374.
011
.93
333.
370
.79.
215
.2
8570
.011
.660
381.
912
.65
338.
785
.58.
83.
538
5.0
12.1
034
3.6
75.4
9.3
8.4
385.
911
.94
345.
171
.09.
515
.2
8530
.02.
670
336.
914
.00
289.
192
.57.
13.
333
9.6
13.3
929
3.9
83.6
7.4
8.2
340.
413
.21
295.
479
.77.
614
.8
8550
.06.
570
360.
514
.01
312.
794
.07.
53.
336
3.4
13.4
031
7.6
84.5
7.9
8.2
364.
213
.21
319.
180
.48.
114
.8
8570
.011
.670
371.
914
.02
324.
194
.87.
83.
337
4.9
13.4
132
9.1
85.0
8.2
8.2
375.
813
.22
330.
680
.78.
314
.8
8530
.02.
680
327.
915
.49
275.
010
1.9
6.2
3.2
330.
514
.82
279.
993
.26.
58.
033
1.3
14.6
128
1.4
89.5
6.6
14.5
8550
.06.
580
350.
815
.50
297.
910
3.4
6.6
3.2
353.
614
.82
303.
094
.17.
08.
035
4.4
14.6
230
4.5
90.1
7.1
14.5
8570
.011
.680
361.
915
.51
308.
910
4.1
6.8
3.2
364.
814
.84
314.
194
.67.
28.
036
5.6
14.6
331
5.7
90.4
7.3
14.5
8530
.02.
690
318.
717
.15
260.
211
1.2
5.4
3.2
321.
216
.40
265.
310
2.8
5.7
7.8
322.
016
.18
266.
899
.25.
814
.1
8550
.06.
590
341.
017
.16
282.
411
2.7
5.8
3.2
343.
716
.41
287.
710
3.7
6.1
7.8
344.
516
.19
289.
399
.86.
214
.1
8570
.011
.690
351.
817
.17
293.
211
3.5
6.0
3.2
354.
616
.42
298.
510
4.2
6.3
7.8
355.
416
.20
300.
210
0.2
6.4
14.1
8530
.02.
610
030
9.4
19.0
124
4.5
120.
64.
83.
131
1.9
18.1
824
9.8
112.
55.
07.
631
2.6
17.9
325
1.4
108.
95.
113
.7
8550
.06.
510
033
1.0
19.0
226
6.1
122.
15.
13.
133
3.7
18.1
927
1.6
113.
35.
47.
633
4.5
17.9
427
3.3
109.
65.
513
.7
8570
.011
.610
034
1.5
19.0
327
6.6
122.
85.
33.
134
4.2
18.2
028
2.1
113.
85.
57.
634
5.1
17.9
528
3.8
109.
95.
613
.7
8530
.02.
611
029
9.9
21.1
022
7.8
130.
04.
23.
030
2.3
20.1
923
3.4
122.
14.
47.
430
3.0
19.9
123
5.0
118.
74.
513
.4
8550
.06.
511
032
0.8
21.1
224
8.8
131.
44.
53.
032
3.4
20.2
025
4.5
122.
94.
77.
432
4.2
19.9
225
6.2
119.
34.
813
.4
8570
.011
.611
033
1.0
21.1
325
8.9
132.
14.
63.
033
3.6
20.2
126
4.6
123.
34.
87.
433
4.4
19.9
326
6.4
119.
64.
913
.4
8530
.02.
612
029
0.0
23.4
820
9.9
139.
33.
62.
929
2.3
22.4
521
5.7
131.
73.
87.
229
3.0
22.1
521
7.4
128.
43.
913
.1
8550
.06.
512
031
0.3
23.4
923
0.1
140.
73.
92.
931
2.8
22.4
723
6.1
132.
54.
17.
231
3.5
22.1
623
7.9
129.
04.
113
.1
Tab
le 8
.H
eati
ng
cap
acit
ies
20 t
on
s (c
on
tin
ued
)
So
urc
e
Load
Flo
w 3
0 G
PM
Flo
w 5
0 G
PM
Flo
w 7
0 G
PM
EW
T °F
Flo
w
GP
MW
PD
FT
EWT
°FH
C
Mb
tuh
Po
wer
kW
HA
M
btu
hLW
T °F
CO
PW
PD
FT
HC
M
btu
hP
ow
er
kWH
A
Mb
tuh
LWT
°F
CO
PW
PD
FT
HC
M
btu
hP
ow
er
kWH
A
Mb
tuh
LWT
°FC
OP
WP
D
FT
Performance Data
WSHP-PRC022F-EN 41
8570
.011
.612
032
0.1
23.5
123
9.9
141.
34.
02.
932
2.7
22.4
824
5.9
132.
94.
27.
232
3.4
22.1
724
7.8
129.
24.
313
.1
For
AN
SI/
AH
RI/
ASH
RAE/
ISO
1325
6-2
cert
ified
rat
ings
, re
fer
to t
he A
NSI/
AH
RI/
ASH
RAE/
ISO
1325
6-2
WLH
P, G
WH
P an
d G
LHP
perf
orm
ance
tab
le.
EWT=
Ent
erin
g W
ater
Tem
pera
ture
; LW
T =
Lea
ving
Wat
er T
empe
ratu
re W
PD =
Wat
ersi
de P
ress
ure
Dro
p; T
C =
Tot
al C
oolin
g Cap
acity
HA =
Hea
t of
Abs
orpt
ion;
CO
P =
Coe
ffic
ient
of
Perf
orm
ance
; G
PM =
Gal
lons
per
Min
ute;
Sou
rce
is s
omet
imes
cal
led
the
outd
oor
side
; Lo
ad is
som
etim
es c
alle
d th
e in
door
sid
e.
Tab
le 8
.H
eati
ng
cap
acit
ies
20 t
on
s (c
on
tin
ued
)
So
urc
e
Load
Flo
w 3
0 G
PM
Flo
w 5
0 G
PM
Flo
w 7
0 G
PM
EW
T °F
Flo
w
GP
MW
PD
FT
EWT
°FH
C
Mb
tuh
Po
wer
kW
HA
M
btu
hLW
T °F
CO
PW
PD
FT
HC
M
btu
hP
ow
er
kWH
A
Mb
tuh
LWT
°F
CO
PW
PD
FT
HC
M
btu
hP
ow
er
kWH
A
Mb
tuh
LWT
°FC
OP
WP
D
FT
Unit Fan Performance
Antifreeze Correction Factors
Example 1 (Ethylene Glycol):
Determine the corrected cooling capacity and source side water pressure drop for an EXW060 when the EWT for the source side is 80°F and the GPM is 12.5 and the EWT for the load side is 70°F and the GPM is 12.5. The antifreeze solution is 20% by volume of Ethylene Glycol on the source side.
From the catalog data, the cooling capacity at these conditions with 100% water on the source side is 69.0 MBTUH and the water side pressure drop is 5.9 ft. of head. At 20% Ethylene Glycol, the correction factor for the cooling capacity is 0.9912 and the correction factor for the water side pressure drop is 1.068.
The corrected cooling capacity (MBTUH) = 69.0 * 0.9912 = 68.4 MBTUH.
The corrected water side pressure drop (Ft. Head) = 5.9 * 1.068 = 6.3.
Example 2 (Propylene Glycol):
Determine the corrected heating capacity and source side water pressure drop for an EXW240 when the EWT for the source side is 45°F and the GPM is 50 and the EWT for the load side is 100°F and the GPM is 50. The antifreeze solution is 30% by volume of Propylene Glycol on the source side.
From the catalog data, the heating capacity at these conditions with 100% water on the source side is 208.8 MBTUH and the water side pressure drop is 8.9 ft. of head. At 30% Propylene Glycol, the correction factor for the heating capacity is 0.9603 and the correction factor for the water side pressure drop is 1.174.
The corrected heating capacity (Mbtuh) = 208.8 * 0.9603 = 200.5 MBTUH.
The corrected water side pressure drop (Ft. Head) = 8.9 * 1.174 = 10.4.
Table 9. Correction factors for antifreeze solutions
Item
Concentration by Volume
10% 20% 30% 40% 50%
Methanol
Cool Capacity .9980 .9965 .9949 .9932 .9915
Heat Capacity .9950 .9898 .9846 .9794 .9742
Pressure Drop 1.023 1.057 1.091 1.122 1.160
Ethylene Glycol
Cool Capacity .9955 .9912 .9870 .9830 .9790
Heat Capacity .9925 .9848 .9770 .9690 .9610
Pressure Drop 1.024 1.068 1.124 1.188 1.263
Propylene Glycol
Cool Capacity .9934 .9869 .9804 .9739 .9681
Heat Capacity .9863 .9732 .9603 .9477 .9350
Pressure Drop 1.040 1.098 1.174 1.273 1.405
42 WSHP-PRC022F-EN
Unit Fan Performance
Figure 7. Correction factors
Figure 8. Water pressure drop correction factor
WSHP-PRC022F-EN 43
44 WSHP-PRC022F-EN
Electrical Data
Table 10. Electrical performance EXW units
Model No.VOLTS-AC/
HZ/PH
Minimum Utilization
Voltage
Maximum Utilization
VoltageTotal Unit
FLAComp
RLA (ea)Comp
LRA (ea)No. of
Compressors
Minimum Circuit
Ampacity
Maximum Overcurrent Protective
Device
EXW060
208/60/1 197 229 27.6 27.6 158.0 1 34.5 60
230/60/1 207 254 27.6 27.6 158.0 1 34.5 60
208/60/3 187 229 18.1 18.1 137.0 1 22.6 40
460/60/3 414 506 9.0 9.0 62.0 1 11.3 20
230/60/3 207 254 18.1 18.1 137.0 1 22.6 40
EXW120
208/60/1 197 229 55.2 27.6 158.0 2 62.1 80
230/60/1 207 254 55.2 27.6 158.0 2 62.1 80
208/60/3 187 229 36.2 18.1 137.0 2 40.7 50
460/60/3 414 506 18.0 9.0 62.0 2 20.3 25
230/60/3 207 254 36.2 18.1 137.0 2 40.7 50
EXW240
208/60/3 187 229 60.2 30.1 225.0 2 67.7 90
460/60/3 414 506 33.4 16.7 114.0 2 37.6 50
230/60/3 207 254 60.2 30.1 225.0 2 67.7 90
Dimensional Data
Figure 12. EXW060 dimensional data
WSHP-PRC022F-EN 45
Dimensional Data
Figure 13. EXW120 dimensional data
46 WSHP-PRC022F-EN
Dimensional Data
Figure 14. EXW240 dimensional data
WSHP-PRC022F-EN 47
Dimensional Data
Figure 15. Water connections
CONTROL BOX
FRONT OF UNIT
TOP VIEW
CIRCUIT 1
CIRCUIT 1 CIRCUIT 1
LOAD SIDEWater
Connections
SOURCE SIDEWater
Connections
BACK VIEW
SOURCE SIDEWater In
1" (25) NPTI
SOURCE SIDEWater Out1" (25) NPTI
LOAD SIDEWater Out1" (25) NPTI
LOAD SIDEWater In
1" (25) NPTI
CIRCUIT 1 CIRCUIT 1
CIRCUIT 2 CIRCUIT 2
CIRCUIT 1
CIRCUIT 2
CONTROL BOX
LOAD SIDEWater
Connections
SOURCE SIDEWater
Connections
FRONT OF UNIT
TOP VIEW
SOURCE SIDEWater In
1.5" (38) NPTI
SOURCE SIDEWater Out1.5" (38) NPTI
LOAD SIDEWater Out
1.5" (38) NPTI
LOAD SIDEWater In
1.5" (38) NPTI
BACK VIEW
CIRCUIT 2
CONTROL BOX
LOAD SIDEWater
Connections
SOURCE SIDEWater
Connections
FRONT OF UNIT
TOP VIEW
CIRCUIT 2
CIRCUIT 1
CIRCUIT 1
CIRCUIT 1CIRCUIT 2CIRCUIT 2
CIRCUIT 2
CIRCUIT 1
CIRCUIT 1
SOURCE SIDEWater In
2" (51) NPTI
SOURCE SIDEWater Out2" (51) NPTI
LOAD SIDEWater Out
2" (51) NPTI
LOAD SIDEWater In
2" (51) NPTI
BACK VIEW
48 WSHP-PRC022F-EN
Mechanical Specifications
Equipment shall be completely assembled, piped, internally wired, fully charged with R-410A, and test operated at the factory. A controls field interface terminal strip, and all safety controls shall be furnished, installed and tested by the unit manufacturer. The unit shall be certified and rated in accordance with ANSI/AHRI/ASHRAE/ISO 13256-2.
The system's water inlet and outlet for the source and load-side connections shall be female NPT composed of copper. Service and caution labels shall be placed on the unit in their appropriate locations.
Cabinet
Unit casing shall be constructed of zinc coated, heavy gauge, galvanized steel. Access to the refrigerant and controls shall be provided through the front and side, access panels.
All panels shall be insulated with ½-inch thick dual density bonded glass fiber. The insulation shall meet the erosion requirements of UL 181. It shall have a flame spread of less than 25 and a smoke developed classification of less than 50 per ASTME-84 and UL 723.
The unit shall be installed for proper access. Procedures for proper access inspection and cleaning of the unit shall be included in the maintenance manual.
Compressors
Vibration isolation shall be provided through rubber mounting devices located underneath the compressor. Internal thermal overload protection shall be provided. Protection against excessive discharge pressure shall be provided by means of a high-pressure switch. A loss of charge shall be detected by a low-pressure safety.
Deluxe Controls
The Deluxe control package shall provide a 100 VA transformer with a circuit breaker. The controller shall include a lockout relay, anti-short cycle compressor protection, random start delay, brown-out protection, low pressure time delay, compressor delay on start and an open relay for ancillary controls request. Three LEDs, Light Emitting Diodes, shall also be included for diagnostics of each refrigeration circuit.
Electrical
The unit control box shall contain the necessary devices to allow heating and cooling operation to occur from a remote wall thermostat. These devices shall be as follows:
• A 24 VAC energy limiting class II 100 VA transformer
• A 24 VAC compressor contactor for compressor control
• Field control connections shall be provided for ease of hook-up to a terminal strip located in the unit's control box
• A lockout relay, which controls cycling of the compressor, shall be provided to protect the compressor during adverse operating conditions. This device shall be capable of reset by interrupting power to the 24 VAC control circuit. Reset may be done either at a remote thermostat or through a momentary main power interruption.
• A high-pressure switch shall be provided to protect the compressor against operation at refrigerant system pressure exceeding 650 psig.
• A low pressure switch shall be provided to protect the compressor against operation at refrigerant system pressure below 40 psig (loss of charge).
• Freeze protection shall be provided to prevent the unit from operating at low water temperatures.
• Discharge line thermostat shall be provided to protect the compressor against a high discharge temperatures in case of loss of charge or other conditions which could drive the discharge temperature higher.
WSHP-PRC022F-EN 49
Mechanical Specifications
Nameplate information shall be provided for the application of either time-delay fuses or HACR circuit breakers for branch circuit protection from the primary source of power.
Pump Module
The pump module shall consist of either a single or dual 1/6 hp cast iron pump and a brass 3-way shut-off valve. The pump module kits shall contain the necessary components for the installation, operation and maintenance of the water circuit of a closed-loop distributed pumping application.
Refrigerant Circuits
The refrigerant circuit shall contain a thermal expansion device. Service pressure ports shall be factory supplied on the high and low pressure sides for easy refrigerant pressure or temperature testing.
Refrigerant Tubing
The refrigerant tubing shall be of 99% pure copper. This system shall be free from contaminants and conditions such as drilling fragments, dirt and oil.
Reversing Valve
The reversing valve shall be a pilot operating, sliding piston type with a replaceable, encapsulated magnetic coil. The reversing valve shall be energized in the cooling cycle.
Water-to-Refrigerant Heat Exchangers
The water-to-refrigerant heat exchangers shall be of a high quality, co-axial coil for maximum heat transfer. The source-side heat exchanger shall be constructed of copper with an option of cupro-nickel. The load-side heat exchanger shall be constructed of copper. Both heat exchangers shall be deeply fluted to enhance heat transfer and minimize fouling and scaling. The coil shall have a working pressure of 650 psig on the refrigerant side, and 400 psig on the waterside.
50 WSHP-PRC022F-EN
The AHRI Certified mark indicates Trane U.S. Inc. participation in the AHRI Certification program. For verification of individual certified products, go to ahridirectory.org.
©2020 Trane
Trane has a policy of continuous product and product data improvement and reserves the right to change design and specifications without notice. We are committed to using environmentally conscious print practices.
Trane - by Trane Technologies (NYSE: TT), a global climate innovator - creates comfortable, energy efficient indoor environments for commercial and residential applications. For more information, please visit trane.com or tranetechnologies.com.
WSHP-PRC022F-EN 20 Mar 2020Supersedes WSHP-PRC022E-EN (Aug 2017)