Trane SSP-PRC001-EN User Manual

Split System Heat Pumps
Split System Heat Pumps 7½ - 20 Tons - 60 Hz
Air Handlers 5-20 Tons - 60 Hz
February 2008 SSP-PRC001-EN

Introduction

The Trane reputation for quality and reliability in air conditioning is apparent with Odyssey™ light commercial split systems. These Trane systems are designed to meet your job requirements every time...and at a competitive price.
Odyssey has Trane quality and reliability built-in. Couple that with outstanding efficiency, flexibility and installation ease, and you have an unbeatable combination for years of worry-free service and operation.

Manufacturing Control

Trane’s exclusive control over the design and manufacturing of all major components is unique in the industry. This approach assures total control over both the quality and reliability of these components and allows us to custom match components to deliver the best in split system performance.

Standardized Cabinets

In addition, all cabinets have been standardized. When you are servicing an outdoor unit or an air handler, all components are in the same location from unit to unit.

Filters

The 5, 7½ and 10 ton air handlers are supplied with 1" throwaway filters as standard. The filter racks were designed to easily convert for installation of 2" filters. The 15 and 20 ton air handlers have 2" filters as standard.
Figure 1.

Designing the Details

Careful attention was given to designing the details — from control wiring to the access panels. Odyssey units feature time-saving colored and numbered wiring and removable panels which allow complete access to all major components and controls. All outdoor units feature external high and low pressure switches for easy diagnosing and servicing of the unit. Service valves with gauge ports are provided on all units.
2 SSP-PRC001-EN

Contents

Introduction. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
Features and Benefits. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
Application Considerations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
Selection Procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
Model Number Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
General Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
Performance Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
Controls . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31
Electrical Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32
Jobsite Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36
Typical Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37
Dimensional Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42
Weights . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 58
Mechanical Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 60
SSP-PRC001-EN 3

Features and Benefits

Condensing Units Options

The 7½ and 10-ton single compressor models feature single refrigeration circuitry, lowering job installation costs by requiring only one set of refrigerant lines. These units are ideal for low cost, new construction, building renovation and unit replacement jobs.
In addition, Odyssey includes 15 and 20-ton dual compressor units to give true stand-by protection; if one compressor fails, the second will automatically start-up. Also, the first compressor can be serviced without shutting down the unit since the refrigerant circuits are independent.
Dual compressors also provide high energy savings. Most buildings are designed for peak load requirements even though the building typically operates at less than peak load. During light load conditions only one compressor functions to maintain the space comfort, reducing energy use. For instance, the EER of the 15 ton unit at ARI conditions is 10.1 and at part load conditions it is 11.6.
Trane split systems have been specified in thousands of applications. You’ll find Odyssey will win you even more jobs with its compact, manageable cabinet which will save time and money for rigging and installation and permit Trane to replace almost any unit — effortlessly.
Each heat pump unit can operate to 50°F as standard in the cooling mode. An accessory Head Pressure Control gives you the capability to operate to 0°F. All heat pumps offer these accessories:
Head Pressure Control
Coil Guard Kits
Isolators - both Rubber-in-Shear and Spring Type
Anti-Short-Cycle Kit
Time Delay Relay

Air Handlers Offer More Flexibility

Flexibility is a key to meeting changing market requirements. Odyssey split systems offer not only heat pumps, but also convertible air handlers.
The air handlers can be installed either vertically in a mechanical room or horizontally above a ceiling — and it doesn’t require any removal of panels to make either airflow application work.
Figure 2.
These air handlers have a double sloped condensate drain pan that allows for either airflow configuration. The drain pan can easily be removed for cleaning.
All the air handlers feature factory­installed belt drive and ball bearing evaporator fans with adjustable sheaves for maximum airflow performance. In fact, the standard motor on the 10-ton air handler will deliver 4000 cfm at 1.4" ESP. Plus oversized motors are available for higher static applications.
4 SSP-PRC001-EN
Features and Benefits
Odyssey’s air handler versatility is further increased by a complete line of accessories designed to match and install smoothly:
Discharge Plenum and Grille
Return Grille
Subbase
Electric Heaters
High Static Evaporator Motor
Isolators both Rubber-in-Shear and Spring Type
A full line of Thermostats
Outdoor Thermostat
Figure 3.
Odyssey — A Complete Split System
Odyssey delivers the flexibility to select a complete system that meets your particular job requirements. Air handlers are designed, tested and rated with outdoor units to let you select the proper match between capacity and load. Also, these matched systems can be quickly engineered for specific applications using Trane’s computerized selection and load programs.
Odyssey Lowers Installation Costs
Your installation costs are reduced with Odyssey Split. Both outdoor units and air handlers are factory packaged and assembled so jobsite installation is quick and easy. You get a complete system, with all the components, controls and the internal wiring, factory-installed for a smooth jobsite start-up.
Unlike some competitive models the following components are factory­installed in Trane air handlers:
Single Point Power Entry
Blower Wheel and Housing
Evaporator Motor with Sheaves and Pulleys
Low Voltage Terminal Board
•Transformer
Contactor
Fan Relay
DX Coil with complete Refrigeration Circuitry
Expansion Valve and Check Valves
There’s no need to install components and put together the air handler on the job. This provides you with less labor cost and fewer chances for installation errors which cause callbacks. All this means saving you money both in replacement and new construction applications.
Figure 4.
SSP-PRC001-EN 5

Application Considerations

Application of this product should be within the catalogued airflow and performance considerations.

Clearance Requirements

The recommended clearances identified with unit dimensions should be maintained to assure adequate serviceability, maximum capacity and peak operating efficiency. Actual clearances which appear inadequate should be reviewed with a local Trane Representative.

180° Blower Rotation

The 5, 7½ and 10 ton air handler blower section can be rotated 180° to change the discharge pattern. This modification must be done in the field and requires an additional kit. See unit installer's guide.

Low Ambient Cooling

As manufactured, these units can operate to 50°F in the cooling mode of operation. An accessory head pressure control will allow operation to 0°F outdoor ambient. When using these units with control systems such as bypass changeover Variable Air Volume, make sure you consider the requirement for a head pressure control to allow low ambient cooling.
Figure 5. Typical Horizontal Air Handler Application
Figure 6. Typical Split System Application
6 SSP-PRC001-EN
Application Considerations
Figure 7. Typical Vertical Air Handler Application
SSP-PRC001-EN 7

Selection Procedure

Cooling Capacity

Step 1.
Calculate the building’s total and sensible cooling loads at design conditions.
Step 2.
Size the equipment using Tab l e 3 . Match the cooling loads at design conditions.
Example: The following are the building cooling requirements:
a. Electrical Characteristics:
460/60/3
b. Summer Design Conditions:
Entering Evaporator Coil: 80°F DB/67°F WB Outdoor Ambient: 95°F Total Cooling Load: 90 MBh
c. Sensible Cooling Load: 64
MBh
d. Airflow: 3000 cfm
External Static Pressure:
0.77 inches of water gauge
Tab le 3 shows that TWA090A4 with
TWE090A has a gross cooling capacity of 91.1 MBh and 65.9 MBh sensible capacity at 95°F DB ambient and 3000 cfm with 80°F DB/67°F WB air entering the evaporator.
To find the net cooling capacities, fan motor heat must be subtracted. Determine the total unit static pressure:
External Static Duct System 0.77 in. Standard Filter 1 in. 0.10 in. Supplementary Electric Heat 0.23 in. Total Static Pressure 1.10 in.
Note: The Evaporator Fan
Performance Table has included the effect of a 1 in. filter already. Therefore, the actual Total Static Pressure is
1.10 - 0.10 = 1.0 0 in. Wit h 3000 cfm and 1.00 in.,
Ta b le 1 7 shows a 1.17 bhp.
Note: The formula below the table
can be used to calculate Fan Motor Heat:
3.5 X bhp = MBh
3.5 X 1.17 = 4.09 MBh
Net Total Cooling Capacity =
91.1 MBh - 4.09 = 87.01 MBh
Net Sensible Cooling Capacity =
65.9 MBh - 4.09 = 61.81 MBh

Heating Capacity

Step 1.
Calculate the building heating load using the Trane calculation form or any other standard accepted method.
Step 2.
Size the equipment using Tab le 11 to match the heating loads at design conditions. The following are building heating requirements:
a. Total Heating Load: 95.0 MBh b. Outdoor Ambient (Winter):
17°F DB
c. Indoor Return Temperature:
70°F DB
d. Airflow: 3000 cfm
Ta b le 11 indicates the mechanical
heating portion of the heat pump will provide 54.8 MBh for the winter design conditions.
Step 3.
Because 54.8 MBh is less than the building’s required heating capacity, a supplementary heater must be selected. 95.0 - 54.8 = 40.2 MBh minimum heater capacity.
From Table 32, the 14.96 kW heater has a capacity of 51,058 Btu/h.
From Table 37, the 14.96 kW heater at 460V indicates the heater model number is BAYHTRL415A.
This heater will be adequate to cover the residual heat capacity needed for the application.

Air Delivery Selection

External static pressure drop through the air distribution system has been calculated to be 0.77 in. of water gauge.
From Table 31 static pressure drop through the electric heater is 0.12 in. of water (0.77 + 0.12 = .89 in.)
Enter Tab l e 17 for TWE090A4 at 3000 cfm and .90 static pressure. The standard motor at 790 RPM will give the desired airflow.
8 SSP-PRC001-EN

Model Number Description

Split System Heat Pump Model Nomenclature

TWA 0 9 0 A 3 00 A A 123 45 6 7 8 910 11 12
Digits 1,2,3 - Product Type
TWA = Split System Heat Pump
Digits 4,5,6 - Nominal Gross Cooling Capacity (MBh)
090 = 7 1/2 Tons
120 = 10 Tons
180 = 15 Tons
240 = 20 Tons
Digits 7 - Major Development Sequence
A = Single Compressor
B = Dual Compressor
Digits 8 - Electrical Characteristics
1 = 208-230/60/1
3 = 208-230/60/3
4 = 460/60/3
W = 575/60/3
Digits 9,10 - Factory Installed Options
00 = Packed Stock
0S = Black Epoxy Coated Coil
Digits 11 - Minor Design Sequence
A = Current Design Sequence
Digits 12 - Service Digit
A = Current Service Digit

Air Handler Model Nomenclature

TWE 0 9 0 A 1 00 A A 123 45 6 7 8 910 11 12
Digits 1,2,3 - Product Type
TWE = Split System Heat Pump/ Cooling Air Handler
Digits 4,5,6 - Nominal Gross Cooling Capacity (MBh)
060 = 5 Tons
090 = 7½ Tons
120 = 10 Tons
180 = 15 Tons
240 = 20 Tons
Digits 8 - Electrical Characteristics
1 = 208-230/60/1
3 = 208-230/60/3
4 = 460/60/3
W = 575/60/3
Digits 9,10 - Factory Installed Options
00 = Packed Stock
Digits 11 - Minor Design Sequence
A = Current Design Sequence
Digits 12 - Service Digit
A = Current Service Digit
Digits 7 - Refrigerant Circuit
A = Single
B = Dual
SSP-PRC001-EN 9

General Data

Table 1. General Data — Heat Pumps
7½ Tons 10 Tons 15 Tons 20 Tons
Single Compressor TWA090A3,A4,AW
Cooling Performance
(i)
Gross Cooling Capacity Matched Air Handler 91,000 124,000 182,000 240,000 Matched Heat Pump Only ARI Net Cooling Capacity
(iv)
EER
(ii)
(iii)
91,000 124,000 182,000 240,000 89,000 120,000 176,000 234,000
Matched Air Handler 10.1 10.1 9.9 9.3 Heat Pump Only 11.5 11.1 10.9 10.3 Integrated Part Load Value
(v)
- - 11.0 10.5
System/Condensing Unit Power (kW) 8.70/7.95 11.91/11.07 17.77/16.62 24.99/23.20
Heating Performance
ARI Heating and Matched Air Handler High Temperature Capacity 87,000 122,000 168,000 234,000 System kW/COP 7.68/3.3 10.82/3.2 16.10/3.1 22.42/3.1 Low Temperature Capacity 55,000 80,000 106,000 154,000 System kW/COP 6.73/2.4 9.62/2.4 14.16/2.2 19.54/2.30
Compressor
TM
No./Type 1/Trane 3-D
Scroll 1/Trane 3-DTM Scroll 2/Trane 3-DTM Scroll 2/Trane 3-DTM Scroll No. Motors/HP 1/7.5 1/10 2/7.5 2/10 Motor RPM 3450 3450 3450 3450
Sound Rating (BELS) System Data
(vii)
(vi)
8.8 8.8 8.8 8.8
No. Refrigerant Circuits 1 1 2 2 Suction Line (in.) OD 1 3/8 1 3/8 1 3/8 1 3/8 Liquid Line (in.) OD 1/2 1/2 1/2 1/2 Outdoor Coil - Type Plate Fin Plate Fin Plate Fin Plate Fin Tube Size (in.) OD .375 .375 .375 .375 Face Area (sq ft) 19.2 29.5 38.5 50.2 Rows/FPI 2/18 2/18 2/18 2/18 Refrigerant Control Expansion Valve Expansion Valve Expansion Valve Expansion Valve Outdoor Fan - Type Propeller Propeller Propeller Propeller No. Used/Diameter (in.) 1/26 1/28 2/26 2/28 Drive Type/No. Speeds Direct/1 Direct/1 Direct/1 Direct1 CFM 5890 8200 11,780 16,240 No. Motor/HP 1/.50 1/1.00 2/.50 2/1.00 Motor RPM 1100 1100 1100 1100
Refrigerant Charge (Field Supplied)
(lbs of R-22)
(i)
(ii) (iii) (iv) (v)
(vi) (vii) (viii)
(viii)
Cooling Performance is ra ted at 95°F ambient, 80°F enterin g dry bulb , 67°F ente ring wet bu lb. Gross c apacity doe s not inclu de t he effect of fan motor heat. ARI capacity is net and includes the effect of fan motor heat. Certified in accordance with the Unitary Large Equipment certification program, which is based on ARI Standard 340/360-00. Condensing unit only gross cooling capacity rated at 45°F saturated suction temperature and at 95°F ambient. ARI net cooling capacity is calculated with matched blower coil and 25 feet of 1 3/8" or 1/2" OD interconnecting tubing. EER is rated at ARI conditions and in accordance with DOE test procedures. Integrated part load value is based on ARI Standard 340/360-00. Units are rated at 80°F ambient, 80°F entering dry bulb (DB), and 67°F entering wet bulb (WB) at ARI rated cfm. Sound rating shown is tested in accordance with ARI Standard 270 or 370. Refer to refrigerant piping applications manual for line sizing and line length. Refrigerant (operating) charge is for c ondens ing uni t (all circui ts) wi th matchi ng bl ower co ils and 25 feet of inter connec ting refrigerant lines. All units are supplied with a small nitrogen holding charge only.
18.00 31.50 36.00 48.50
Single Compressor TWA120A3,A4,AW
Dual Compressor
TWA180B3,B4,BW
Dual Compressor
TWA240B3,B4,BW
10 SSP-PRC001-EN
General Data
Table 2. General Data - Air Handlers
5 Tons 7½ Tons 10 Tons
Single Circuit
TWE060A1
A3, A4, AW
Dual Circuit
(i)
,
TWE060B1, B3,
B4
System Data
No. Refrigerant Circuits 1 2 1 2 1 1 Suction Line (in.) OD 1 1/8 3/4 1 3/8 1 1/8 1 3/8 1 3/8 Liquid Line (in.) OD 3/8 5/16 1/2 3/8 1/2 1/2 Indoor Coil - Type Plate Fin Plate Fin Plate Fin Plate Fin Plate Fin Plate Fin Tube Size (in.) .375 .375 .375 .375 .375 .375 Face Area (sq. ft.) 5.0 5.0 8.1 8.1 11.2 11.2 Rows/FPI 3/12 3/12 3/12 3/12 4/12 4/12 Refrigerant Control Expansion Valve Expansion Valve Expansion Valve Expansion Valve Expansion Valve Expansion Valve Drain Connection Size (in.) 1 PVC 1 PVC 1 PVC 1 PVC 1 PVC 1 PVC Indoor Fan - Type Centrifugal Centrifugal Centrifugal Centrifugal Centrifugal Centrifugal No. Used/Diameter x Width (in.) 1/12 x 12 1/12 x 12 1/15 x 15 1/15 x 15 1/15 x 15 1/15 x 15 Drive Type/No. Speeds Belt/Adjustable Belt/Adjustable Belt/Adjustable Belt/Adjustable Belt/Adjustable Belt/Adjustable CFM 2000 2000 3000 3000 4000 4000 No. Motors 1 1 1 1 1 1 Motor HP - Standard/Oversized .75/1.00 .75/1.00 1.50/2.00 1.50/2.00 2.00 2.00/3.00 Motor RPM 1725 1725 1725 1725 1725 1725 Motor Frame Size 56 56 56H 56H 56HZ 56HZ Filters - Type/Furnished Throwaway/Yes Throwaway/Yes Throwaway/Yes Throwaway/Yes Throwaway/Yes Throwaway/Yes (No.)/Size Recommended (1) 16x20x1 (1) 16x20x1 (3) 16x25x1 (3) 16x25x1 (4) 16x25x1 (4) 16x25x1
(1) 20x20x1 (1) 20x20x1
10 Tons 15 Tons 20 Tons
Dual Circuit
Dual Circuit
TWE120B1
(iv)
TWE120B3
B4, BW
System Data
No. Refrigerant Circuits 2 2 2 2 2 Suction Line (in.) OD 1 1/8 1 1/8 1 1/8 1 3/8 1 3/8 Liquid Line (in.) OD 3/8 3/8 3/8 1/2 1/2 Indoor Coil - Type Plate Fin Plate Fin Plate Fin Plate Fin Plate Fin Tube Size (in.) .375 .375 .375 .375 .375 Face Area (sq. ft.) 11.2 11.2 11.2 16.3 21.6 Rows/FPI 4/12 4/12 4/12 3/12 3/12 Refrigerant Control Expansion Valve Expansion Valve Expansion Valve Expansion Valve Expansion Valve Drain Connection Size (in.) 1 PVC 1 PVC 1 PVC 1 PVC 1 PVC Indoor Fan - Type Centrifugal Centrifugal - Centrifugal Centrifugal No. Used/Diameter x Width (in.) 1/15x15 1/15x15 - 2/15x15 2/15x15 Drive Type/No. Speeds Belt/Adjustment Belt/Adjustment - Belt/Adjustment Belt/Adjustment CFM 4000 4000 - 6000 8000 No. Motors 1 1 - 1 1 Motor HP - Standard/Oversized 2.00/- 2.00/3.00 - 3.00/5.00 5.00/7.50 Motor RPM 1725 1725 - 1735/1750 1750/3470 Motor Frame Size 56HZ 56HZ - 145T 184T Filters - Type/Furnished Throwaway/Yes Throwaway/Yes Throwaway/
(No.)/Size Recommended (4) 16x25x1 (4) 16x25x1 (4) 16x25x1 (8) 15x20x2 (4) 16x25x2
(i)
TWE60A1 has motor RPM of 3450 for oversized motor.
(ii)
Ships wired for 208-230/60/3. Field convertible to 460/60/3.
(iii)
TWE120A1 does not have an oversized motor option.
(iv)
TWE120B1 does not have an oversized motor option.
(v)
Coil has filter rack as standard, but no filters. When us ing this coil as a duct coi l, use below s ize recommended. Filters for coil no t recommen ded when using coil with upflow gas furnaces.
Single Circuit
TWE090A1,
(ii)
,
Dual Circuit
TXE120B500B
A3
(ii)
Yes
, AW
(v)
Dual Circuit TWE090B1,
(ii)
B3
Dual Circuit
TWE180B3, B4,
BW
Single Circuit
TWE120A1
Dual Circuit TWE240B3, B4, BW, E3, E4, EW
Throwaway/Yes Throwaway/Yes
(4) 16x20x2
Single Circuit
TWE120A3
(iii)
(ii)
AW
,
SSP-PRC001-EN 11

Performance Data

Table 3. Gross Cooling Capacities (MBh) 7½ Tons TWA090A Heat Pump with 7½ TWE090A Air Handler
Ambient Temperature
85 95 105
Entering WB
CFM Air
flow
2700 75 84.1 67.2 92.8 56.3 102.1 37.7 81.2 65.7 89.5 55.0 98.5 36.4 78.0 64.2 86.1 53.6 94.8 35 .2
3000 75 87.5 70.3 94.4 54.8 103.7 38.4 82.7 68.8 91.1 53.4 100.0 37.1 79.4 67.2 87.5 51.9 96.1 35.7
3300 75 87.0 73.3 95.7 56.6 104.9 39.0 83.9 71.7 92.3 55.2 101.2 37.6 80.6 70.1 88.6 53.7 97.3 36.2
3600 75 88.2 76.1 96.8 58.3 106.0 39.5 85.0 74.6 93.3 56.9 102.2 38.1 81.6 73.0 89.6 55.4 98.2 36.7
CFM Air
flow
2700 75 74.7 62.5 82.4 52.1 90.9 33.8
3000 75 75.9 65.6 83.7 50.4 92.2 34.3
3300 75 77.1 68.5 84.8 52.2 93.3 34.8
3600 75 78.1 71.3 85.7 53.9 94.1 35.3
Notes:
1. Dry coil condition. Total gross capacity (MBh) shown to the left is not applicable. In this case the Sensible Heat Capacity (SHC) is the total capacity.
2. All temperatures are in °F.
3. All capacities shown are gross and have not considered indoor fan heat.
4. To obtain net cooling capacities, subtract indoor fan heat.
5. MBH = Total Gross Cooling Capacity
6. SHC = Sensible Heat Capacity
Ent
DB °F
80 84.6 78.6 93.0 64.5 102.1 49.6 81.8 77.2 89.8 63.2 98.5 48.3 78.8 75.7 86.3. 61.7 94.8 46.9 85 86.9 86.9 93.1 75.8 102.2 61.3 84.4 84.4 89.9 74.4 98.7 60.0 81.7 81.7 86.4 72.9 95.0 58.6 90 91.2 91.2 93.7 87.3 102.3 72.9 88.7 88.7 90.6 85.9 98.7 71.5 86.0 86.0 87.3 84.5 95.1 70.0
80 86.5 82.9 94.6 67.5 103.7 51.2 83.6 81.4 91.1 65.9 100.0 499 80.5 79.9 87.6 64.4 96.2 48.5 85 89.6 89.6 94.7 79.7 103.8 64.0 87.1 87.1 91.4 78.3 100.2 62.6 84.3 84.3 87.9 76.7 96.4 61.3 90 94.1 94.1 95.7 92.4 92.4 103.9 76.4 91.5 92.5 91.0 100.3 75.0 88.6 88.6 88.7 88.7 96.5 73.6
80 88.1 87.0 95.8 70.1 105.0 52.8 84.7 84.7 92.4 68.6 101.2 51.4 81.9 81.9 88.8 67.0 97.4 50.0 85 92.0 92.0 96.1 83.4 105.1 66.5 89.3 89.3 92.8 82.0 101.4 65.2 86.4 86.4 89.2 80.4 97.6 63.8 90 96.6 96.6 97.5 97.2 105.2 79.9 93.9 93.9 93.9 93.9 101.5 78.5 90.9 90.9 91.0 91.9 97.7 77.0
80 89.3 89.3 96.9 72.7 106.1 54.2 86.6 86.6 93.4 71.2 102.3 52.9 83.7 83.7 89.8 69.6 98.3 51.5 85 94.1 94.1 97.4 87.0 106.2 69.0 91.3 91.3 94.0 85.6 102.5 67.6 88.3 88.3 90.4 84.0 98.4 66.1 90 98.9 98.9 98.9 98.9 106.4 83.2 96.0 96.0 96.1 96.1 102.6 81.8 92.9 92.9 93.0 93.0 98.7 80.3
Ent
DB °F
80 75.6 74.1 82.6 60.0 91.0 45.5 85 78.9 78.9 82.9 71.3 91.1 57.2 90 83.1 83.1 84.0 83.0 91.3 68.5
80 77.0 77.0 83.9 62.8 92.3 47.1 85 81.3 81.3 84.3 75.2 92.5 59.9 90 85.6 85.6 85.7 85.7 92.6 72.1
80 78.9 78.9 85.0 65.4 93.4 48.6 85 83.3 83.3 85.6 78.9 93.6 62.4 90 87.8 87.8 87.9 87.9 93.7 75.5
80 80.6 80.6 85.9 68.0 94.3 50.1 85 85.1 85.1 86.7 82.5 94.4 64.6 90 89.7 89.7 89.8 89.8 94.8 78.8
61 67 73 61 67 73 61 67 73
MBHSHCMBHSHCMBHSHCMBHSHCMBHSHCMBHSHCMBHSHCMBHSHCMBHSHC
Ambient Temperature
115
Enter WB
61 67 73
MBH SHC MBH SHC MBH SHC
12 SSP-PRC001-EN
Performance Data
10 Tons Gross Cooling Capacities
Table 4. Gross Cooling Capacities (MBh) 10 Ton TWA120A Heat Pump with 10 Ton TWE120A Air Handler
Ambient Temperature
85 95 105
Entering WB
CFM Air
flow
3600 75 114.6 90.1 126.2 76.3 138.8 51.1 110.6 88.1 121.8 74.5 134.0 49.4 106.2 85.9 117.1 72.6 128.9 47.7
4000 75 116.7 94.0 128.5 73.3 114.1 52.1 112.5 91.9 123.9 71.4 136.1 50.4 108.1 86.7 119.1 69.3 130.8 48.5
4400 75 118.5 97.7 130.3 75.5 142.9 53.0 114.2 95.6 125.6 73.6 137.8 51.1 109.6 93.4 120.7 71.6 132.4 49.2
4800 75 120.0 101.3 131.9 77.7 144.5 53.6 115.6 99.1 127.1 75.7 139.4 51.7 111.1 96.9 122.1 73.7 133.8 49.8
CFM Air
flow
3600 75 101.7 83.6 112.2 70.6 123.4 45.8
4000 75 103.5 87.5 114.0 67.2 125.2 46.5
4400 75 105.0 91.1 115.5 69.4 126.7 47.1
4800 75 106.3 94.7 116.7 71.5 128.0 47.7
Notes:
1. Dry coil condition. Total gross capacity (MBh) shown to the left is not applicable. In this case the Sensible Heat Capacity (SHC) is the total capacity.
2. All temperatures are in °F.
3. All capacities shown are gross and have not considered indoor fan heat.
4. To obtain net cooling capacities, subtract indoor fan heat.
5. MBH = Total Gross Cooling Capacity
6. SHC = Sensible Heat Capacity
Ent
DB °F
80 115.0 104.8 126.4 85.8 138.8 66.4 111.1 102.8 122.0 83.9 134.0 64.6 106.9 100.7 117.3 81.9 128.9 62.6 85 117.1 117.1 126.5 100.7 138.8 81.2 113.7 113.7 122.0 98.6 134.0 79.3 110.1 110.1 117.4 96.5 129.0 77.4 90 122.7 122.7 126.9 115.2 138.9 95.9 119.2 119.2 122.7 113.2 134.2 94.0 115.5 115.5 118.2 111.1 129.1 92.1
80 117.5 110.2 128.6 89.5 141.1 68.5 113.4 108.1 124.0 87.6 136.1 66.6 109.2 106.0 119.2 85.5 130.8 64.6 85 120.7 120.7 128.6 105.4 141.1 84.5 117.1 117.1 124.1 103.4 136.2 82.6 113.4 113.4 119.3 101.2 131.0 80.7 90 126.6 126.6 129.5 121.4 141.2 100.5 122.9 122.9 125.2 119.4 136.3 98.6 119.1 119.1 120.7 117.3 131.1 96.6
80 119.7 115.3 130.4 93.0 142.9 70.4 115.6 113.2 125.8 91.0 137.8 68.5 11.3 111.1 120.8 89.0 132.5 66.5 85 123.9 123.9 130.5 110.0 143.0 87.7 120.2 120.2 125.9 107.9 138.0 85.8 116.3 116.3 121.1 105.8 132.6 83.8 90 129.9 129.9 131.9 127.4 143.1 104.8 126.1 126.1 127.5 125.4 138.1 102.9 122.2 122.2 122.0 122.0 132.7 100.9
80 121.7 120.2 132.0 96.3 144.5 72.2 116.7 116.7 127.2 94.4 139.3 70.3 112.8 112.8 122.2 92.3 133.9 68.3 85 126.7 126.7 132.2 114.4 144.6 90.7 122.9 122.9 127.6 112.4 139.5 88.8 118.8 118.8 122.7 110.3 134.0 86.8 90 132.9 132.9 134.1 133.2 144.7 109.0 129.0 129.0 128.9 128.9 138.5 106.9 124.9 124.9 124.8 124.8 134.1 104.8
Ent
DB °F
80 102.6 98.5 112.4 79.8 123.5 60.6 85 106.3 106.3 112.5 94.3 123.6 75.3 90 111.7 111.7 113.5 109.0 123.7 90.0
80 104.9 103.8 114.2 83.4 125.3 62.6 85 109.5 109.5 114.4 99.0 125.4 78.6 90 115.0 115.0 115.9 115.2 125.5 94.5
80 106.5 106.5 115.7 86.8 126.8 64.5 85 112.2 112.2 116.1 103.6 126.9 81.7 90 117.9 117.9 117.8 117.8 126.9 98.5
80 108.7 108.7 116.9 89.8 128.0 66.2 85 114.6 114.6 117.6 108.0 128.2 84.7 90 120.5 120.5 120.4 120.4 128.2 102.6
61 67 73 61 67 73 61 67 73
MBHSHCMBHSHCMBHSHCMBHSHCMBHSHCMBHSHCMBHSHCMBHSHCMBHSHC
Ambient Temperature
115
Enter WB
61 67 73
MBH SHC MBH SHC MBH SHC
SSP-PRC001-EN 13
Performance Data
15 Tons Gross Cooling Capacities
Table 5. Gross Cooling Capacities (MBh) 15 Tons TWA180B Heat Pump with 15 Tons TWE180B Air Handler
Ambient Temperature
85 95 105
Entering WB
CFM Air
flow
5400 75 167.8 134.1 185.1 112.3 203.6 75.2 161.9 131.2 178.6 109.7 196.4 72.7 155.5 128 171.6 106.9 188.9 70.1
6000 75 170.9 140.3 188.3 109.4 206.8 76.7 164.8 137.3 181.5 106.6 199.3 74.1 158.3 134.2 174.4 103.7 191.6 71.3
6600 75 173.5 146.3 190.9 113 209.3 77.8 167.2 143.2 184 110.2 201.7 75.1 160.5 140 176.7 107.3 193.9 72.3
7200 75 175.7 152 193.1 116.5 211.5 78.8 169.4 148.9 186.1 113.7 203.7 76 162.6 145.6 178.6 110.7 195.8 73.3
CFM Air
flow
5400 75 148.8 124.7 164.3 104 181.1 67.5
6000 75 151.3 130.8 166.9 100.7 183.7 68.5
6600 75 153.5 136.6 169.1 104.2 185 .8 69.5
7200 75 155.5 142.2 170.9 107.7 187.6 70.4
Notes:
1. Dry coil condition. Total gross capacity (MBh) shown to the left is not applicable. In this case the Sensible Heat Capacity (SHC) is the total capacity.
2. All temperatures are in °F.
3. All capacities shown are gross and have not considered indoor fan heat.
4. To obtain net cooling capacities, subtract indoor fan heat.
5. MBH = Total Gross Cooling Capacity
6. SHC = Sensible Heat Capacity
Ent
DB °F
80 168.7 157 185.4 128.9 203.7 99.1 163 154.1 178.9 126.2 196.5 96.4 156.9 151.1 171.8 122.9 189.1 93.7 85 173.3 173.31 185.7 151.5 203.9 122.5 168.4 168.41 179.2 148.6 196.8 119.8 163 163.01 172.3 145.5 189.4 117.1 90 182 182.01 186.8 174.4 204.1 145.5 176.9 176.91 180.6 171.6 197 142.7 171.4 171.41 174 168.7 189.6 139.8
80 172.3 165.5 188.4 134.5 206.8 102.3 166.5 162.6 181.7 131.6 199.5 99.7 160.3 159.5 174.7 128.5 191.8 96.9 85 178.8 178.81 188.9 159.2 207.1 127.9 173.6 173.61 182.3 156.3 199.8 125.2 168 168.01 175.3 153.2 192.2 122.5 90 187.9 187.91 190.7 184.5 207.3 152.7 182.5 182.51 184.4 181.7 200 149.9 176.8 176.81 176.9 176.91 192.5 146.9
80 175.6 173.7 191.1 139.9 209.4 105.4 169 169.01 184.3 137 201.9 102.7 163.3 163.31 177 133.8 194.1 100 85 183.6 183.61 191.7 166.7 209 .8 133 178.1 178.11 184.9 163.7 202.3 130.3 172.3 172.31 177.9 160.6 194.3 127.2 90 192.9 192.91 194.3 194.31 210 159.6 187.3 187.31 187.5 187.51 202.6 156.7 181.4 181.41 181.6 181.61 194.9 153.8
80 178.2 178.21 193.4 145.1 211.6 108.4 172.7 172.71 186.4 142.1 204 105.7 166.9 166.91 179 139 196.1 102.9 85 187.8 187.81 194.2 173.9 212 138 182.1 182.11 187.4 170.9 204.2 134.8 176.1 176.11 180.2 167.8 196.4 131.8 90 197.4 197.41 197.5 197.51 212.3 166.3 191.6 191.61 191.7 191.71 204.7 163.4 185.4 185.41 185.6 185.61 196.9 160.4
Ent
DB °F
80 150.4 147.9 164.6 119.8 181.4 90.8 85 157.3 157.31 165.1 142.4 181.8 114.3 90 165.7 165.71 167.2 165.6 182 136.8
80 153.5 153.51 167.2 125.3 184 94.1 85 162.1 162.11 168 150 184.4 119.7 90 170.8 170.81 171 171.01 184.7 144
80 157.3 157.31 169.5 130.6 186.2 97.2 85 166.2 166.21 170.5 157.5 186.4 124.2 90 175.2 175.21 175.4 175.41 187 150.8
80 160.7 160.71 171.3 135.7 188 100.1 85 169.8 169.81 172.8 164.6 188.4 128.8 90 179.1 179.11 179.3 179.31 188.9 157.4
61 67 73 61 67 73 61 67 73
MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC
Ambient Temperature
115
Enter WB
61 67 73
MBH SHC MBH SHC MBH SHC
14 SSP-PRC001-EN
Performance Data
20 Tons Gross Cooling Capacities
Table 6. Gross Cooling Capacities (MBh) 20 Tons TWA240B Heat Pump with 20 Ton TWE240B Air Handler
Ambient Temperature
85 95 105
Entering WB
CFM Air
flow
7200 75 223.8 177.3 246 148.8 269.9 99.5 215.5 173.1 237 145.1 260.1 96.1 206.9 168.8 227.5 141.3 249.8 92.5
8000 75 227.8 185.1 250.2 143.9 274.2 101.4 219.3 180.8 240.9 139.9 264.1 98 210.4 176.4 231.1 135.9 253.4 94.1
8800 75 231.2 192.5 253.6 148.3 277.7 103 222.4 188.2 244.1 144.4 267.4 99.3 213.4 183.7 234.1 140.3 256.4 95.3
9600 75 234 199.6 256.5 152.6 280.7 104.3 225.2 195.2 246.8 148.6 270.1 100.5 216 190.8 236.7 144.5 258.9 96.5
CFM Air
flow
7200 75 198 164.3 217.7 137.3 238.9 88.8
8000 75 201.2 171.9 221 131.7 242.2 90
8800 75 204 179.2 223.7 136.1 244.9 91.2
9600 75 206.6 186.2 226.1 140.3 247 .2 92.4
Notes:
1. Dry coil condition. Total gross capacity (MBh) shown to the left is not applicable. In this case the Sensible Heat Capacity (SHC) is the total capacity.
2. All temperatures are in °F.
3. All capacities shown are gross and have not considered indoor fan heat.
4. To obtain net cooling capacities, subtract indoor fan heat.
5. MBH = Total Gross Cooling Capacity
6. SHC = Sensible Heat Capacity
Ent
DB °F
80 224.8 206.8 246.2 169 269.9 130 216.8 202.6 237.3 165.1 260.1 126.2 208.5 198.4 227.9 161 2 49.8 122.3 85 229.6 229.61 246.4 198.1 270 159.6 222.6 222.61 237.5 194 260.3 155.8 215.3 215.31 228.1 189.7 250 151.9 90 240.5 240.51 247.6 227.3 270 .3 189 233.4 233.41 238.9 223.2 260.6 185.2 225.9 225.91 230 219.1 250.3 181.3
80 229.4 217.4 250.4 176.3 274.1 134 221.2 213.2 241.2 172.4 264.1 130.3 212.8 208.9 231.2 167.9 253.4 126.3 85 236.4 236.41 250.6 207.6 274.3 166.2 229.3 229.31 241.4 203.5 264.3 162.4 221.6 221.61 231.9 199.2 253.7 158.5 90 247.9 247.91 252.5 239.7 274.6 198.2 240.4 240.41 243.8 235.6 264.4 193.9 232.6 232.61 234.7 231.4 253.8 189.7
80 233.5 227.6 253.9 183.3 277.6 137.8 225.3 223.4 244.2 178.8 267.3 134.1 215.8 215.81 234.3 174.5 256.5 130.1 85 242.5 242.51 254.2 216.8 277.9 172.5 235 235.01 244.9 212.7 267.6 168.7 227.1 227.11 235.2 208.4 256.8 164.7 90 254.3 254.31 257 251.7 278 206.3 246.5 246.51 248.2 247.6 267.8 202.3 238.4 238.41 238.2 238.21 257 198.1
80 235.8 235.81 256.6 189.4 280.7 141.5 228.3 228.31 247 185.2 270.1 137.7 220.3 220.31 236.9 180.9 259 133.7 85 247.9 247.91 257.4 225.8 280.9 178.6 240.1 240.11 248 221.6 270.5 174.7 231.9 231.91 238.2 217.2 259.4 170.7 90 260 260.01 259.7 259.71 281.1 214.5 252 252.01 251.8 251.81 270.7 210.4 243.5 243.51 243.4 243.41 259.6 206.2
Ent
DB °F
80 199.9 194.1 218.1 156.9 238.9 118.3 85 207.7 207.71 218.4 185.3 239.2 147.8 90 218 218.01 220.7 214.8 239.3 176.7
80 203 203.01 221.2 163.5 242.3 122.3 85 213.6 213.61 222 194.8 242.6 154.4 90 224.3 224.31 224.1 224.11 242.8 185.4
80 207.8 207.81 224 170.1 245 126 85 218.8 218.81 225.1 204 245.4 160.6 90 229.8 229.81 229.6 229.61 245.6 193.7
80 212 212.01 226.4 176.4 247.3 129.6 85 223.3 223.31 228 212.8 247.7 166.6 90 234.6 234.61 234.5 234.51 248 201.7
61 67 73 61 67 73 61 67 73
MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC
Ambient Temperature
115
Enter WB
61 67 73
MBH SHC MBH SHC MBH SHC
SSP-PRC001-EN 15
Performance Data
7½ Tons Gross Cooling Capacities and Capacity Curves
Table 7. Gross Cooling Capacities (MBh) 7½ Tons TWA090A Heat Pump Only
Suction Temperature (°F)
Outdoor
Temp (°F)
Head press PSIG 168 173 179 185 191 197
65
75
85
95
105
115
Notes:
1. Performance data calculated at 15°F subcooling and 20°F superheat and does not include capacity loss due to refrigerant lines.
Cap. Btuh/1000 81 89 97.2 105.8 114.5 123.4
Unit kW 5.56 5.69 5.83 5.97 6.13 6.28
Head press PSIG 194 199 205 211 217 224
Cap. Btuh/1000 77.8 85.3 93.1 101.1 109.4 117.8
Unit kW 6.09 6.23 6.38 6.54 6.7 6.87
Head press PSIG 221 227 234 240 247 254
Cap. Btuh/1000 74.1 81.3 88.7 96.3 104.2 112.3
Unit kW 6.71 6.87 7.03 7.2 7.38 7.56
Head press PSIG 252 258 265 272 279 286
Cap. Btuh/1000 70.3 77.1 84.1 91.4 98.9 106.7
Unit kW 7.43 7.6 7.77 7.95 8.14 8.33
Head press PSIG 285 292 299 306 314 322
Cap. Btuh/1000 66.1 72.6 79.3 86.3 93.5 101.1
Unit kW 8.23 8.41 8.6 8.79 8.98 9.18
Head press PSIG 321 328 336 343 351 360
Cap. Btuh/1000 61.8 67.9 74.3 81 88.1 95.5
Unit kW 9.12 9.32 9.51 9.71 9.91 10.12
30 35 40 45 50 55
Figure 8. Capacity Curves 7½ Tons TWA090A Heat Pump Only
16 SSP-PRC001-EN
Performance Data
10 Tons Gross Cooling Capacities and Capacity Curves
Table 8. Gross Cooling Capacities (MBh) 10 Tons TWA120A Heat Pump Only
Suction Temperature (°F)
Outdoor
Temp (°F)
Head press PSIG 167 172 178 183 189 195
65
75
85
95
105
115
Notes:
1. Performance data calculated at 15°F subcooling and 20°F superheat and does not include capacity loss due to refrigerant lines.
Cap. Btuh/1000 110.6 121.1 132.1 143.7 155.9 168.6
Unit kW 7.87 8.04 8.22 8.41 8.61 8.83
Head press PSIG 192 197 202 208 214 221
Cap. Btuh/1000 105.4 115.4 126.1 137.3 149.1 161.4
Unit kW 8.56 8.75 8.95 9.16 9.38 9.62
Head press PSIG 219 224 230 236 243 250
Cap. Btuh/1000 100 109.6 119.9 130.7 142 153.9
Unit kW 9.38 9.59 9.82 10.05 10.3 10.55
Head press PSIG 248 254 260 267 274 281
Cap. Btuh/1000 94.5 103.7 113.5 123.8 134.7 146.1
Unit kW 10.35 10.58 10.82 11.07 11.59
Head press PSIG 281 287 293 300 307 315
Cap. Btuh/1000 88.8 97.6 107 116.8 127.1 137.8
Unit kW 11.45 11.7 11.96 12.22 12.48 12.74
Head press PSIG 316 322 329 336 343 351
Cap. Btuh/1000 83.1 91.4 100.3 109.6 119.2 129.2
Unit kW 12.69 12.95 13.21 13.48 13.73 13.98
30 35 40 45 50 55
Figure 9. Capacity Curves 10 Tons TWA120A Heat Pump Only
SSP-PRC001-EN 17
Performance Data
15 Tons Gross Cooling Capacities and Capacity Curves
Table 9. Gross Cooling Capacities (MBh) 15 Tons TWA180B Heat Pump Only
Suction Temperature (°F)
Outdoor
Temp (°F)
Head press PSIG 168 173 179 185 191 197
65
75
85
95
105
115
Notes:
1. Performance data calculated at 15°F subcooling and 20°F superheat and does not include capacity loss due to refrigerant lines.
Cap. Btuh/1000 161.3 177.1 193.6 210.6 228.1 245.8
Unit kW 10.9 11.16 11.43 11.71 12.01 12.32
Head press PSIG 193 199 205 211 217 224
Cap. Btuh/1000 154.9 169.9 185.5 201.5 218 234.8
Unit kW 11.94 12.22 12.51 12.82 13.14 13.47
Head press PSIG 221 227 233 240 247 254
Cap. Btuh/1000 147.7 162 176.8 192.1 207.8 224
Unit kW 13.16 13.46 13.78 14.11 14.46 14.81
Head press PSIG 252 258 265 272 279 286
Cap. Btuh/1000 140.1 153.7 167.8 182.4 197.5 213.1
Unit kW 14.56 14.89 15.23 15.59 15.95 16.32
Head press PSIG 285 292 299 306 313 321
Cap. Btuh/1000 131.9 144.8 158.2 172.2 186.8 202.1
Unit kW 16.14 16.49 16.85 17.23 17.61 18
Head press PSIG 321 328 335 343 351 360
Cap. Btuh/1000 123.3 135.5 148.3 161.8 176 190.9
Unit kW 17.88 18.25 18.64 19.03 19.43 19.83
30 35 40 45 50 55
Figure 10. Capacity Curves 15 Tons TWA180B Heat Pump Only
18 SSP-PRC001-EN
Performance Data
20 Tons Gross Cooling Capacities and Capacity Curves
Table 10. Gross Cooling Capacities (MBh) 20 Tons TWA240B Heat Pump Only
Suction Temperature (°F)
Outdoor
Temp (°F)
Head press PSIG 183 190 196 203 211 219
65
75
85
95
105
115
Notes:
1. Performance data calculated at 15°F subcooling and 20°F superheat and does not include capacity loss due to refrigerant lines.
Cap. Btuh/1000 217.4 237.4 258.4 280.5 303.5 327.5
Unit kW 16.09 16.51 16.96 17.44 17.96 18.5
Head press PSIG 209 216 223 231 239 248
Cap. Btuh/1000 206.8 226 246.3 267.6 290 313.3
Unit kW 17.58 18.05 18.56 19.11 19.68 20.28
Head press PSIG 238 245 253 261 270 279
Cap. Btuh/1000 196 214.4 233.9 254.5 276 298.3
Unit kW 19.35 19.88 20.44 21.03 21.65 22.27
Head press PSIG 269 277 285 294 303 313
Cap. Btuh/1000 185 202.6 221.3 240.9 261.4 282.6
Unit kW 21.39 21.97 22.57 23.2 23.83 24.47
Head press PSIG 304 312 320 329 339 349
Cap. Btuh/1000 173.8 190.6 208.4 227.1 246.5 266.5
Unit kW 23.68 24.31 24.95 25.6 26.24 26.87
Head press PSIG 341 349 358 368 378 388
Cap. Btuh/1000 162.4 178.5 195.4 213 231.2 249.9
Unit kW 26.23 26.89 27.56 28.22 28.86 29.46
30 35 40 45 50 55
Figure 11. Capacity Curves 20 Tons TWA240B Heat Pump Only
SSP-PRC001-EN 19
Performance Data
7½, 10 Tons Gross Heating Capacities
Table 11. Gross Heating Capacities (MBh) 7½ Tons TWA090A Heat Pump with 7½ Tons TWE090A Air Handler at 3000 CFM
Heating Capacity (BTUH/1000)
Outdoor Temp
(°F)
-18 35.2 32 30.9 30.1 5.4 5.9 6.2 6.5
-13 36.8 34 33.1 32.5 5.5 6 6.3 6.6
-8 38.7 36.4 35.7 35.2 5.6 6.1 6.4 6.7
-3 41.1 39.2 38.7 38.3 5.7 6.2 6.5 6.8 2 44.1 42.5 42 41.8 5.8 6.3 6.6 6.9 7 47.5 46.3 45.9 45.7 5.9 6.5 6.8 7.1
12 51.3 50.3 50 49.9 6 6.6 6.9 7.2 17 55.6 54.8 54.5 54.3 6.2 6.7 7.1 7.4 22 60.3 59.6 59.3 59.1 6.3 6.9 7.2 7.6 27 65.5 64.7 64.4 64.2 6.4 7 7.4 7.7 32 71 70.2 69.9 69.6 6.6 7.2 7.5 7.9 37 76.7 75.8 75.4 75 6.7 7.4 7.7 8.1 42 82.7 81.7 81.2 80.7 6.9 7.5 7.9 8.3 47 89 87.8 87.3 86.7 7 7.7 8.1 8.5 52 95.7 94.4 93.7 93.1 7.2 7.9 8.3 8.7 57 102.7 101.2 100.5 99.7 7.3 8 8.4 8.9 62 109.9 108.2 107.4 106.6 7.5 8.2 8.6 9.1 67 117.3 115.5 114.6 113.8 7.7 8.4 8.8 9.3 72 124.8 122.9 122 121.1 7.9 8.6 9 9.5
Notes:
1. Rated with 25 feet of 13/8" suction and ½" liquid line.
at Indicated Indoor Dry Bulb Temperature
60 70 75 80 60 70 75 80
at Indicated Indoor Dry Bulb Temperature
Total Power in kW
Table 12. Gross Heating Capacities (MBh) 10 Tons TWA120A Heat Pump with 10 Tons TWE120A Air Handler at 4000 CFM
Heating Capacity (BTUH/1000)
Outdoor Temp
(°F)
-18 29.9 42.3 46.5 49.9 7.4 8.4 9 9.5
-13 39.4 47.5 50.6 53 7.7 8.6 9.1 9.6
-8 46.9 52.6 54.8 56.7 7.9 8.8 9.2 9.7
-3 53.7 57.8 59.4 60.7 8.1 9 9.4 9.9 2 60.3 63.1 64.2 65 8.3 9.1 9.6 10 7 66.9 68.6 69.2 69.7 8.5 9.3 9.7 10.2
12 73 .4 74.3 74.6 74.7 8.7 9.5 9.9 10.3 17 80.2 80.3 80.2 80.2 8.9 9.6 10.1 10.5 22 87 .1 86.6 86.3 86 9 9.8 10.2 10.7 27 94 .2 93.2 92.6 92.2 9.2 10 10.4 10.9 32 101.7 100.2 99.5 98.9 9.4 10.2 10.6 11.1 37 109.1 107.2 106.4 105.6 9.5 10.4 10.9 11.4 42 116.7 114.4 113.5 112.7 9.7 10.6 11.1 11.6 47 124.6 122.1 121.1 120.1 9.9 10.8 11.3 11.9 52 132.8 130.1 129 127.9 10.1 11.1 11.6 12.1 57 141.1 138.3 137.1 136 10.4 11.3 11.9 12.4 62 149.6 146.7 145.3 144.1 10.6 11.6 12.1 12.7 67 158.3 155.2 153.8 152.5 10.9 11.9 12.4 13.1 72 167.4 164.1 162.6 161.2 11.2 12.2 12.8 13.4
Notes:
1. Rated with 25 feet of 1 3/8" suction and ½" liquid line.
at Indicated Indoor Dry Bulb Temperature
60 70 75 80 60 70 75 80
at Indicated Indoor Dry Bulb Temperature
Total Power in kW
20 SSP-PRC001-EN
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