Trane SSP-PRC001-EN manual General Data Heat Pumps

Page 10

General Data

Table 1. General Data — Heat Pumps

 

7½ Tons

10 Tons

15 Tons

20 Tons

 

 

 

 

 

 

Single Compressor

Single Compressor

Dual Compressor

Dual Compressor

 

TWA090A3,A4,AW

TWA120A3,A4,AW

TWA180B3,B4,BW

TWA240B3,B4,BW

 

 

 

 

 

Cooling Performance(i)

 

 

 

 

Gross Cooling Capacity

 

 

 

 

Matched Air Handler

91,000

124,000

182,000

240,000

Matched Heat Pump Only(ii)

91,000

124,000

182,000

240,000

ARI Net Cooling Capacity(iii)

89,000

120,000

176,000

234,000

EER(iv)

 

 

 

 

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

 

 

 

 

No./Type

1/Trane 3-DTMScroll

1/Trane 3-DTMScroll

2/Trane 3-DTMScroll

2/Trane 3-DTMScroll

No. Motors/HP

1/7.5

1/10

2/7.5

2/10

Motor RPM

3450

3450

3450

3450

 

 

 

 

 

Sound Rating (BELS)(vi)

8.8

8.8

8.8

8.8

System Data(vii)

 

 

 

 

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)(viii)

18.00

31.50

36.00

48.50

(i)Cooling Performance is rated at 95°F ambient, 80°F entering dry bulb, 67°F entering wet bulb. Gross capacity does not include the 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.

(ii)Condensing unit only gross cooling capacity rated at 45°F saturated suction temperature and at 95°F ambient.

(iii)ARI net cooling capacity is calculated with matched blower coil and 25 feet of 1 3/8" or 1/2" OD interconnecting tubing.

(iv)EER is rated at ARI conditions and in accordance with DOE test procedures.

(v)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.

(vi)Sound rating shown is tested in accordance with ARI Standard 270 or 370.

(vii)Refer to refrigerant piping applications manual for line sizing and line length.

(viii)Refrigerant (operating) charge is for condensing unit (all circuits) with matching blower coils and 25 feet of interconnecting refrigerant lines. All units are supplied with a small nitrogen holding charge only.

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SSP-PRC001-EN

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Contents Split System Heat Pumps Designing the Details IntroductionManufacturing Control Standardized CabinetsContents Condensing Units Options Features and BenefitsAir Handlers Offer More Flexibility Features and Benefits Odyssey a Complete Split SystemBlower Rotation Application ConsiderationsClearance Requirements Low Ambient CoolingApplication Considerations Heating Capacity Selection ProcedureCooling Capacity Air Delivery SelectionSplit System Heat Pump Model Nomenclature Model Number DescriptionAir Handler Model Nomenclature General Data General Data Heat PumpsIndoor Fan Type General Data Air HandlersIndoor Coil Type Filters Type/FurnishedPerformance Data Ambient Temperature 105 Entering WB CFM Air FlowAmbient Temperature 115 Enter WB CFM Air Flow DB F MBH SHCTons Gross Cooling Capacities SHC MBHTons Gross Cooling Capacities DB F DB F MBH SHC MBH SHC MBH SHC MBH SHC7200 198 164.3 217.7 137.3 238.9 88.8 ½ Tons Gross Cooling Capacities and Capacity Curves Suction Temperature F Outdoor Temp FGross Cooling Capacities MBh 7½ Tons TWA090A Heat Pump Only Tons Gross Cooling Capacities and Capacity Curves Gross Cooling Capacities MBh 10 Tons TWA120A Heat Pump OnlyCapacity Curves 15 Tons TWA180B Heat Pump Only Gross Cooling Capacities MBh 15 Tons TWA180B Heat Pump OnlyCapacity Curves 20 Tons TWA240B Heat Pump Only Gross Cooling Capacities MBh 20 Tons TWA240B Heat Pump Only½, 10 Tons Gross Heating Capacities 15, 20 Tons Gross Heating Capacities External Static Pressure Inches of Water Gauge Evaporator Fan Performance, Low Static Fan Drive, 5 TonsLow Static Fan Drive 5 Ton TWE060A, TWE060B Air Handleri HP Oversized Motor & SheavesLow Static Fan Drive 7½ Tons TWE090A, B Air Handler Evaporator Fan Performance, Low Static Fan Drive, 7½ TonsCFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP Evaporator Fan Performance, Low Static Fan Drive, 10 Tons External Static Pressure Inches of Water Gauge 00 1.20 1.40Tons Evaporator Fan Performance CFM RPM BHPLow Static Fan Drive 15 Ton TWE180B Air Handleri Evaporator Fan Performance, Low Static Fan Drive, 15 TonsEvaporator Fan Performance 15 Tons TWE180B Air Handler CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHPLow Static Fan Drive 20 Tons TWE240B/TWE240E Air Handler Evaporator Fan Performance, Low Static Fan Drive, 20 TonsEvaporator Fan Performance 20 Ton TWE240B Air Handler CFM RPM BHP BHP RPM BHP RPM BHPElectric Heat Discharge Plenum and Grille Airflow CFM Sheave Position Turns Tons Unit Model No Open ClosedCFM Discharge Plenum and Grille Assembly Throw DistanceLouver Angle Deflection Position Tons Model No StraightAuxiliary Electric Heat Capacity Air Handler Tons Static Pressure Drop, Auxiliary Heat CapacityBtuh Controls ThermostatsElectrical Data Unit Wiring Heat PumpsTons Unit Model No Volts Phase Compressor Fan Motor Condenser Fan Motor AmpsUnit Wiring Air Handler Tons, Air Handler Unit Wiring, Electrical CharacteristicsElectrical Characteristics Motors 60Hz Air Handler Unit Wiring with Electric Heat TWE120AW TW-048/TWE090B TW-030/TWE060B TW-060/TWE120B Jobsite ConnectionsTWA060/TWE060A TWA090A/TWE180B TWA120A/TWE240BTypical Wiring Heat Pump Single Compressor Wiring Diagram Heat Pump Dual Compressor Wiring Diagram Heat Pump Dual Compressor Wiring Diagram Air Handler Wiring Diagram Dimensional Data ½ Tons TWA090 Heat Pump. All dimensions are in inchesTons TWA120A Heat Pump. All dimensions are in inches TonsTons TWA180B Heat Pump. All dimensions are in inches Tons TWA240B Heat Pump. All dimensions are in inches Air Handler Dimensions Tons Model No½ & 10 Ton 10 Ton 10 Tons TWE060A, 090A, 120A TWE060B, 090B, 120B Air HandlersTons TWE180 Air Handlers. All dimensions are in inches Tons TWE180 Air Handlers Tons TWE240B Air Handlers Ton TWE240B Air Handlers Accessories, Electric Heater Discharge Plenum and Grille Dimensions in. No Heat Accessories, Discharge Plenum and GrilleDischarge Plenum and Grille Accessories, Subbase Subbase DimensionsAccessories, Rubber isolators Isolator DimensionsAccessories, Spring Isolators 20 Ton Spring IsolatorsUnit and Corner Weights lbs WeightsAccessory Weights net lbs Air Handlers RISMechanical Specifications Evaporator Coil Refrigeration SystemEvaporator Fan Control Options Page Trane

SSP-PRC001-EN specifications

The Trane SSP-PRC001-EN is a state-of-the-art product designed to enhance the efficiency and performance of HVAC systems. As a part of Trane’s expanding suite of smart building technologies, this device integrates advanced features and cutting-edge technology to provide optimal climate control for various applications, including commercial and industrial settings.

One of the primary features of the SSP-PRC001-EN is its ability to monitor and manage energy consumption effectively. The device employs real-time data analytics to provide insights into energy use patterns, allowing facility managers to make informed decisions that can significantly reduce operational costs. By leveraging this information, organizations can optimize their HVAC operations, leading to enhanced sustainability and compliance with environmental regulations.

Another notable characteristic of the SSP-PRC001-EN is its integration with Trane’s smart building technology. The system is designed to seamlessly connect with various sensors and building management systems, creating a comprehensive ecosystem for energy management. Its compatibility with existing infrastructure means that users can upgrade their systems without the need for extensive retrofitting, minimizing disruption while maximizing efficiency.

The SSP-PRC001-EN also boasts user-friendly interfaces that simplify operation and monitoring. Facility managers can easily access data and analytics through intuitive dashboards, which can be customized to display the most relevant information. This ease of use is critical for timely decision-making, especially in environments where rapid response to changing conditions is essential.

In terms of reliability and performance, the SSP-PRC001-EN is built to withstand demanding conditions. Designed with durability in mind, its rugged construction ensures long-lasting service, making it an ideal choice for facilities operating in various environments. Moreover, the system is engineered for flexibility, allowing for adjustments based on specific operational needs.

Overall, the Trane SSP-PRC001-EN combines advanced technology with practical features to deliver an efficient, reliable, and user-friendly solution for HVAC management. Whether for upgrading existing systems or integrating into new buildings, it stands as a testament to Trane's commitment to innovation and sustainability in the realm of climate control solutions. This product exemplifies how technological advancements can contribute to smarter building management and energy efficiency in today's demanding operational landscapes.
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