Trane PKGP-PRC003-EN manual Cooling Capacity, Heating Capacity, Air Delivery Selection, Step

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Selection Procedures

Cooling Capacity

Step 1

Calculate the building’s total and sensible cooling loads at design conditions. Use theTrane calculation methods or any other standard accepted method.

Factors used in unit selection:

A

Total Cooling Load: 59 MBh

B

Sensible Cooling Load: 40 MBh

C

Airflow: 2000 cfm

D

Electrical Characteristics: 460/60/3

E

Summer Design Conditions: Entering

Evaporator Coil: 80 DB, 67WB Outdoor

Ambient: 95

F

External Static Pressure: 0.36 in. wg

G

Downflow Configuration

H

High Efficiency

I

Economizer

Step 2

As a starting point, a rough determination must be made of the size of the unit.The final selection will be made after examining the performance at the given conditions. Divide the total cooling load by nominal BTUH per ton (12 MBh per ton); then round up to the nearest unit size.

59 MBh / 12 MBh = approx. 5 tons

Step 3

Table PD-3 shows that a WSC060A4 has a gross cooling capacity of 63.1 MBh and

47.5MBh sensible capacity at 2000 cfm and 95 DB outdoor ambient with 80 DB, 67 WB air entering the evaporator.

To Find Capacity at Intermediate Conditions Not in theTable

When the design conditions are between two numbers that are in the capacity table, interpolation is required to approximate the capacity. Note: Extrapolation outside of the table conditions is not recommended.

Step 4

In order to select the correct unit which meets the building’s requirements, the fan motor heat must be deducted from the gross cooling capacity.The amount of heat that the fan motor generates is dependent on the effort by the motor - cfm and static pressure.To determine the total unit static pressure:

External Static (duct system)

0.36 wg

Standard Filter 1 in.

0.09 wg

fromTable PD-23

 

Economizer

0.18 wg

(100% Outside Air)

fromTable

 

PD-23

Electric Heater Size 6 kW

0.056 wg

fromTable PD-23

 

(reference “Heating Capacity” section on this page for determination of heater size)

Total Static Pressure

0.69 wg

Note:The Evaporator Fan Performance Table PD-12 has deducted the pressure drop for a 1 in. filter already in the unit (see note belowTable PD-12).Therefore, the actual total static pressure is 0.69 - 0.09 (fromTable PD-23) = 0.60 wg.

With 2000 cfm and 0.60 wg.

Table PD-46 shows .90 bhp for this unit. Note below the table gives a formula to calculate Fan Motor Heat,

2.829 x bhp + .4024 = MBH.

2.829 x .90 + .4024 = 2.95 MBH.

Now subtract the fan motor heat from the gross cooling capacity of the unit: NetTotal Cooling Capacity

= 63.1 MBH - 2.95 = 60.15 MBH.

Net Sensible Cooling Capacity = 47.5 MBH - 2.95 = 44.55 MBH.

Step 5

Compare results to original load requirements.

If the performance will not meet the building’s required total or sensible cooling load, try a selection at the next higher size unit.

Heating Capacity

Step 1

Calculate the building heating load using theTrane calculation form or other standard accepted method.

Step 2

Size the equipment usingTable PD-31 to match the heating loads at design conditions.

A

Total heating load: 50 MBH

B

Outdoor Ambient (Winter) 17 DB

C

Indoor ReturnTemperature: 70 DB

D

Airflow: 2000cfm

Use the integrated portion ofTable PD-31 for the WSC060A4 to determine capacity at winter design conditions.The mechanical heating portion of the heat pump will provide 32.7 MBh.

Step 3

Because 32.7 is less than the building’s required heating capacity at winter design conditions, a supplementary heater must be selected.

50 MBh-32.7 MBh = 17.3 MBh

The auxiliary eletric heat capacities are listed inTable PD-38. From the table, a 6 kW heater will deliver 20.48 MBH at 480 volts. In order to determine capacity at 460 volts, the heater voltage correction factor fromTable PD-39 must be used. Therefore, 20.48 MBH x .918 (voltage correction factor) = 18.80 MBH. A 6kW heater should be selected.

Air Delivery Selection

External static pressure drop through the air distribution system has been calculated to be 0.60 inches of water. EnterTable PD-12 for a WSC060A4 at 2000 cfm and 0.60 static pressure.The belt drive motor will give the desired airflow at a rated bhp of 0.90 and 998 rpm.

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PKGP-PRC003-EN

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Contents Packaged Heat Pumps Introduction American Standard Inc. All Rights ReservedContents Features Benefits Factory Installed Options Field Installed OptionsFactory or Field Installed Options Features and Benefits Easy to Install, Service and MaintainQuality and Reliability Clogged Filter/Fan Failure Switch ColoredAnd NumberedWiringBlack Epoxy Pre-Coated Coils Cabinet IntegrityPhase Monitor Power Exhaust OptionQuick-Access Panels Quick-Adjust Idler ArmRigorous Testing Ventilation Override AccessoryUnit Cabinet VariTracEasy to Install Added Efficiency Barometric Relief Condensate TrapClearance Requirements Unit PitchCooling Capacity Heating CapacityAir Delivery Selection StepModel Number Description 036 11 12,13General DataTable GD-1 General Data General Data Table GD-2 General DataOutdoorSoundRatingdB3 Outdoor Coil -Type Outdoor Fan Type½, 10Ton Table GD-3 General DataEER2 Outdoor Fan- TypePerformance Data MBH SHCMBH SHC MBH SHC MBH SHC Ton Three Phase WSC060A1,A3, A4, AW Performance½ Ton Three Phase Ton Three PhaseMBH SHC MBH SHC MBH SHC MBH SHC MBH WSC036A HorizontalWSC048A WSC060AData3Ton Table PD-8Table PD-9 Data4Ton Table PD-10Table PD-11 HP Standard Motor & Field SuppliedData5Ton Table PD-12Table PD-13 HP Standard Motor & Drive Low Static DriveData6Ton Table PD-14Table PD-15 Data7½Ton Table PD-16Table PD-17 HP Oversized Motor& Field Supplied Sheave2Data10 Ton Table PD-18Table PD-19 HP Standard Motor & Drive HP Oversized Motor & DriveTable PD-20- Standard Motor & Sheave/Fan Speed Rpm Table PD-22 Oversized Motor & Drive Sheave/Fan Speed RpmWSC072A WSC090ATable PD-25 Outdoor Sound Power Level dB ref -12Watts WSC072A WSC090A WSC120AHeating Capacities Net WSC036A1 At 1200 CFM At 1200 CFMHeating Capacities Net WSC048A1 At 1600 CFM At 1600 CFMHeating Capacities Net WSC60A1 At 2000 CFM At 2000 CFMWSC72A At 3000 CFM Downflow Configuration WSC120A Table PD-38 Auxiliary Electric Heat Capacity Nominal Distribution6Ton ½ Ton 10Ton 2000 3000 CFM WS120A3,A4,AW14.2 18.00 28.5 19.0 27.00 42.7 21.3 36.00 56.9 37.9 54.00 Controls ReliaTel Controlled UnitsTable ED-1 Unit Wiring Electrical Data208/230 Volts Single Phase 208/230 Volts Three PhaseVolts Three Phase BAYHTR306A FLA LRA Table ED-8 Electrical Characteristics Power Exhaust AMPS1 AmpsHP2 RPM RLA LRA Zone Sensors -Typical Number Of Wires Jobsite ConnectionsDimensional Data TonsDimensional DataDimensional Data 7½ Tons WSC072A and WSC090A Tons -WSC120ASupply Tons Unit Clearance and Roof OpeningTons Roof Curb Tons Downflow Duct Connections Field FabricatedData Accessories See Page 46 forThrough the Base Utilities InformationTons Economizer, Manual, or Motorized Fresh Air DamperSee Page 48 forThrough the Base Utilities Information Weights Table W-2 Factory-installed Options Net Weights Lbs1,2Mechanical Specifications Factory Installed Options Factory or Field Installed OptionsField Installed Options PL-UN-PKGP-WSC 3-10TONS-PRC003-EN-09-04 PL-UN-PKGP-WSC 3-10TONS-PRC003-EN-02-04

PKGP-PRC003-EN specifications

The Trane PKGP-PRC003-EN is a high-performance packaged rooftop unit designed to provide efficient heating, cooling, and ventilation solutions for a wide variety of commercial applications. Its innovative design encompasses advanced technologies aimed at improving energy efficiency and overall operational efficiency.

One of the standout features of the PKGP-PRC003-EN is its highly efficient variable speed compressor. This technology allows the unit to modulate its capacity based on the specific needs of the environment, ensuring optimal comfort levels while reducing energy consumption. Coupled with a robust fan system, the unit can maintain precise temperature control in fluctuating weather conditions, providing reliable comfort year-round.

The unit's advanced controls use a user-friendly interface that simplifies operation and monitoring. These controls can be integrated with building management systems (BMS), allowing for seamless connectivity and enhanced control over the HVAC system. With the capability for remote monitoring, facility managers can track performance metrics and receive alerts for maintenance, ensuring that the unit operates efficiently and minimizes downtime.

In terms of design, the PKGP-PRC003-EN is equipped with durable construction materials that withstand outdoor environments, ensuring a long lifespan with minimal maintenance. The unit’s compact footprint allows it to fit in tight spaces on rooftops, making it an ideal choice for urban environments where space is limited.

Furthermore, the Trane PKGP-PRC003-EN incorporates advanced filtration systems to improve indoor air quality. These filters effectively capture dust, pollen, and other allergens, contributing to a healthier indoor environment. The unit is also designed with sound attenuation features, minimizing operational noise, which is particularly beneficial for installations in noise-sensitive areas.

Overall, the Trane PKGP-PRC003-EN sets a high standard in the realm of rooftop HVAC solutions. Its combination of energy efficiency, smart control capabilities, and robust construction makes it a reliable choice for businesses looking to enhance their indoor climate while being mindful of operational costs. The integration of advanced technologies ensures that it not only meets but exceeds the expectations of modern HVAC performance, all while maintaining user-friendly operation and maintenance.
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