high efficiency vertical stack water-source comfort system

WSHP-PRC013-ENMay 2006

High EfficiencyVertical StackWater-Source Comfort System

ModelGET 3/4-Tons to 3-Tons — 60 HZ

© 2005 American Standard Inc All rights reserved WSHP-PRC013-EN

Water-Source Vertical High-RiseThe 3/4-ton through 3-ton vertical high-rise water-source heat pump is a floor mounted, "furred-in" unit, de-signed to be hidden from view behind drywall to blend with the room’s natu-ral decor. In multi-story buildings, the units may be stacked one on top of the other to minimize piping and electrical costs. Supply, return and condensate riser piping may be factory mounted to simplify job site installation of the equipment.

The high-rise configuration is often used in hotels, dorms and assisted liv-ing facilities where a single unit could provide comfort to a single or multiple room dwelling. Because the units are mounted directly in the space, duct-work is optional.

All water-source heat pumps are com-missioned, tested and quality certified prior to leaving the factory. This as-sures global quality standards from controls, water, refrigeration, and aes-thetics to the building owner and in-stalling contractor.

Key features of the water-source, verti-cal stack heat pump include:

1 Removable/replaceable chassis

2 Model WPRD retrofit chassis

3 Ducted and free discharge cabinet selections available

4 Factory mounted flow control with strainer and isolation valve option

5 Plug-in chassis and plug-in thermostat design

6 Factory mounted riser options

7 Maintenance accessibility for coil fin cleaning

8 Extra quiet design includes enhanced and deluxe sound proofing choice

9 Through the front high and low pressure service ports accessible

10 Tamper proof hinged acoustical door option

11 Unit mounted disconnect and fuse option

12 Lower height cabinet for ducted applications

13 Auxiliary drain pan

14 Rust resistant drain pan

15 Intelligent controls

Introduction

Chassis Rails

Water-Out Conn.

Water-In Conn.

TXV

Refrigeration

Refrigeration Section

Control Box

Completely Enclosed

Auxiliary Drain Pan

WSHP-PRC013-EN 3

Table ofContents

Introduction 2

Features and Benefits 4

Application Considerations 7

Selection Procedures 14Manual Selection Procedure 14

Model Number Description 15

General Data 18

Performance Data 19ARI/ISO Performance 19

Cool and Heat Performance 20

Correction Factors 32

Blower Performance 34

Electrical Performance 35

Anti-Freeze Correction Factors 36

Controls 37Wiring 37

Dimensional Data 40

Accessories 49Thermostats 49

Options 51

Mechanical Specifications 52

4 WSHP-PRC013-EN

Unit DescriptionThe vertical high-rise water-source heat pump is a floor mounted configu-ration available in a 3/4-ton, 1-ton, 1 1/4-ton, 1 1/2-ton, 2-ton and 3-ton siz-es. The unit cabinetry may be ordered for early shipment to aid in early installa-tion of drywall, plumbing and electri-cal. See model number breakout on page 15. The cabinetry design is avail-able in either an 88-inch height (free discharge) or 80-inch height (ducted) configuration. As many as 3 supply-air discharges are available for the 1 1/4-ton through 3-ton, free discharge cabi-nets to provide multiple supply-air through one unit.

Air distribution is made through a rigid bar type extruded aluminum grille mounted to the sheetrock. It is both durable and attractive in design.

The return-air panel is a hinged acous-tical door, see Figure 1. The door al-lows for easy access to the unit’s filter and for maintenance of the equip-ment.

The hinged acoustical panel provides greater sound attenuation, and is mounted flush to the wall. This panel is easily removed for filter mainte-nance or chassis removal through the magnetic catch door. An optional tamper proof latch is available on the hinged door design to impede access if required.

Refrigeration SectionThe unit’s compressor is a highly ef-ficient, hermetically sealed with inter-nal vibration isolation. External isolation is provided between the compressor and mounting plate to help reduce radiated noise that is typi-cally associated with compressor start.

The air-to-refrigerant coil is easily accessible for cleaning purposes be-hind the unit’s removable return-air door/panel.

The water-to-refrigerant coil is a copper or cupro-nickel (option) co-axi-

al tube-within-a-tube design. The in-ner-water tube is deeply fluted to enhance heat transfer and minimize fouling and scaling. The outer refriger-ant gas tube is made from steel mate-rial. The coil is leak tested to assure there is no cross leakage between the water tube and the refrigerant gas (steel tube) coil. The 1/2" (009/012/015/018) and 3/4"(024/036) threaded water connections to the water-coil are avail-able on the exterior chassis top. A flex-ible hose connection with shut-off is typically used between the riser and water-coil in/out connections on the chassis to reduce water vibration.

The refrigerant flow metering is made through a thermal expansion valve (TXV). The TXV allows the unit to oper-ate with an entering fluid temperature from 25 F to 110 F, and an entering air temperature from 40 F to 90 F. The valve precisely meters refrigerant flow through the circuitry to achieve de-sired heating or cooling.

Unlike cap-tube assem-blies, the TXV allows the exact amount of refrigerant required to meet the coil load demands. This precise metering increases the over-all efficiency of the unit.

The unit’s reversing valve is piped to be energized in the cooling mode. All vertical high-rise units ship in a heat pump configuration with a system reversing valve.

Unit SafetyAll unit safety devices are provided to help prevent compressor damage. Low pressure suction line tem-perature sensor and high pressure switch are added to help protect the com-pressor operation under a low charge (20 psig) or dur-ing high discharge (395

psig) pressures. In cases where a low charge, or excessive loss of charge oc-curs, each compressor comes equipped with an overload device to halt the compressor operation.

A safety lockout provides the mechan-ical communication of the low and high pressure switches to prevent compressor operation if the unit is un-der low or high refrigerant pressures, or during a condensate overflow con-dition. The lockout relay may be reset at the thermostat, by cycling power to the unit or through a LonTalkTM front end device (ZN510 control option).

General alarm is accomplished through the lockout relay and is used to drive light emitting diodes. This fea-ture will drive dry contacts only, and may not be used to drive field installed control inputs.

Features andBenefits

MAGNETIC

DOOR FRAME

HINGED DOOR

Figure 1: Return-air flush mounted hinged door

CATCH (2)

WSHP-PRC013-EN 5

Retrofit ChassisThe WPRD model chassis (water/re-frigeration section) was specifically designed for the retrofit market. Se-lecting the retrofit chassis provides a perfect replacement to the WPRD model. See performance section for retrofit chassis selection.

Blower/Motor AssemblyThe unit’s blower/motor assembly in-cludes double width, double inlet (DWDI) blowers with direct drive PSC motor(s) for improved efficiency and power factor. It may be easily removed for cleaning or service after removal of the unit chassis. The motor is a multi-speed design, factory wired to high speed or low speed (order specific). The tap will be wired and capped in-side the unit control box for easy field convertibility. See installation manual WSHP-SVX03B-EN for convertibility instructions.

Supply/Return/Condensate RisersSupply, return and condensate risers are available as a factory mounted and shipped option. The risers are con-structed from type L or M copper. The top of each riser is swaged to accept the same size diameter riser from above. This helps facilitate installation of the water supply, return and con-densate to and from the unit. Insula-tion may be factory installed or field installed per order selection. The insu-lation helps keep moisture from form-ing on the pipes and damaging building construction.

The riser length may be ordered as standard in 96-inch to 120-inch lengths. See page 9 for riser applica-tion information.

Factory Installed Flow ControlOptional factory mounting of the isola-tion valve and flow control valves is available to speed field equipment in-stallation, and help provide optimum water flow balancing support.

ControlsStandard controls include a 24-volt, micro-processor Deluxe controller

for a wall-mounted thermostat option. The thermostat is typically placed above the return-air door. Even though the thermostat is considered to be unit mounted, the thermostat is mounted to the dry-wall that covers the front of the unit. See Figure 2.

Thermostat selections are provided in the accessory section of the catalog. They are available in manual or auto-matic changeover options.

The deluxe controller includes relays for: anti-short cycle compressor pro-tection, random start delay, brown-out protection low pressure time delay, compressor delay on start and night setback control. These extended con-trol features offer greater system per-formance to extend the equipment’s life. See Figure 3 for control box de-sign.

The TracerTM ZN510 controller (option) is provided on the vertical ver-tical stack design for direct digital con-trol (DDC) systems. This controller offers the building owner innovative ways to optimize heating and cooling energy for the building. Faults and sensors include: random start delay, heating/cooling status, occupied/un-occupied mode, and fan/filter status. See Figure 4 for control box design and WSHP-PD-1 for more information on ZN510 controls.

The TracerTM Loop Controller (TLC) may be added to either the Deluxe controls or the ZN510 controls to maintain system loop operation. See WMCA-IOP-1 for more information on the TLC .

The ZN510 controller may also be ap-plied with the Tracker and Summit building management systems to fur-ther enhance system operation.

Basic 24-volt mechanical controls (mechanical relays) are available for retrofit chassis only.

Non-fused disconnect and fused entrance block may be factory add-ed to the equipment to save installa-

tion time of these components in the field where local building codes allow.


Figure 2: Thermostat location

Figure 4: ZN510 control box

Figure 3: Deluxe control box

6 WSHP-PRC013-EN

Controls by TraneWhether involved in retrofit or new construction applications, Trane has a control design to fit any system requirement. The broad range of control package options offered range from Deluxe micro controls, a cost efficient, 24V stand-alone solution to a complete building control system provided from an ICS (Integrated ComfortTM System/LonTalk) design. The following chart explains the difference in the control design.

Graphic Description Application ICS Protocol Where to find more information

Basic 24V Compressor lockout relay, high pressure switches and a low temperature sensor

Retrofit WPRD model chassis only

No Non Applicable For retrofit WPRD model ONLY

Deluxe 24Vfor mercury or

digital thermostat connection

24V microproces-sor board designed to pro-vide control of the compressor, as well as multiple relay offerings to maximize system performance

Retrofit market where single and multiple unit replacement occurs in a standalone configuration

Multi-unit installation where units may be daisy-chained directly to the Trane TracerTM Loop Controller

No Non Applicable WSHP-PRC001-EN

Tracer ZN510TM

for zone sensor or central system

connection

Direct Digital Con-trol board designed to pro-vide control of the entire unit as well as outputs for unit status and fault detection

Retrofit market where overall system upgrade is specified

Multi-unit installation where units are linked by a common twisted pair of wire for a communication link

Yes Comm5LonTalkTM

WSHP-PD-1

TracerTM Loop Controller

Microprocessor-based controller that coordinates the water side (boiler, pumps, cooling tower, etc.) of a water-source heat pump system

Wherever the Deluxe or Tracer ZN510 controls are specified

Yes Comm5LonTalkTM

WMCA-IOP-1

TrackerTM Microprocessor-based controller designed for small to medium-sized buildings for cen-tral mechanical equipment control

Where the ZN510 control-ler is specified

Yes Comm5LonTalkTM

BAS-PRC010-EN

Tracer Summit® Microprocessor-based controller that coordinates full building auto-mation from HVAC to lighting

Where the ZN510 control-ler is specified

Yes Comm2,3,4,5BACNET

LonTalkTM

EMTW-SVN01B-ENEMTW-SVP01B-ENEMTW-SVU01B-EN


WSHP-PRC013-EN 7

FlexibilityThe vertical, high-rise water-source heat pump system is versatile for in-stallation in boiler/cooling tower appli-cations (Figure 5), as well as ground-source (geothermal) applications. The system typically employs a central pumping design. The central pumping design involves a single pump design, usually located within a basement or mechanical room to fulfill pumping re-quirements for the entire building sys-tem. An auxiliary pump is typically applied to lessen the likelihood of sys-tem downtime if the main pump mal-functions.

Advantages of GeothermalThe advantages of a geothermal heat pump system can literally decrease heating and cooling operating costs by 30 to 40-percent. The units are du-rable, and typically last longer than conventional systems. They are pro-tected from harsh outdoor weather conditions, because the unit is in-stalled indoors and the loop under-ground. 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 ma-terials guarantee their products for up to 25-years, with no maintenance re-quired.

Geothermal heat pumps work toward the preservation of the environment by reducing the environmental im-pacts of electric power generation.

Installation TipsWhen installing a high-rise water-source heat pump, there are specific installation requirements that should be taken into consideration. These in-clude:

• Noise control

• Riser location

• Furring-in the unit

Sound AttenuationThe high-rise heat pump is better suit-ed for acoustically sensitive water-source heat pump applications than other water-source products. Com-pressor and water noise are attenuat-ed by the filter panel, sheet rock and the acoustically lined door. Air noise is silenced through the extended and in-sulated duct portion at the top of the vertical cabinet.

Furring-In the UnitThe vertical high-rise water-source heat pump is designed to be a furred-in application. Dry-wall (sheetrock) is attached to furring studs (not unit cab-inetry) until the entire cabinet, except the front access panel, is enclosed. Ac-cess to the unit is made entirely through the front panel which spans approximately one-half of the unit height. The dry-wall enclosure allows the unit to seamlessly blend in with the decor of the room. If renovations are needed, the drywall portion of the unit can simply be re-papered or re-painted with the remainder of the room. With careful design, the high-rise WSHP can be incorporated into a room design, while occupying mini-mum floor space. See Figure 6 for typ-ical equipment installations.

ApplicationConsiderations

Figure 5: Boiler/cooling tower application

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A SINGLE SUPPLYCORNER SET-UP

R S D

RS

D

C DUAL SUPPLYDIVIDING WALL SET-UP

B SINGLE SUPPLYMASTER/SLAVE SET-UP

R S D

Equipment InstallationThe vertical high-rise unit is versatile in design to fit numerous applications. It is typically applied to dorm rooms, hotels and motels where multiple sup-ply air configurations may be required for individual tenant heating and cool-ing. The equipment requires little space, and is tucked away from sight, and rough handling. The vertical stack design is economical to install, requir-ing no ductwork for air supply. The ris-er design may be stacked one on top of another for multi-story applications, or shared between two units (see ex-ample B) when architectural design permits. Because the chassis is remov-able, serviceability to the equipment is enhanced. If service does become a re-quirement, the chassis is simple to re-move from the cabinet, replaced with a back-up chassis, then repaired off-site at a convenient time. A retrofit chassis was designed to fit our WPRD cabinet where equipment replacement is necessary providing the same equipment fit, but with higher efficien-cy ratings.


Figure 6: Installation illustration for vertical high-rise design

WSHP-PRC013-EN 9

Equipment RisersThe riser provides an easy way to facil-itate the water flow through a multi-story building and the high-rise heat pump. The high-rise heat pump is best applied to a building with identical zones on each floor, and zones that are typically small. An example building might include a hotel, dorm, condo-minium or assisted living facility. With these types of buildings, the riser col-umn (external to the unit cabinetry) can be stacked one on top of the other. The piping installation for the entire HVAC system becomes very simple to install because it is pre-measured, and pre-fabricated at the factory. See Fig-ure 7.

Factory risers are available as Type K (design special), L (standard design), and M (standard design). The differ-ences between these types of materi-als is the wall thickness of the copper. Table 1 shows the wall thickness for the most common diameters of risers. It is recommended for most jobs to use type L or M copper. Type K risers are generally not necessary for most high-rise heat pump applications.

The riser design contains threaded stubouts to facilitate connection of the supply and return risers to the hose kits. The hose kits are then connected to the water-in/out of the unit’s chas-sis.

Note: Supply/return/drain risers that are ordered and supplied through the factory may be ordered as insulated.

Drain risers are generally made of type M copper. If copper, drain risers are used, the risers should be insulated since the typical temperatures of con-densate may cause the riser to sweat.

Note: Pressure ratings for risers are typically greater than the maximum pressure rating of the coaxial water-to-refrigerant heat exchangers. This is true with exception of Type M copper in a 3" diameter. The maximum pres-sure rating for Type M, 3" diameter copper is 380 psig. All other diameters for Type M copper, and all 3/4" through 3" Type L copper are greater than the 400 psig rating on the coaxial water-to-refrigerant heat exchanger.

Table 1: Riser characteristics

Type K (special design)

RiserSize(in.)

I.D. (in.)

O.D. (in.)

CopperWall Thk

(in.)

1 0.995 1.125 0.065

1 1/4 1.245 1.375 0.065

1 1/2 1.481 1.625 0.072

2 1.959 2.125 0.083

2 1/2 2.435 2.625 0.095

3 2.907 3.125 0.109

Type L (standard)

1 1.025 1.125 0.05

1 1/4 1.265 1.375 0.055

1 1/2 1.505 1.625 0.06

2 1.985 2.125 0.07

2 1/2 2.465 2.625 0.08

3 2.945 3.125 0.09

Type M (standard)

1 1.055 1.125 0.035

1 1/4 1.291 1.375 0.042

1 1/2 1.527 1.625 0.049

2 2.009 2.125 0.058

2 1/2 2.495 2.625 0.065

3 2.981 3.125 0.072


Figure 7: High-rise set-up

10 WSHP-PRC013-EN

Riser SizingThe proper selection of riser diameter is critical when designing a cost effec-tive job. If the riser diameter is too small, the flow of water to the heat pump may be restricted, making the pumping power requirement exces-sive. On the other hand, if the riser di-ameter is too large, the cost of the equipment may become unnecessari-ly high.

To determine the riser size, calculate the flow at a particular riser. Riser col-umns will begin with large diameters at the bottom of the column and de-crease diameter as the water travels up toward the top floor. The GPM at the first floor is determined by totaling the GPM of all the units on the riser column. The GPM for the second floor is then determined by taking the total GPM and subtracting the flow from the first floor.

The proper size of the riser is deter-mined by calculating the velocity of the water in the riser. The maximum water velocity that a riser should expe-rience is about 6 or 7 feet/second. Ta-ble 2 can be used as a quick reference chart for determining the maximum

GPM allowed for a given riser size. Fig-ure 8 may be used to calculate the pre-cise water velocity for a given riser diameter and flow.

Note: Table 2 and Figure 8 are for gen-eral design calculation reference. They are not intended to take the place of an engineered piping design.

Table 2: Maximum riser flow rate

Riser Size(in.)

Max. GPM

Water Velocity (ft./sec.)

Head Loss

(ft.100 ft.)

1 16 6.2 15.6

1 1/4 24 6.1 11.8

1 1/2 34 6.1 9.38

2 58 6.0 6.6

2.5 90 6.0 5.1

3 130 6.1 4.2


Figure 8: Riser flow diagram found in 1993 ASHRAE Fundamentals Handbook

WSHP-PRC013-EN 11

Riser Size ExampleAssume a six story building is served by a high-rise water-source heat pump. See Figure 9. When referencing the catalog, we determine each high-rise heat pump uses 3 gallons per minute to meet the required capacity of the 1-ton unit. What is the minimum riser diameter that can be used on each floor?

With this arrangement, we determine the volume of water used at each floor is 3 GPM. The top floor riser therefore only needs to be sized for 3 GPM. Re-ferring to Table 2, we know that a 1-inch type M riser can handle up to 16 GPM, therefore the riser size is deter-mined to be 1-inch.

The first floor will see 18 GPM through the riser. Since 18 GPM will result in more than 6 ft./second in a 1-inch riser, it would be advisable to move to a 1 1/4-inch riser.

Piping Layout of the RiserTwo methods may be used when pip-ing a riser column. These include di-rect return or reverse return. See Figure 10.

Advantages may be seen in both types of piping methods. For a direct return installation, the riser system is straightforward leaving little confu-sion about properly sized risers. This provides a more cost effective advan-tage during the installation process.

The disadvantages of this system is the pressure drop. The total pressure drop on the unit for the sixth floor is much greater than the total pressure drop on the unit for the first floor. This means that the riser column will re-quire balancing from floor-to-floor during installation.

Piping advantages for the reverse re-turn system include the ability to de-sign the riser column so that the total system pressure drop through each unit is equalized. The overall pressure drop is also lower, allowing some en-ergy savings potential. This piping method however does not eliminate

the need for proper balancing at each unit.

The disadvantage of this system re-lates to cost and complexity. The re-verse return method typically costs more because of the additional pipe required for each riser column.


Figure 9: Riser sizing

Figure 10: Piping layout

12 WSHP-PRC013-EN

Riser ConnectionsRisers are coupled together with a belled or swaged connection. The riser is belled on the top of the unit, and the unit on the floor above has a straight piece of copper to slide into the belled fitting. The swage joint is then brazed into place. The length of the belled joint is approximately 3-inches to al-low for variation in the connection.

Riser Extensions (field provided)Riser extensions are used when stan-dard riser lengths are not long enough to reach the floor-to-floor height. Riser extensions are also used when a trans-formation in riser diameter is needed between floors.

Expansion CompensationVertical movement due to expansion and contraction of the riser must be compensated for to prevent excess movement of the riser stubout which penetrates the heat pump unit. The ex-pansion compensation of the riser is typically required when the overall ris-er movement at the unit exceeds 1 1/4-inch during normal yearly operation.

Copper expands at the rate of .000109 inches/ft./degree fahrenheit. To deter-mine how much a riser may expand and contract, identify the ∆T of the ris-er and the total effective riser column height.

To calculate the ∆T, the maximum and minimum water temperature of the riser will need to be know. It is the rate in actual temperature that the riser will experience. For a heating riser, the minimum temperature may be the lowest ambient temperature during in-stallation. For cooling risers, the maxi-mum temperature may be the summer ambient temperature. For cal-culating the ∆T for a heating riser, a safety factor of 10º is typically added.

The formula’s are shown below:

Typical expansion factors include:

When determining the effective riser height, the calculation should include the expansion calculation to deter-mine the actual riser stubout move-ment at each unit. Taller buildings will use a system of riser anchors, and ris-er expansions compensators. The ef-fective riser height will be the distance between the nearest riser anchor, and the individual unit stubout.

Expansion may be calculated as:

Note: Formula’s provided on this page are for general design calculation ref-erence. They are not intended to take the place of an engineered piping de-sign

Cooling ∆T = (Thigh - Tlow)

Heating ∆T = (Thigh - Tlow) + 10º F

∆T (ºF) Expansion (in/ft.)

140 .0153

150 .0164

160 .0175

170 .0186

180 .0197

190 .0208

Expansion (in.) = ∆T x .000109 x effective height (ft.)


WSHP-PRC013-EN 13

Central Plant ControlProper central plant control is critical to the operation of a water-source heat pump system. Loss of waterflow or loop temperatures outside of the rec-ommended range will severely impact the operation of the equipment. The following should be followed as mini-mum operational recommendation for the central plant:

• Heat rejector control (i.e. closed circuit cooling tower, or geother-mal loop)

• Heat adder (i.e. boiler or geother-mal loop)

• Circulating pumps

• Sensing elements

Heat Rejection through a Closed Circuit Cooling TowerCooling towers serve to reject heat from the condenser water loop to the atmosphere. Two types of cooling towers are used with water-source heat pump systems: open or closed-circuit. The towers themselves are dif-ferent, but when an open tower is used in conjunction with a water-to-water heat exchanger, the control of the two tower types is essentially the same.

Control for the closed-circuit cooling towers may be made with a Trane Tracer Loop Controller (TLC). With the TLC, up to four stages of cooling tower control are possible.

When the loop supply temperature is 4° F below the loop supply high set-point, the first stage of cooling is initi-ated by opening the closure dampers on the cooling tower.

At 2° F below the setpoint the next stage of cooling is initiated which is the starting of the tower’s circulating pump. If the amount of heat rejected by the first two stages is not enough, the loop temperature will continue to rise. When the temperature reaches the loop supply high setpoint, the next stage of cooling is initiated. This is the first stage of cooling tower fans.

The differential between the stages now become 3° F and the temperature must remain above the differential for three minutes. Up to three individual fan stages may be sequenced or the second stage of fan can be the high speed of a multi-speed motor.

There are five different fan arrange-ments that the TLC supports: A single fan with a single motor, a single fan with dual motors (pony motors), a maximum of three fans with a maxi-mum of three motors, a variable speed fan with a field supplied variable fre-quency drive, and a single multi-speed motor.

Multiple cooling towers can be sup-ported only if the cooling tower stages are controlled in parallel.

Boiler OperationThe TLC will operate a boiler and the mixing valve respectively. Boiler con-trol is traditionally controlled by a sep-arate boiler controller, provided by the boiler manufacturer. The boiler mixing valve will control the mixture of the boiler water into the main loop to achieve the desired loop supply water.

When the loop temperature falls be-low the low loop-supply setpoint, the TLC enables the boiler. The ideal ar-rangement is for the boiler to have its own bypass loop so the boiler pump can circulate water through the heat exchanger. The boiler will maintain the temperature of the water to the de-sired setting in the packaged boiler control.

The three-way mixing valve is con-trolled by the TLC to add heat to the main loop by mixing in water from the boiler loop. A proportional-integral-derivative algorithm controls the valve. The boiler is not disable until the main loop temperature is 5° F greater than the low loop supply set-point for more than 5 minutes.

The TLC will also monitor the boiler loop temperature and provide an alarm if the temperature is below the boiler loop low limit after 30 minutes

of run time. The TLC will provide an alarm if the boiler loop temperature exceeds the boiler loop high limit after 30 minutes continually.

Facilities ManagementWater-source heat pump systems are naturally decentralized; thus they in-herently provide individual zone con-trol. Typical installations use mechanical thermostats to provide lo-calized control. Central plant control is typically handled by a control panel lo-cated in the main mechanical room. Minimal coordination is usually re-quired between the central plant and the individual water-source heat pumps for successful operation of the system.

A direct digital control system is rec-ommended to help support coordina-tion efforts between the central plant and the individual water-source heat pumps. This enhanced coordination can result in reductions in operating cost of the entire system.

The following items are typical of the additional coordination: Night setback and setup; After hour usage for track-ing and billing; Pump cycling for occu-pied/unoccupied control; Zone scheduling; Maintenance reporting for monitoring unit fault conditions; Trend logging of the system water temperatures; Monitoring of system levels for items such as waterflow, temperature, faults, heat rejector sta-tus, heat adder status and circulating pump status.


14 WSHP-PRC013-EN

The vertical high-rise water-source heat pump performance is rated in ac-cordance to the ARI/ISO 13256-1 stan-dard. This new standard has three major categories: Water Loop (ARI 320), Ground Water (ARI 325), Ground Loop (ARI 330). Although these stan-dards are similar there are some differ-ences.

The cooling efficiency is measured in EER but includes a Watt-per-Watt unit of measure similar to the traditional COP measurement.

The entering water temperature has changed to reflect the centigrade tem-perature scale. For instance the water loop heating test is performed with 68-degree F (20-degree C) water instead of 70-degree F. The cooling tests are performed with 80.6-degree F (27-de-gree C) dry bulb and 66.2-degree F (19-degree C) wet bulb entering air instead of the traditional 80-degree F dry bulb, and 67-degree F wet bulb entering air temperatures. This data (80.6/66.2) may be converted to 80/67 by using the entering air correction table.

A pump power correction has been added onto the existing power con-sumption. Within each model, only one water flow rate is specified for each performance category, and pumping watts are calculated utilizing the pump power correction formula: (gpm x 0.0631) x press drop x 2990) / 300.

Note: gpm relates to water flow, and press drop relates to the drop through the unit heat exchanger at rated water flow in feet of head.The fan power is corrected to zero ex-ternal static pressure. The nominal air-flow is rated at a specific external static pressure. This effectively reduc-es the power consumption of the unit, and increases cooling capacity but de-creases heating capacity. These watts are significant enough in most cases to increase EER and COP over ARI 320, 325, and 330 ratings.

Cooling Dominated ApplicationsIf humidity levels are moderate to high in a cooling dominated application, the heat pump should be selected to meet or exceed the calculated sensible load. Also, the unit’s sensible capacity should be no more than 115% of the total cooling load (sensible + latent), unless the calculated latent load is less than the latent capacity of the unit.

The sensible-to-total cooling ratio can be adjusted with airflow. If the airflow is lowered, the unit latent capacity will increase. When less air is pulled across the DX coil, more moisture will condense from the air.

Heating DominatedApplicationsUnit sizing in heating dominated appli-cations is based upon humidity levels for the climate, and goals for operating cost and installation costs.

If humidity levels are moderate, the heat pump should be selected with the heating capacity equal to 125% of the cooling load.

If humidity levels are low in the appli-cation and low operating cost is im-portant, the heat pump and ground loop should be sized for 90% to 100% of the heating load.

If humidity levels are low and lower initial cost is important, then the heat pump and ground loop should be sized for 70% to 85% of the heating load, with the remaining load to be treated with electric resistance heat.

Installation cost will be reduced in this approach because of the smaller heat pump selection and less loop materi-als.

In general, the system will not use enough boiler heat to offset the higher installation costs associated with a ful-ly sized or oversized system.

Finally, a unit sized for the entire heat-ing load in a heating dominated appli-cation will be oversized in cooling. Comfort is reduced from increased

room humidity caused by short-run times. Short cycling will also shorten the life expectancy of the equipment and increase power consumption and operating cost.

Many rebate incentives require the heat pump and ground loop to be sized for the entire heating load. Check with you local utility for their require-ments.

Model NumberTwo model number designators have been defined for the cabinet configu-ration, and the chassis configuration. Both model numbers require input for the order to be complete and built to specification. To do this effectively, fill in the cabinet portion of the model number, then copy the cabinet model number to the chassis portion. The only digit requiring modification in LynxTM is DIGIT 1. Modify this digit to reflect the chassis requirement to identify the equipment.

Typically the vertical stack equipment ships in two sections. (1)The cabinet and riser section ship first to allow the contractor to furr-in the equipment during sheetrock installation, and (2) the chassis (refrigeration/water) sec-tion ship approximately two to four weeks later eliminating storage re-quirements of the chassis and possi-ble damage at the job site while waiting for installation. For this rea-son, we have developed these two model number designators specific to the unit chassis, and the cabinet for the equipment.

Selection Procedures

WSHP-PRC013-EN 15

DIGITS 1-3: UNIT CONFIGURATIONGET = High Efficiency Vertical High

Rise Heat Pump (cabinet with blower/motor)

DIGIT 4: DEVELOPMENT SEQUENCE

DIGITS 5-7: NOMINAL SIZE (Tons)009 = 3/4 Tons012 = 1 Tons015 = 1 1/4 Tons018 = 1 1/2 Tons024 = 2 Tons036 = 3 Tons

DIGIT 8: VOLTAGE (Volts/Hz/Phase)1 = 208/60/12 = 230/60/16 = 220-240/50/17 = 265/60/1

DIGIT 9: HEAT EXCHANGER1 = Copper Water Coil2 = Cupro-Nickel Water Coil3 = Copper Water Coil with Isolation

Valve and Low Flow Control4 = Cupro- Nickel Water Coil with

Isolation Valve and Low Flow Control5 = Copper Water Coil with Isolation

Valve and High Flow Control6 = Cupro-Nickel Water Coil with Isolation

Valve and High Flow Control

DIGIT 10: CURRENT DESIGN SEQUENCE

DIGIT 11: REFRIGERATION CIRCUIT0 = Heating and Cooling CircuitA = Cooling Only Circuit

DIGIT 12: BLOWER CONFIGURATION1 = Free Discharge2 = Ducted Discharge

DIGIT 13: CUSTOMER CHANNEL1 = Boiler/Tower Design2 = Geothermal Design5 = Trane International

DIGIT 14: OPEN DIGIT0 = Open

DIGIT 15: SUPPLY AIR ARRANGEMENT0 = No Supply Air Arrangement1 = Back and Front Supply Air2 = Back and Left Supply Air3 = Back and Right Supply Air4 = Front and Left Supply Air5 = Front and Right Supply Air6 = Left and Right Supply Air7 = Back, Front and Right Supply Air8 = Back, Front and Left Supply Air9 = Front, Right and Left Supply AirB = Back Supply AirL = Left Supply AirR = Right Supply AirT = Top Supply AirF = Front Supply Air

DIGIT 16: RETURN AIR ARRANGEMENT0 = No Return Air Door (Field Provided)1 = Flush with Wall, Acoustic Hinged

Return Air Door with Keyless Entry2 = Flush with Wall, Acoustic Hinged

Return Air Door with Keylock Entry

DIGIT 17: CONTROL TYPESD = Deluxe 24V ControlsC = Tracer ZN510 Controls

DIGIT 18: THERMOSTAT SENSOR LOCATION

0 = Wall Mounted Location

DIGIT 19: FAULT SENSORS0= No Fault Sensors1 = Condensate Overflow Sensor2 = Filter Maintenance Timer3 = Condensate Overflow and Filter Main-

tenance Timer

DIGIT 20: TEMPERATURE SENSOR0 = No Additional Temperature Sensor

DIGIT 21: NIGHT SETBACK CONTROL0 = No Night Setback RelayN = Night Setback Relay

DIGIT 22: ELECTRIC HEAT OPTION0 = No Electric Heat

DIGIT 23: UNIT MOUNTED DISCONNECT0 = No Unit Mounted DisconnectC = Disconnect Switch OnlyD = Disconnect Switch with Fuses

DIGIT 24: FILTER TYPE1 = 1-inch Throwaway Filter

DIGIT 25: ACOUSTIC ARRANGEMENT0 = Enhanced Sound Attenuation1 = Deluxe Sound Attenuation

DIGIT 26: FACTORY CONFIGURATION4 = Cabinet ONLY

DIGIT 27: PAINT COLOR8 = Polar White

DIGIT 28: OUTSIDE AIR OPTION 0 = No Outside Air

DIGIT 29: PIPING ARRANGEMENTB = Back Riser LocationL = Left Hand Riser LocationR = Right Hand Riser Location

DIGIT 30: RISER TYPE0 = No RiserL = Type L RiserM = Type M Riser

DIGIT 31: SUPPLY RISER0 = No RiserA = 3/4" Dia. Riser with InsulationB = 1" Dia. Riser with InsulationC = 1 1/4" Dia. Riser with InsulationD = 1 1/2" Dia. Riser with InsulationE = 2" Dia. Riser with InsulationF = 2 1/2" Dia. Riser with InsulationG = 3" Dia. Riser with Insulation1 = 3/4" Dia. Riser2 = 1" Dia. Riser3 = 1 1/4" Dia. Riser4 = 1 1/2" Dia. Riser5 = 2" Dia. Riser6 = 2 1/2" Dia. Riser7 = 3" Dia. Riser

Model NumberCabinet

Vertical High-Rise CABINET WSHP

5 10 15 20G E T B 036 2 1 - 0 1 1 0 4 1 C 0 1 0 0 0 0 1 0 1 8 0 B L B B A 120

25 30

16 WSHP-PRC013-EN

DIGIT 32: RETURN RISER0 = No RiserA = 3/4" Dia. Riser with InsulationB = 1" Dia. Riser with InsulationC = 1 1/4" Dia. Riser with InsulationD = 1 1/2" Dia. Riser with InsulationE = 2" Dia. Riser with InsulationF = 2 1/2" Dia. Riser with InsulationG = 3" Dia. Riser with Insulation1 = 3/4" Dia. Riser2 = 1" Dia. Riser3 = 1 1/4" Dia. Riser4 = 1 1/2" Dia. Riser5 = 2" Dia. Riser6 = 2 1/2" Dia. Riser7 = 3" Dia. Riser

DIGIT 33: CONDENSATE RISER0 = No RiserA = 3/4" Dia. Riser with InsulationB = 1" Dia. Riser with InsulationC = 1 1/4" Dia. Riser with InsulationD = 1 1/2" Dia. Riser with InsulationE = 2" Dia. Riser with InsulationF = 2 1/2" Dia. Riser with InsulationG = 3" Dia. Riser with Insulation1 = 3/4" Dia. Riser2 = 1" Dia. Riser3 = 1 1/4" Dia. Riser4 = 1 1/2" Dia. Riser5 = 2" Dia. Riser6 = 2 1/2" Dia. Riser7 = 3" Dia. Riser

DIGIT 34, 35, 36: RISER LENGTH000 = No Riser096 = 96" Riser Length097 = 97" Riser Length098 = 98" Riser Length099 = 99" Riser Length100 = 100" Riser Length101 = 101" Riser Length102 = 102" Riser Length103 = 103" Riser Length104 = 104" Riser Length105 = 105" Riser Length106 = 106" Riser Length107 = 107" Riser Length108 = 108" Riser Length109 = 109" Riser Length110 = 110" Riser Length111 = 111" Riser Length112 = 112" Riser Length113 = 113" Riser Length114 = 114" Riser Length115 = 115" Riser Length116 = 116" Riser Length117 = 117" Riser Length118 = 118" Riser Length119 = 119" Riser Length120 = 120" Riser Length

Model NumberCabinet

WSHP-PRC013-EN 17

Model NumberChassis

Vertical High-Rise CHASSIS WSHP

5 10 15 20G E T B 036 2 1 - 0 1 1 0 4 1 C 0 1 0 0 0 0 1 0 1 8 0 B L B B A 120

25 30

DIGITS 1-3: UNIT CONFIGURATIONGET = High Efficiency Vertical High

Rise Heat Pump (cabinet with blower/motor)

DIGIT 4: DEVELOPMENT SEQUENCE

DIGITS 5-7: NOMINAL SIZE (Tons)009 = 3/4 Tons012 = 1 Tons015 = 1 1/4 Tons018 = 1 1/2 Tons024 = 2 Tons036 = 3 Tons

DIGIT 8: VOLTAGE (Volts/Hz/Phase)1 = 208/60/12 = 230/60/16 = 220-240/50/17 = 265/60/1

DIGIT 9: HEAT EXCHANGER1 = Copper Water Coil2 = Cupro-Nickel Water Coil3 = Copper Water Coil with Isolation

Valve and Low Flow Control4 = Cupro- Nickel Water Coil with

Isolation Valve and Low Flow Control5 = Copper Water Coil with Isolation

Valve and High Flow Control6 = Cupro-Nickel Water Coil with Isolation

Valve and High Flow Control

DIGIT 10: CURRENT DESIGN SEQUENCE

DIGIT 11: REFRIGERATION CIRCUIT0 = Heating and Cooling CircuitA = Cooling Only Circuit

DIGIT 12: BLOWER CONFIGURATION1 = Free Discharge2 = Ducted Discharge

DIGIT 13: CUSTOMER CHANNEL1 = Boiler/Tower Design2 = Geothermal Design5 = Trane International

DIGIT 14: OPEN DIGIT0 = Open

DIGIT 15: SUPPLY AIR ARRANGEMENT0 = No Supply Air Arrangement1 = Back and Front Supply Air2 = Back and Left Supply Air3 = Back and Right Supply Air4 = Front and Left Supply Air5 = Front and Right Supply Air6 = Left and Right Supply Air7 = Back, Front and Right Supply Air8 = Back, Front and Left Supply Air9 = Front, Right and Left Supply AirB = Back Supply AirL = Left Supply AirR = Right Supply AirT = Top Supply AirF = Front Supply Air

DIGIT 16: RETURN AIR ARRANGEMENT0 = No Door (Chassis Only)1 = Flush with Wall, Acoustic Hinged

Return Air Door with Keyless Entry2 = Flush with Wall, Acoustic Hinged

Return Air Door with Keylock Entry

DIGIT 17: CONTROL TYPESD = Deluxe 24V ControlsC = Tracer ZN510 ControlsB = Basic 24V Controls for WPRD Retrofit

DIGIT 18: THERMOSTAT SENSOR LOCATION

0 = Wall Mounted Location

DIGIT 19: FAULT SENSORS0= No Fault Sensors1 = Condensate Overflow Sensor2 = Filter Maintenance Timer3 = Condensate Overflow and Filter Main-

tenance Timer

DIGIT 20: TEMPERATURE SENSOR0 = No Additional Temperature Sensor

DIGIT 21: NIGHT SETBACK CONTROL0 = No Night Setback RelayN = Night Setback Relay

DIGIT 22: ELECTRIC HEAT OPTION0 = No Electric Heat

DIGIT 23: UNIT MOUNTED DISCONNECT0 = No Unit Mounted DisconnectC = Disconnect Switch OnlyD = Disconnect Switch with Fuses

DIGIT 24: FILTER TYPE1 = 1-inch Throwaway Filter

DIGIT 25: ACOUSTIC ARRANGEMENT0 = Enhanced Sound Attenuation1 = Deluxe Sound Attenuation

DIGIT 26: FACTORY CONFIGURATION1 = Chassis ONLYB = Retrofit Chassis for WPRD

DIGIT 27: PAINT COLOR8 = Polar White

DIGIT 28: OUTSIDE AIR OPTION 0 = No Outside Air

DIGIT 29: PIPING ARRANGEMENTB = Back Riser LocationL = Left Hand Riser LocationR = Right Hand Riser Location

DIGIT 30: RISER TYPE0 = No Riser (Chassis Only)

DIGIT 31: SUPPLY RISER0 = No Riser (Chassis Only)

DIGIT 32: RETURN RISER0 = No Riser (Chassis Only)

DIGIT 33: CONDENSATE RISER0 = No Riser (Chassis Only)

DIGIT 34, 35, 36: RISER LENGTH000 = No Riser (Chassis Only)

18 WSHP-PRC013-EN

Table G1: General dataModel Number = GET 009 012 015 018 024 036

Compressor Type Rotary Rotary Rotary Rotary Recip RecipCabinet Size Depth (in.) 16.0 16.0 18.0 18.0 24.0 24.0

Height (in.) 88.0 88.0 88.0 88.0 88.0 88.0Width (in.) 16.0 16.0 20.0 20.0 24.0 24.0

Depth (mm) 406.4 406.4 457.2 457.2 609.6 609.6Height (mm) 2235.2 2235.2 2235.2 2235.2 2235.2 2235.2Width (mm) 406.4 406.4 508 508 609.6 609.6

Approximate WeightCabinet

with Pallet(lb)

135 135 175 175 225 225

without Pallet(lb)

115 115 150 150 195 195

Approximate WeightChassis

with Pallet(lb)

90 95 110 115 190 200

without Pallet(lb)

80 85 100 105 180 190

Air-to-Refrigerant Coil

Face Area

(ft.2)1.39 1.39 1.88 2.18 2.88 2.88

Face Area

(cm2)107.6 107.6 145.5 168.8 223 223

Rows 2 3 3 4 4 4Fins Per Inch 12 14 12 12 12 12Fins Per cm. 4.7 5.5 4.7 4.7 4.7 4.7

Nominal 1" Filter Size

Inches 14 x 20 14 x 20 18 x 20 18 x 25 20 x 30 20 x 30mm 356 x 508 356 x 508 457 x 508 457 x 508 508 x 762 508 x 762

Water In/Out size NPTI 1/2" 1/2" 1/2" 1/2" 3/4" 3/4"Condensate Plastic Hose OD

(in)3/4" 3/4" 3/4" 3/4" 3/4" 3/4"

Riser Connection NPTE 1/2" 1/2" 1/2" 1/2" 3/4" 3/4"Discharge Air Blower 90-6TDD 90-6TDD 90-6DD 100-6TDD 100-6TDD 120-8TDD11

Motor HP 0.10 0.12 0.12 0.20 0.20 0.50Water-to-

Refrigerant CoilRefig Side

(PSIG)400 400 400 400 400 400

Water Side (PSIG)

400 400 400 400 400 400

Internal Volume 0.074 Gallon 0.074 Gallon 0.156 Gallon 0.208 Gallon 0.238 Gallon 0.307 Gallon

GeneralData

WSHP-PRC013-EN 19

Performance DataARI/ISO

Table P1: ARI-ISO PerformanceCompressor Section/Package Unit Model

Number

Rated Flow Rate, GPM

Rated Air Flow, SCFM

Cooling Capacity, WLHP

(Mbtuh)

EER, WLHP Heating Capacity, WLHP

(Mbtuh)

COP, WLHP

GET 009 2.25 480 8.5 13.5 10.9 4.7GET 012 3.10 470 11.0 12.1 13.8 4.3GET 015 3.50 620 14.8 13.3 18.7 4.6GET 018 4.5 730 17.9 12.0 21.4 4.3GET 024 6.0 940 25.3 12.0 31.8 4.3GET 036 9.0 1280 35.5 12.0 43.3 4.2

Rated in accordance with ISO Standard 13256-1: 1998 Water Loop Heat Pumps.

20 WSHP-PRC013-EN

Table P2: GET 009 Cooling Performance Cooling performance data is tabulated at 80.6 F DB/66.2 F WB entering air at ARI/ISO 13256-1 rated CFM. See Performance correction tables to correct perfor-mance at conditions other than those tabulated. Interpolation is permissible. Extrapolation is not.

Rated GPM: 2.25 Minimum CFM: 280Rated CFM: 482 Maximum CFM: 482

EWT GPM TotalMbtuh

SenMbtuh

SHR PowerkW

EER RejectMbtuh

LWT FeetHead

45 1.5 9.5 6.7 0.71 0.40 23.75 10.9 59.5 5.845 1.8 9.8 6.9 0.70 0.39 25.13 11.1 57.3 7.445 2.0 10.0 7.0 0.70 0.38 26.32 11.3 56.3 8.845 2.3 10.1 7.1 0.70 0.38 26.58 11.4 55.1 10.745 2.4 10.2 7.1 0.70 0.38 26.84 11.5 54.6 11.845 2.6 10.3 7.2 0.70 0.37 27.84 11.6 53.9 13.445 2.7 10.3 7.2 0.70 0.37 27.84 11.6 53.6 14.255 1.5 9.2 6.6 0.72 0.45 20.44 10.7 69.3 5.555 1.8 9.5 6.8 0.72 0.44 21.59 11.0 67.2 7.155 2.0 9.7 6.9 0.71 0.44 22.05 11.2 66.2 8.455 2.3 9.8 7.0 0.71 0.43 22.79 11.3 65.0 10.255 2.4 9.9 7.1 0.72 0.43 23.02 11.4 64.5 11.355 2.6 10.0 7.1 0.71 0.42 23.81 11.4 63.8 12.855 2.7 10.0 7.1 0.71 0.42 23.81 11.4 63.4 13.668 1.5 8.7 6.5 0.75 0.52 16.73 10.5 82.0 5.268 1.8 9.0 6.8 0.76 0.51 17.65 10.7 79.9 6.768 2.0 9.2 6.9 0.75 0.50 18.40 10.9 78.9 7.968 2.3 9.3 7.0 0.75 0.49 18.98 11.0 77.8 9.668 2.4 9.4 7.0 0.74 0.49 19.18 11.1 77.3 10.768 2.6 9.5 7.1 0.75 0.49 19.39 11.2 76.6 12.168 2.7 9.5 7.1 0.75 0.49 19.39 11.2 76.3 12.977 1.5 8.4 6.5 0.77 0.57 14.74 10.4 90.9 5.177 1.8 8.6 6.7 0.78 0.56 15.36 10.5 88.7 6.577 2.0 8.8 6.8 0.77 0.56 15.71 10.7 87.7 7.777 2.3 8.9 6.9 0.78 0.55 16.18 10.8 86.6 9.377 2.4 9.0 7.0 0.78 0.55 16.36 10.9 86.1 10.377 2.6 9.1 7.0 0.77 0.55 16.55 11.0 85.5 11.777 2.7 9.1 7.1 0.78 0.54 16.85 10.9 85.1 12.486 1.5 7.9 6.5 0.82 0.64 12.34 10.1 99.5 4.986 1.8 8.2 6.7 0.82 0.63 13.02 10.4 97.6 6.386 2.0 8.3 6.8 0.82 0.63 13.17 10.5 96.5 7.586 2.3 8.5 6.9 0.81 0.62 13.71 10.6 95.5 9.186 2.4 8.5 6.9 0.81 0.62 13.71 10.6 94.9 10.086 2.6 8.6 7.0 0.81 0.61 14.10 10.7 94.3 11.486 2.7 8.6 7.0 0.81 0.61 14.10 10.7 94.0 12.195 1.5 7.4 6.4 0.86 0.71 10.42 9.8 108.1 4.895 1.8 7.7 6.6 0.86 0.70 11.00 10.1 106.3 6.295 2.0 7.8 6.7 0.86 0.69 11.30 10.2 105.3 7.395 2.3 8.0 6.8 0.85 0.69 11.59 10.4 104.3 8.895 2.4 8.0 6.8 0.85 0.68 11.76 10.3 103.6 9.895 2.6 8.1 6.9 0.85 0.68 11.91 10.4 103.0 11.195 2.7 8.1 6.9 0.85 0.68 11.91 10.4 102.7 11.8105 1.5 6.9 6.2 0.90 0.78 8.85 9.6 117.9 4.7105 1.8 7.1 6.4 0.90 0.77 9.22 9.7 115.9 6.1105 2.0 7.2 6.5 0.90 0.76 9.47 9.8 114.9 7.2105 2.3 7.4 6.6 0.89 0.76 9.74 10.0 114.0 8.7105 2.4 7.4 6.6 0.89 0.75 9.87 10.0 113.4 9.6105 2.6 7.5 6.7 0.89 0.75 10.00 10.1 112.8 10.9105 2.7 7.5 6.7 0.89 0.75 10.00 10.1 112.5 11.5115 1.5 6.2 5.9 0.95 0.85 7.29 9.1 127.3 4.7115 1.8 6.5 6.1 0.94 0.84 7.74 9.4 125.5 6.1115 2.0 6.6 6.2 0.94 0.84 7.86 9.5 124.6 7.1115 2.3 6.7 6.3 0.94 0.83 8.07 9.5 123.6 8.6115 2.4 6.8 6.3 0.93 0.83 8.19 9.6 123.1 9.5115 2.6 6.8 6.4 0.94 0.83 8.19 9.6 122.5 10.7115 2.7 6.9 6.4 0.93 0.82 8.41 9.7 122.3 11.3120 1.5 5.9 5.7 0.97 0.90 6.56 9.0 132.1 4.7120 1.8 6.1 5.9 0.97 0.89 6.85 9.1 130.3 6.1120 2.0 6.2 6.0 0.97 0.89 6.97 9.2 129.3 7.1120 2.3 6.4 6.1 0.95 0.88 7.27 9.4 128.5 8.6120 2.4 6.4 6.1 0.95 0.88 7.27 9.4 127.9 9.5120 2.6 6.5 6.2 0.95 0.87 7.47 9.5 127.4 10.7120 2.7 6.5 6.2 0.95 0.87 7.47 9.5 127.1 11.3

Performance DataGET 009-Cooling

WSHP-PRC013-EN 21

Table P3: GET 009 Heating Performance Heating performance data is tabulated at 68 F DB entering air at ARI/ISO 13256-1 rated CFM. See Performance correction tables to correct performance atconditions other than those tabulated. Interpolation is permissible. Extrapolation is not.


EWT GPM Htg CapMbtuh

AbsorbMbtuh

PowerkW

COP LWT FeetHead

25 1.5 5.7 3.8 0.56 2.98 19.9 6.725 1.8 5.9 4.0 0.56 3.09 20.6 8.625 2.0 5.9 4.0 0.56 3.09 21.0 10.125 2.3 6.0 4.1 0.57 3.08 21.4 12.225 2.4 6.0 4.1 0.57 3.08 21.6 13.525 2.6 6.1 4.2 0.57 3.14 21.8 15.325 2.7 6.1 4.2 0.57 3.14 21.9 16.232 1.5 6.4 4.4 0.58 3.23 26.1 6.532 1.8 6.6 4.6 0.58 3.33 26.9 8.332 2.0 6.7 4.7 0.58 3.38 27.3 9.832 2.3 6.8 4.8 0.58 3.44 27.7 11.832 2.4 6.8 4.8 0.58 3.44 28.0 13.132 2.6 6.8 4.8 0.58 3.44 28.3 14.832 2.7 6.9 4.9 0.58 3.49 28.4 15.745 1.5 7.8 5.7 0.61 3.75 37.4 6.145 1.8 8.1 6.0 0.62 3.83 38.3 7.845 2.0 8.2 6.1 0.62 3.88 38.9 9.245 2.3 8.3 6.2 0.62 3.92 39.5 11.145 2.4 8.3 6.2 0.62 3.92 39.8 12.345 2.6 8.4 6.3 0.62 3.97 40.2 13.945 2.7 8.4 6.3 0.62 3.97 40.3 14.755 1.5 8.9 6.7 0.64 4.07 46.1 5.855 1.8 9.2 7.0 0.64 4.21 47.2 7.455 2.0 9.3 7.1 0.64 4.26 47.9 8.855 2.3 9.5 7.3 0.64 4.35 48.5 10.655 2.4 9.5 7.3 0.64 4.35 48.9 11.755 2.6 9.6 7.4 0.64 4.39 49.3 13.355 2.7 9.6 7.4 0.64 4.39 49.5 14.068 1.5 10.3 8.1 0.66 4.57 57.2 5.568 1.8 10.6 8.4 0.66 4.71 58.7 7.068 2.0 10.8 8.6 0.66 4.79 59.4 8.368 2.3 10.9 8.6 0.67 4.77 60.3 10.068 2.4 11.0 8.7 0.67 4.81 60.7 11.168 2.6 11.1 8.8 0.67 4.85 61.2 12.568 2.7 11.1 8.8 0.67 4.85 61.5 13.375 1.5 11.0 8.7 0.67 4.81 63.4 5.375 1.8 11.4 9.1 0.67 4.99 64.9 6.875 2.0 11.5 9.2 0.67 5.03 65.8 8.075 2.3 11.7 9.4 0.68 5.04 66.6 9.775 2.4 11.8 9.5 0.68 5.08 67.1 10.875 2.6 11.8 9.5 0.68 5.08 67.7 12.275 2.7 11.9 9.6 0.68 5.13 67.9 12.986 1.5 12.1 9.8 0.68 5.21 72.9 5.186 1.8 12.5 10.2 0.69 5.31 74.6 6.686 2.0 12.6 10.3 0.69 5.35 75.7 7.786 2.3 12.8 10.5 0.69 5.44 76.6 9.386 2.4 12.9 10.6 0.69 5.48 77.1 10.386 2.6 13.0 10.7 0.69 5.52 77.7 11.786 2.7 13.0 10.7 0.69 5.52 78.0 12.4

Performance DataGET 009-Heating

22 WSHP-PRC013-EN




EWT GPM TotalMbtuh

SenMbtuh

SHR PowerkW

EER RejectMbtuh

LWT FeetHead

45 2.0 12.6 8.6 0.68 0.56 22.50 14.5 59.5 8.445 2.5 13.0 8.9 0.68 0.54 24.07 14.8 56.8 11.945 2.8 13.2 9.0 0.68 0.53 24.91 15.0 55.7 14.345 3.1 13.3 9.2 0.69 0.52 25.58 15.1 54.7 16.845 3.3 13.4 9.2 0.69 0.52 25.77 15.2 54.2 18.545 3.6 13.5 9.3 0.69 0.51 26.47 15.2 53.4 21.345 3.7 13.5 9.3 0.69 0.51 26.47 15.2 53.2 22.355 2.0 12.3 8.5 0.69 0.63 19.52 14.5 69.5 7.955 2.5 12.6 8.8 0.70 0.61 20.66 14.7 66.8 11.355 2.8 12.8 8.9 0.70 0.60 21.33 14.9 65.6 13.655 3.1 13.0 9.0 0.69 0.59 22.03 15.0 64.7 16.055 3.3 13.1 9.1 0.69 0.59 22.20 15.1 64.2 17.755 3.6 13.2 9.2 0.70 0.58 22.76 15.2 63.4 20.455 3.7 13.2 9.2 0.70 0.58 22.76 15.2 63.2 21.468 2.0 11.6 8.2 0.71 0.75 15.47 14.2 82.2 7.468 2.5 11.9 8.4 0.71 0.72 16.53 14.4 79.5 10.668 2.8 12.1 8.6 0.71 0.71 17.04 14.5 78.4 12.868 3.1 12.3 8.7 0.71 0.71 17.32 14.7 77.5 15.168 3.3 12.4 8.8 0.71 0.70 17.71 14.8 77.0 16.768 3.6 12.5 8.8 0.70 0.69 18.12 14.9 76.3 19.468 3.7 12.5 8.8 0.70 0.69 18.12 14.9 76.1 20.377 2.0 10.9 7.8 0.72 0.83 13.13 13.7 90.7 7.177 2.5 11.3 8.1 0.72 0.80 14.13 14.0 88.2 10.277 2.8 11.5 8.2 0.71 0.80 14.38 14.2 87.2 12.377 3.1 11.7 8.3 0.71 0.79 14.81 14.4 86.3 14.677 3.3 11.8 8.4 0.71 0.78 15.13 14.5 85.8 16.277 3.6 11.9 8.5 0.71 0.78 15.26 14.6 85.1 18.777 3.7 11.9 8.5 0.71 0.78 15.26 14.6 84.9 19.686 2.0 10.2 7.4 0.73 0.92 11.09 13.3 99.4 6.886 2.5 10.6 7.7 0.73 0.89 11.91 13.6 96.9 9.886 2.8 10.8 7.8 0.72 0.88 12.27 13.8 95.9 11.986 3.1 11.0 8.0 0.73 0.88 12.50 14.0 95.1 14.186 3.3 11.1 8.0 0.72 0.87 12.76 14.1 94.6 15.686 3.6 11.2 8.1 0.72 0.86 13.02 14.1 93.9 18.186 3.7 11.3 8.1 0.72 0.86 13.14 14.2 93.7 18.995 2.0 9.4 7.0 0.74 1.01 9.31 12.9 108.0 6.795 2.5 9.9 7.3 0.74 0.98 10.10 13.2 105.6 9.695 2.8 10.1 7.4 0.73 0.97 10.41 13.4 104.6 11.595 3.1 10.2 7.5 0.74 0.96 10.63 13.5 103.8 13.695 3.3 10.3 7.6 0.74 0.96 10.73 13.6 103.3 15.195 3.6 10.5 7.7 0.73 0.95 11.05 13.7 102.7 17.595 3.7 10.5 7.7 0.73 0.95 11.05 13.7 102.4 18.4105 2.0 8.5 6.6 0.78 1.11 7.66 12.3 117.4 6.5105 2.5 9.0 6.9 0.77 1.08 8.33 12.7 115.2 9.3105 2.8 9.2 7.0 0.76 1.08 8.52 12.9 114.3 11.2105 3.1 9.3 7.1 0.76 1.07 8.69 13.0 113.5 13.2105 3.3 9.4 7.2 0.77 1.07 8.79 13.1 113.0 14.7105 3.6 9.6 7.2 0.75 1.06 9.06 13.2 112.4 17.0105 3.7 9.6 7.2 0.75 1.06 9.06 13.2 112.2 17.8115 2.0 7.6 6.1 0.80 1.24 6.13 11.8 127.0 6.5115 2.5 8.0 6.4 0.80 1.21 6.61 12.1 124.8 9.1115 2.8 8.2 6.6 0.80 1.21 6.78 12.3 123.9 10.9115 3.1 8.4 6.7 0.80 1.20 7.00 12.5 123.1 12.9115 3.3 8.5 6.7 0.79 1.19 7.14 12.6 122.7 14.3115 3.6 8.7 6.8 0.78 1.19 7.31 12.8 122.2 16.5115 3.7 8.7 6.8 0.78 1.19 7.31 12.8 122.0 17.3120 2.0 7.1 5.9 0.83 1.32 5.38 11.6 131.7 6.5120 2.5 7.5 6.2 0.83 1.29 5.81 11.9 129.6 9.0120 2.8 7.8 6.3 0.81 1.28 6.09 12.2 128.8 10.8120 3.1 7.9 6.5 0.82 1.28 6.17 12.3 128.0 12.7120 3.3 8.0 6.5 0.81 1.27 6.30 12.3 127.6 14.1120 3.6 8.2 6.6 0.80 1.26 6.51 12.5 127.0 16.3120 3.7 8.2 6.6 0.80 1.26 6.51 12.5 126.8 17.1

WSHP-PRC013-EN 23





AbsorbMbtuh

PowerkW

COP LWT FeetHead

25 2.0 7.7 5.2 0.74 3.05 19.8 10.325 2.5 7.9 5.3 0.75 3.09 20.8 14.025 2.8 8.1 5.5 0.75 3.16 21.1 16.525 3.1 8.2 5.6 0.75 3.20 21.4 19.225 3.3 8.2 5.6 0.75 3.20 21.6 21.125 3.6 8.3 5.7 0.76 3.20 21.8 24.025 3.7 8.3 5.7 0.76 3.20 21.9 25.032 2.0 8.5 5.9 0.77 3.23 26.1 9.832 2.5 8.8 6.2 0.77 3.35 27.0 13.532 2.8 8.9 6.2 0.78 3.34 27.6 15.932 3.1 9.0 6.3 0.78 3.38 27.9 18.532 3.3 9.1 6.4 0.78 3.42 28.1 20.432 3.6 9.2 6.5 0.78 3.46 28.4 23.232 3.7 9.2 6.5 0.78 3.46 28.5 24.245 2.0 10.1 7.3 0.81 3.65 37.7 9.045 2.5 10.4 7.6 0.82 3.72 38.9 12.545 2.8 10.5 7.7 0.82 3.75 39.5 14.945 3.1 10.6 7.8 0.82 3.79 40.0 17.445 3.3 10.7 7.9 0.82 3.82 40.2 19.245 3.6 10.8 8.0 0.83 3.81 40.6 21.945 3.7 10.8 8.0 0.83 3.81 40.7 22.955 2.0 11.6 8.7 0.85 4.00 46.3 8.555 2.5 11.8 8.9 0.85 4.07 47.9 11.955 2.8 12.0 9.1 0.86 4.09 48.5 14.255 3.1 12.1 9.2 0.86 4.12 49.1 16.655 3.3 12.2 9.3 0.86 4.16 49.4 18.355 3.6 12.3 9.4 0.86 4.19 49.8 21.055 3.7 12.3 9.3 0.87 4.14 50.0 22.068 2.0 13.2 10.2 0.89 4.35 57.8 7.968 2.5 13.5 10.5 0.89 4.44 59.6 11.168 2.8 13.6 10.5 0.90 4.43 60.5 13.368 3.1 13.8 10.7 0.90 4.49 61.1 15.768 3.3 13.8 10.7 0.90 4.49 61.5 17.368 3.6 13.9 10.8 0.90 4.53 62.0 19.968 3.7 13.9 10.8 0.90 4.53 62.2 20.875 2.0 13.8 10.7 0.90 4.49 64.3 7.675 2.5 14.1 11.0 0.90 4.59 66.2 10.875 2.8 14.2 11.1 0.91 4.57 67.1 12.975 3.1 14.3 11.2 0.91 4.60 67.8 15.275 3.3 14.4 11.3 0.91 4.64 68.1 16.875 3.6 14.5 11.4 0.91 4.67 68.7 19.475 3.7 14.5 11.4 0.92 4.62 68.8 20.386 2.0 14.7 11.6 0.91 4.73 74.4 7.286 2.5 14.9 11.8 0.92 4.75 76.5 10.386 2.8 15.1 12.0 0.92 4.81 77.4 12.386 3.1 15.2 12.1 0.92 4.84 78.2 14.586 3.3 15.3 12.2 0.92 4.87 78.6 16.186 3.6 15.3 12.1 0.93 4.82 79.3 18.686 3.7 15.4 12.2 0.93 4.85 79.4 19.4

24 WSHP-PRC013-EN




EWT GPM TotalMbtuh

SenMbtuh

SHR PowerkW

EER RejectMbtuh

LWT FeetHead

45 2.3 16.8 12.1 0.72 0.73 23.01 19.3 61.8 7.345 2.8 16.9 12.2 0.72 0.71 23.80 19.3 58.8 9.945 3.2 17.0 12.3 0.72 0.70 24.29 19.4 57.1 12.345 3.5 17.1 12.4 0.73 0.69 24.78 19.5 56.1 14.245 3.7 17.2 12.4 0.72 0.69 24.93 19.6 55.6 15.545 4.1 17.3 12.5 0.72 0.68 25.44 19.6 54.6 18.345 4.2 17.3 12.5 0.72 0.68 25.44 19.6 54.3 19.155 2.3 16.5 12.0 0.73 0.81 20.37 19.3 71.8 6.855 2.8 16.6 12.1 0.73 0.79 21.01 19.3 68.8 9.455 3.2 16.7 12.1 0.72 0.78 21.41 19.4 67.1 11.655 3.5 16.8 12.2 0.73 0.77 21.82 19.4 66.1 13.455 3.7 16.9 12.2 0.72 0.77 21.95 19.5 65.5 14.755 4.1 17.0 12.3 0.72 0.76 22.37 19.6 64.6 17.455 4.2 17.0 12.4 0.73 0.76 22.37 19.6 64.3 18.168 2.3 15.8 11.6 0.73 0.94 16.81 19.0 84.5 6.468 2.8 16.0 11.7 0.73 0.91 17.58 19.1 81.7 8.868 3.2 16.1 11.7 0.73 0.90 17.89 19.2 80.0 11.068 3.5 16.2 11.8 0.73 0.89 18.20 19.2 79.0 12.768 3.7 16.2 11.9 0.73 0.89 18.20 19.2 78.4 14.068 4.1 16.3 11.9 0.73 0.88 18.52 19.3 77.4 16.668 4.2 16.4 12.0 0.73 0.88 18.64 19.4 77.3 17.377 2.3 15.2 11.2 0.74 1.03 14.76 18.7 93.3 6.277 2.8 15.3 11.3 0.74 1.01 15.15 18.8 90.5 8.577 3.2 15.4 11.4 0.74 0.99 15.56 18.8 88.8 10.677 3.5 15.5 11.5 0.74 0.98 15.82 18.8 87.8 12.377 3.7 15.6 11.5 0.74 0.98 15.92 18.9 87.2 13.677 4.1 15.7 11.6 0.74 0.97 16.19 19.0 86.3 16.177 4.2 15.7 11.6 0.74 0.97 16.19 19.0 86.1 16.886 2.3 14.4 10.9 0.76 1.13 12.74 18.3 102.0 6.086 2.8 14.6 10.9 0.75 1.10 13.27 18.4 99.2 8.386 3.2 14.7 11.0 0.75 1.09 13.49 18.4 97.5 10.386 3.5 14.8 11.1 0.75 1.08 13.70 18.5 96.6 12.086 3.7 14.8 11.1 0.75 1.08 13.70 18.5 96.0 13.286 4.1 14.9 11.2 0.75 1.07 13.93 18.6 95.1 15.886 4.2 15.0 11.2 0.75 1.07 14.02 18.7 94.9 16.495 2.3 13.6 10.5 0.77 1.23 11.06 17.8 110.6 5.895 2.8 13.8 10.6 0.77 1.20 11.50 17.9 107.9 8.195 3.2 13.9 10.6 0.76 1.19 11.68 18.0 106.3 10.195 3.5 14.0 10.7 0.76 1.18 11.86 18.0 105.3 11.895 3.7 14.0 10.7 0.76 1.18 11.86 18.0 104.8 12.995 4.1 14.1 10.8 0.77 1.17 12.05 18.1 103.9 15.495 4.2 14.2 10.8 0.76 1.17 12.14 18.2 103.7 16.1105 2.3 12.8 10.0 0.78 1.35 9.48 17.4 120.2 5.7105 2.8 12.9 10.1 0.78 1.32 9.77 17.4 117.5 7.9105 3.2 13.0 10.2 0.78 1.31 9.92 17.5 116.0 9.9105 3.5 13.1 10.3 0.79 1.30 10.08 17.5 115.1 11.5105 3.7 13.2 10.3 0.78 1.30 10.15 17.6 114.6 12.7105 4.1 13.3 10.4 0.78 1.29 10.31 17.7 113.7 15.1105 4.2 13.3 10.4 0.78 1.28 10.39 17.7 113.5 15.8115 2.3 11.9 9.5 0.80 1.48 8.04 17.0 129.9 5.5115 2.8 12.1 9.6 0.79 1.45 8.34 17.1 127.3 7.7115 3.2 12.2 9.7 0.80 1.44 8.47 17.1 125.8 9.7115 3.5 12.3 9.7 0.79 1.43 8.60 17.2 124.9 11.3115 3.7 12.3 9.8 0.80 1.42 8.66 17.2 124.4 12.4115 4.1 12.4 9.9 0.80 1.41 8.79 17.2 123.5 14.9115 4.2 12.5 9.9 0.79 1.41 8.87 17.3 123.3 15.5120 2.3 11.5 9.2 0.80 1.55 7.42 16.8 134.8 5.5120 2.8 11.6 9.3 0.80 1.52 7.63 16.8 132.1 7.6120 3.2 11.8 9.3 0.79 1.50 7.87 16.9 130.7 9.6120 3.5 11.8 9.4 0.80 1.49 7.92 16.9 129.8 11.2120 3.7 11.9 9.4 0.79 1.49 7.99 17.0 129.3 12.3120 4.1 12.0 9.5 0.79 1.48 8.11 17.1 128.4 14.8120 4.2 12.0 9.5 0.79 1.47 8.16 17.0 128.2 15.4

WSHP-PRC013-EN 25





AbsorbMbtuh

PowerkW

COP LWT FeetHead

25 2.3 10.3 7.1 0.95 3.18 18.8 8.225 2.8 10.3 7.1 0.95 3.18 19.9 11.825 3.2 10.5 7.3 0.95 3.24 20.4 14.825 3.5 10.5 7.2 0.96 3.20 20.9 17.225 3.7 10.6 7.3 0.96 3.24 21.1 18.825 4.1 10.7 7.4 0.96 3.27 21.4 22.325 4.2 10.7 7.4 0.96 3.27 21.5 23.232 2.3 11.2 7.9 0.98 3.35 25.1 8.432 2.8 11.4 8.1 0.98 3.41 26.2 11.632 3.2 11.6 8.3 0.98 3.47 26.8 14.332 3.5 11.7 8.3 0.99 3.46 27.3 16.432 3.7 11.7 8.3 0.99 3.46 27.5 17.932 4.1 11.8 8.4 0.99 3.49 27.9 21.132 4.2 11.9 8.5 0.99 3.52 28.0 21.945 2.3 13.4 9.9 1.03 3.81 36.4 7.945 2.8 13.7 10.2 1.04 3.86 37.7 10.645 3.2 13.9 10.4 1.04 3.92 38.5 13.045 3.5 14.1 10.5 1.05 3.93 39.0 14.945 3.7 14.2 10.6 1.05 3.96 39.3 16.345 4.1 14.3 10.7 1.05 3.99 39.8 19.145 4.2 14.3 10.7 1.05 3.99 39.9 19.955 2.3 15.3 11.6 1.08 4.15 44.9 7.455 2.8 15.7 12.0 1.09 4.22 46.4 10.055 3.2 15.9 12.2 1.09 4.27 47.4 12.255 3.5 16.1 12.4 1.10 4.29 47.9 14.155 3.7 16.2 12.5 1.10 4.32 48.2 15.455 4.1 16.3 12.6 1.10 4.34 48.9 18.155 4.2 16.4 12.7 1.10 4.37 49.0 18.868 2.3 17.9 14.0 1.14 4.60 55.8 6.968 2.8 18.3 14.4 1.15 4.66 57.7 9.368 3.2 18.6 14.7 1.15 4.74 58.8 11.568 3.5 18.7 14.7 1.16 4.72 59.6 13.268 3.7 18.8 14.8 1.16 4.75 60.0 14.568 4.1 19.0 15.0 1.16 4.80 60.7 17.168 4.2 19.0 15.0 1.16 4.80 60.8 17.877 2.3 19.6 15.6 1.18 4.87 63.4 6.677 2.8 20.0 15.9 1.19 4.92 65.6 9.077 3.2 20.3 16.2 1.19 5.00 66.8 11.177 3.5 20.5 16.4 1.20 5.01 67.6 12.877 3.7 20.6 16.5 1.20 5.03 68.1 14.077 4.1 20.7 16.6 1.20 5.05 68.9 16.677 4.2 20.7 16.6 1.20 5.05 69.1 17.286 2.3 21.2 17.1 1.21 5.13 71.1 6.486 2.8 21.6 17.4 1.22 5.19 73.5 8.786 3.2 21.9 17.7 1.22 5.26 74.9 10.786 3.5 22.1 17.9 1.23 5.26 75.7 12.486 3.7 22.1 17.9 1.23 5.26 76.3 13.686 4.1 22.3 18.1 1.23 5.31 77.1 16.186 4.2 22.3 18.1 1.23 5.31 77.3 16.8

26 WSHP-PRC013-EN




EWT GPM TotalMbtuh

SenMbtuh

SHR PowerkW

EER RejectMbtuh

LWT FeetHead

45 2.9 20.2 14.7 0.73 0.98 20.61 23.5 61.2 3.045 3.6 20.5 15.0 0.73 0.95 21.58 23.7 58.2 4.245 4.1 20.8 15.1 0.73 0.93 22.37 24.0 56.7 5.145 4.5 20.9 15.3 0.73 0.92 22.72 24.0 55.7 5.945 4.7 21.0 15.3 0.73 0.92 22.83 24.1 55.3 6.345 5.2 21.2 15.5 0.73 0.91 23.30 24.3 54.3 7.445 5.4 21.2 15.5 0.73 0.91 23.30 24.3 54.0 7.955 2.9 19.6 14.4 0.73 1.11 17.66 23.4 71.1 2.855 3.6 20.0 14.6 0.73 1.07 18.69 23.7 68.2 3.955 4.1 20.2 14.8 0.73 1.05 19.24 23.8 66.6 4.855 4.5 20.4 14.9 0.73 1.04 19.62 24.0 65.7 5.655 4.7 20.5 15.0 0.73 1.04 19.71 24.1 65.3 6.055 5.2 20.7 15.1 0.73 1.03 20.10 24.2 64.3 7.055 5.4 20.7 15.2 0.73 1.03 20.10 24.2 64.0 7.468 2.9 18.8 14.0 0.74 1.28 14.69 23.2 84.0 2.568 3.6 19.1 14.3 0.75 1.24 15.40 23.3 81.0 3.668 4.1 19.4 14.4 0.74 1.23 15.77 23.6 79.5 4.468 4.5 19.5 14.5 0.74 1.22 15.98 23.7 78.5 5.268 4.7 19.6 14.6 0.74 1.21 16.20 23.7 78.1 5.568 5.2 19.8 14.7 0.74 1.20 16.50 23.9 77.2 6.568 5.4 19.8 14.8 0.75 1.20 16.50 23.9 76.9 6.977 2.9 18.0 13.6 0.76 1.42 12.68 22.9 92.8 2.477 3.6 18.4 13.8 0.75 1.38 13.33 23.1 89.9 3.477 4.1 18.6 14.0 0.75 1.36 13.68 23.2 88.3 4.277 4.5 18.8 14.1 0.75 1.35 13.93 23.4 87.4 4.977 4.7 18.9 14.2 0.75 1.34 14.10 23.5 87.0 5.377 5.2 19.0 14.3 0.75 1.33 14.29 23.5 86.1 6.277 5.4 19.1 14.4 0.75 1.33 14.36 23.6 85.8 6.686 2.9 17.1 13.1 0.77 1.56 10.96 22.4 101.5 2.386 3.6 17.5 13.3 0.76 1.52 11.51 22.7 98.7 3.286 4.1 17.7 13.5 0.76 1.50 11.80 22.8 97.2 4.086 4.5 17.9 13.6 0.76 1.48 12.09 23.0 96.3 4.786 4.7 18.0 13.7 0.76 1.48 12.16 23.1 95.9 5.086 5.2 18.2 13.8 0.76 1.47 12.38 23.2 95.0 5.986 5.4 18.2 13.9 0.76 1.46 12.47 23.2 94.6 6.395 2.9 16.1 12.5 0.78 1.71 9.42 21.9 110.2 2.295 3.6 16.5 12.8 0.78 1.66 9.94 22.2 107.4 3.195 4.1 16.7 12.9 0.77 1.64 10.18 22.3 105.9 3.895 4.5 16.9 13.1 0.78 1.63 10.37 22.5 105.1 4.595 4.7 17.0 13.1 0.77 1.63 10.43 22.6 104.7 4.895 5.2 17.2 13.3 0.77 1.61 10.68 22.7 103.8 5.795 5.4 17.2 13.3 0.77 1.61 10.68 22.7 103.5 6.1105 2.9 14.9 11.8 0.79 1.88 7.93 21.3 119.8 2.1105 3.6 15.3 12.1 0.79 1.84 8.32 21.6 117.1 3.0105 4.1 15.6 12.2 0.78 1.82 8.57 21.8 115.7 3.7105 4.5 15.7 12.4 0.79 1.81 8.67 21.9 114.8 4.3105 4.7 15.8 12.4 0.78 1.80 8.78 21.9 114.4 4.6105 5.2 16.0 12.5 0.78 1.79 8.94 22.1 113.6 5.4105 5.4 16.0 12.6 0.79 1.78 8.99 22.1 113.2 5.8115 2.9 13.8 10.8 0.78 2.07 6.67 20.9 129.5 2.1115 3.6 14.2 11.1 0.78 2.03 7.00 21.1 126.9 2.9115 4.1 14.4 11.2 0.78 2.01 7.16 21.3 125.5 3.6115 4.5 14.6 11.4 0.78 1.99 7.34 21.4 124.6 4.1115 4.7 14.7 11.4 0.78 1.99 7.39 21.5 124.2 4.4115 5.2 14.8 11.6 0.78 1.98 7.47 21.6 123.4 5.2115 5.4 14.9 11.6 0.78 1.97 7.56 21.6 123.1 5.6120 2.9 13.4 10.1 0.75 2.17 6.18 20.8 134.5 2.1120 3.6 13.7 10.3 0.75 2.13 6.43 21.0 131.8 2.9120 4.1 14.0 10.5 0.75 2.11 6.64 21.2 130.5 3.5120 4.5 14.1 10.6 0.75 2.09 6.75 21.2 129.5 4.1120 4.7 14.2 10.7 0.75 2.09 6.79 21.3 129.2 4.4120 5.2 14.4 10.8 0.75 2.07 6.96 21.5 128.4 5.1120 5.4 14.4 10.9 0.76 2.07 6.96 21.5 128.0 5.5

WSHP-PRC013-EN 27





AbsorbMbtuh

PowerkW

COP LWT FeetHead

25 2.9 12.3 8.3 1.18 3.05 19.3 3.925 3.6 12.5 8.4 1.19 3.08 20.3 5.225 4.1 12.7 8.6 1.19 3.13 20.8 6.225 4.5 12.8 8.7 1.20 3.13 21.1 7.125 4.7 12.9 8.8 1.20 3.15 21.3 7.525 5.2 13.1 9.0 1.20 3.20 21.5 8.725 5.4 13.2 9.1 1.20 3.22 21.6 9.232 2.9 13.6 9.4 1.22 3.27 25.5 3.732 3.6 13.9 9.7 1.23 3.31 26.6 5.032 4.1 14.1 9.9 1.23 3.36 27.2 5.932 4.5 14.2 10.0 1.24 3.36 27.6 6.832 4.7 14.3 10.1 1.24 3.38 27.7 7.232 5.2 14.4 10.2 1.24 3.40 28.1 8.332 5.4 14.5 10.3 1.24 3.43 28.2 8.845 2.9 15.7 11.3 1.30 3.54 37.2 3.345 3.6 16.1 11.6 1.31 3.60 38.6 4.545 4.1 16.3 11.8 1.31 3.65 39.2 5.545 4.5 16.5 12.0 1.31 3.69 39.7 6.245 4.7 16.5 12.0 1.31 3.69 39.9 6.745 5.2 16.7 12.2 1.32 3.71 40.3 7.745 5.4 16.8 12.3 1.32 3.73 40.4 8.255 2.9 17.7 13.1 1.35 3.84 46.0 3.155 3.6 18.2 13.6 1.36 3.92 47.4 4.255 4.1 18.5 13.8 1.37 3.96 48.3 5.155 4.5 18.6 13.9 1.37 3.98 48.8 5.955 4.7 18.7 14.0 1.37 4.00 49.0 6.355 5.2 18.9 14.2 1.38 4.01 49.5 7.355 5.4 19.0 14.3 1.38 4.03 49.7 7.768 2.9 20.4 15.6 1.42 4.21 57.2 2.868 3.6 20.9 16.0 1.43 4.28 59.1 3.968 4.1 21.2 16.3 1.44 4.31 60.0 4.768 4.5 21.4 16.5 1.44 4.35 60.7 5.468 4.7 21.5 16.6 1.44 4.37 60.9 5.868 5.2 21.7 16.8 1.45 4.38 61.5 6.868 5.4 21.8 16.9 1.45 4.41 61.7 7.275 2.9 21.7 16.7 1.46 4.35 63.5 2.675 3.6 22.2 17.2 1.47 4.42 65.4 3.775 4.1 22.6 17.6 1.47 4.50 66.4 4.575 4.5 22.8 17.8 1.48 4.51 67.1 5.275 4.7 22.9 17.9 1.48 4.53 67.4 5.675 5.2 23.1 18.1 1.48 4.57 68.0 6.675 5.4 23.2 18.1 1.49 4.56 68.3 7.086 2.9 23.5 18.4 1.51 4.56 73.3 2.586 3.6 24.1 18.9 1.52 4.65 75.5 3.586 4.1 24.5 19.3 1.53 4.69 76.5 4.286 4.5 24.7 19.5 1.53 4.73 77.3 4.986 4.7 24.8 19.5 1.54 4.72 77.7 5.386 5.2 25.1 19.8 1.54 4.78 78.4 6.286 5.4 25.1 19.8 1.54 4.78 78.6 6.6

28 WSHP-PRC013-EN




EWT GPM TotalMbtuh

SenMbtuh

SHR PowerkW

EER RejectMbtuh

LWT FeetHead

45 3.9 28.7 19.4 0.68 1.47 19.52 33.7 62.3 6.145 4.8 29.1 19.7 0.68 1.43 20.35 34.0 59.2 8.345 5.4 29.3 19.9 0.68 1.41 20.78 34.1 57.6 10.045 6.0 29.5 20.0 0.68 1.40 21.07 34.3 56.4 11.945 6.3 29.6 20.0 0.68 1.39 21.29 34.3 55.9 12.845 6.9 29.8 20.1 0.67 1.38 21.59 34.5 55.0 14.645 7.2 29.8 20.1 0.67 1.37 21.75 34.5 54.6 15.655 3.9 28.2 19.2 0.68 1.63 17.30 33.8 72.3 5.755 4.8 28.7 19.5 0.68 1.59 18.05 34.1 69.2 7.855 5.4 28.9 19.6 0.68 1.57 18.41 34.3 67.7 9.455 6.0 29.1 19.7 0.68 1.55 18.77 34.4 66.5 11.155 6.3 29.2 19.8 0.68 1.55 18.84 34.5 66.0 12.055 6.9 29.3 19.9 0.68 1.53 19.15 34.5 65.0 13.855 7.2 29.4 19.9 0.68 1.53 19.22 34.6 64.6 14.768 3.9 26.9 18.5 0.69 1.85 14.54 33.2 85.1 5.368 4.8 27.4 18.8 0.69 1.81 15.14 33.6 82.0 7.268 5.4 27.6 19.0 0.69 1.78 15.51 33.7 80.5 8.768 6.0 27.8 19.1 0.69 1.77 15.71 33.8 79.3 10.468 6.3 27.9 19.1 0.68 1.76 15.85 33.9 78.8 11.268 6.9 28.0 19.2 0.69 1.75 16.00 34.0 77.9 12.968 7.2 28.1 19.2 0.68 1.74 16.15 34.0 77.5 13.877 3.9 25.7 18.0 0.70 1.99 12.91 32.5 93.7 5.077 4.8 26.2 18.3 0.70 1.95 13.44 32.9 90.7 6.977 5.4 26.4 18.4 0.70 1.93 13.68 33.0 89.3 8.377 6.0 26.6 18.5 0.70 1.92 13.85 33.2 88.1 9.977 6.3 26.7 18.6 0.70 1.91 13.98 33.2 87.6 10.777 6.9 26.8 18.7 0.70 1.89 14.18 33.3 86.7 12.477 7.2 26.9 18.7 0.70 1.89 14.23 33.4 86.3 13.286 3.9 24.4 17.4 0.71 2.14 11.40 31.7 102.3 4.886 4.8 24.9 17.7 0.71 2.10 11.86 32.1 99.4 6.686 5.4 25.1 17.9 0.71 2.08 12.07 32.2 98.0 8.086 6.0 25.3 18.0 0.71 2.07 12.22 32.4 96.8 9.686 6.3 25.3 18.0 0.71 2.06 12.28 32.3 96.3 10.486 6.9 25.5 18.1 0.71 2.05 12.44 32.5 95.5 12.086 7.2 25.5 18.1 0.71 2.04 12.50 32.5 95.1 12.895 3.9 23.0 16.8 0.73 2.29 10.04 30.8 110.9 4.795 4.8 23.4 17.1 0.73 2.25 10.40 31.1 108.0 6.495 5.4 23.6 17.2 0.73 2.23 10.58 31.2 106.6 7.795 6.0 23.8 17.3 0.73 2.21 10.77 31.3 105.5 9.395 6.3 23.9 17.4 0.73 2.21 10.81 31.4 105.0 10.195 6.9 24.1 17.4 0.72 2.20 10.95 31.6 104.2 11.795 7.2 24.1 17.5 0.73 2.19 11.00 31.6 103.8 12.5105 3.9 21.2 15.9 0.75 2.45 8.65 29.6 120.3 4.5105 4.8 21.7 16.2 0.75 2.41 9.00 29.9 117.6 6.1105 5.4 21.9 16.3 0.74 2.39 9.16 30.1 116.2 7.5105 6.0 22.1 16.4 0.74 2.38 9.29 30.2 115.1 9.0105 6.3 22.2 16.5 0.74 2.37 9.37 30.3 114.7 9.8105 6.9 22.3 16.5 0.74 2.36 9.45 30.4 113.9 11.4105 7.2 22.4 16.6 0.74 2.36 9.49 30.5 113.5 12.2115 3.9 19.3 14.8 0.77 2.60 7.42 28.2 129.6 4.3115 4.8 19.7 15.1 0.77 2.57 7.67 28.5 127.0 5.9115 5.4 19.9 15.2 0.76 2.55 7.80 28.6 125.7 7.3115 6.0 20.1 15.3 0.76 2.54 7.91 28.8 124.7 8.8115 6.3 20.2 15.4 0.76 2.53 7.98 28.8 124.2 9.6115 6.9 20.4 15.5 0.76 2.52 8.10 29.0 123.5 11.2115 7.2 20.4 15.5 0.76 2.52 8.10 29.0 123.1 12.0120 3.9 18.2 14.2 0.78 2.67 6.82 27.3 134.2 4.2120 4.8 18.6 14.5 0.78 2.64 7.05 27.6 131.6 5.8120 5.4 18.8 14.6 0.78 2.63 7.15 27.8 130.4 7.2120 6.0 19.0 14.7 0.77 2.62 7.25 27.9 129.4 8.7120 6.3 19.1 14.8 0.77 2.61 7.32 28.0 129.0 9.5120 6.9 19.3 14.8 0.77 2.60 7.42 28.2 128.3 11.1120 7.2 19.3 14.9 0.77 2.60 7.42 28.2 127.9 11.9

WSHP-PRC013-EN 29





AbsorbMbtuh

PowerkW

COP LWT FeetHead

25 3.9 16.2 10.9 1.55 3.06 19.4 7.925 4.8 16.8 11.4 1.57 3.14 20.3 10.525 5.4 17.1 11.7 1.58 3.17 20.7 12.525 6.0 17.4 12.0 1.58 3.23 21.0 14.625 6.3 17.5 12.1 1.59 3.22 21.2 15.625 6.9 17.8 12.4 1.59 3.28 21.4 17.725 7.2 17.9 12.4 1.60 3.28 21.6 18.732 3.9 18.6 13.0 1.65 3.30 25.3 7.432 4.8 19.2 13.5 1.66 3.39 26.4 10.032 5.4 19.5 13.8 1.67 3.42 26.9 11.832 6.0 19.8 14.1 1.68 3.45 27.3 13.832 6.3 19.9 14.2 1.68 3.47 27.5 14.832 6.9 20.2 14.4 1.69 3.50 27.8 16.832 7.2 20.3 14.5 1.69 3.52 28.0 17.845 3.9 23.2 16.9 1.84 3.69 36.3 6.745 4.8 23.7 17.4 1.85 3.75 37.8 9.045 5.4 24.0 17.7 1.86 3.78 38.4 10.845 6.0 24.3 17.9 1.87 3.81 39.0 12.645 6.3 24.5 18.1 1.87 3.84 39.3 13.545 6.9 24.7 18.3 1.88 3.85 39.7 15.445 7.2 24.8 18.4 1.89 3.84 39.9 16.355 3.9 26.6 19.9 1.95 4.00 44.8 6.255 4.8 27.2 20.5 1.97 4.05 46.5 8.455 5.4 27.5 20.7 1.98 4.07 47.3 10.055 6.0 27.8 21.0 1.99 4.09 48.0 11.855 6.3 27.9 21.1 1.99 4.11 48.3 12.755 6.9 28.2 21.4 2.00 4.13 48.8 14.568 3.9 30.7 23.6 2.08 4.32 55.9 5.768 4.8 31.2 24.1 2.09 4.37 57.9 7.768 5.4 31.6 24.4 2.10 4.41 59.0 9.368 6.0 31.8 24.6 2.11 4.42 59.8 10.968 6.3 32.0 24.8 2.11 4.44 60.1 11.868 6.9 32.2 25.0 2.12 4.45 60.7 13.568 7.2 32.3 25.1 2.12 4.46 61.0 14.375 3.9 32.6 25.3 2.15 4.44 62.0 5.575 4.8 33.1 25.7 2.16 4.49 64.3 7.475 5.4 33.4 26.0 2.17 4.51 65.3 8.975 6.0 33.7 26.3 2.18 4.53 66.2 10.575 6.3 33.9 26.5 2.18 4.56 66.6 11.475 6.9 34.1 26.6 2.19 4.56 67.3 13.075 7.2 34.2 26.7 2.19 4.58 67.6 13.886 3.9 35.2 27.6 2.23 4.62 71.8 5.286 4.8 35.7 28.1 2.24 4.67 74.2 7.086 5.4 36.0 28.3 2.25 4.69 75.5 8.486 6.0 36.3 28.6 2.26 4.71 76.4 10.086 6.3 36.5 28.8 2.26 4.73 76.8 10.886 6.9 36.7 29.0 2.27 4.74 77.6 12.486 7.2 36.8 29.1 2.27 4.75 77.9 13.2

30 WSHP-PRC013-EN




EWT GPM TotalMbtuh

SenMbtuh

SHR PowerkW

EER RejectMbtuh

LWT FeetHead

45 5.9 40.5 31.7 0.78 2.20 18.41 48.0 61.3 5.545 7.2 40.6 31.7 0.78 2.16 18.80 48.0 58.3 7.645 8.1 40.7 31.8 0.78 2.15 18.93 48.0 56.8 9.345 9.0 40.8 31.9 0.78 2.13 19.15 48.1 55.7 11.045 9.5 40.9 32.0 0.78 2.13 19.20 48.2 55.1 12.145 10.5 41.1 32.2 0.78 2.12 19.39 48.3 54.2 14.245 10.8 41.2 32.3 0.78 2.11 19.53 48.4 54.0 14.955 5.9 40.2 31.4 0.78 2.37 16.96 48.3 71.4 5.355 7.2 40.4 31.5 0.78 2.32 17.41 48.3 68.4 7.455 8.1 40.5 31.6 0.78 2.30 17.61 48.4 67.0 8.955 9.0 40.7 31.7 0.78 2.28 17.85 48.5 65.8 10.655 9.5 40.8 31.8 0.78 2.27 17.97 48.6 65.2 11.655 10.5 41.0 32.0 0.78 2.26 18.14 48.7 64.3 13.755 10.8 41.1 32.0 0.78 2.26 18.19 48.8 64.0 14.468 5.9 38.5 30.6 0.79 2.62 14.69 47.4 84.1 5.168 7.2 38.7 30.7 0.79 2.57 15.06 47.5 81.2 7.068 8.1 38.8 30.8 0.79 2.55 15.22 47.5 79.7 8.568 9.0 39.0 30.9 0.79 2.53 15.42 47.6 78.6 10.268 9.5 39.1 31.0 0.79 2.52 15.52 47.7 78.1 11.168 10.5 39.4 31.2 0.79 2.50 15.76 47.9 77.1 13.168 10.8 39.5 31.2 0.79 2.50 15.80 48.0 76.9 13.777 5.9 36.8 29.8 0.81 2.81 13.10 46.4 92.8 4.977 7.2 37.0 29.9 0.81 2.76 13.41 46.4 89.9 6.877 8.1 37.2 30.0 0.81 2.74 13.58 46.6 88.5 8.377 9.0 37.4 30.1 0.80 2.71 13.80 46.7 87.4 9.877 9.5 37.5 30.1 0.80 2.70 13.89 46.7 86.9 10.877 10.5 37.8 30.3 0.80 2.69 14.05 47.0 86.0 12.777 10.8 37.9 30.4 0.80 2.68 14.14 47.1 85.7 13.386 5.9 34.9 28.8 0.83 3.00 11.63 45.1 101.3 4.886 7.2 35.1 28.9 0.82 2.95 11.90 45.2 98.6 6.686 8.1 35.3 29.0 0.82 2.93 12.05 45.3 97.2 8.086 9.0 35.5 29.1 0.82 2.91 12.20 45.4 96.1 9.586 9.5 35.7 29.2 0.82 2.90 12.31 45.6 95.6 10.486 10.5 36.0 29.4 0.82 2.88 12.50 45.8 94.8 12.386 10.8 36.0 29.4 0.82 2.87 12.54 45.8 94.5 12.995 5.9 32.8 27.9 0.85 3.19 10.28 43.7 109.9 4.695 7.2 33.1 28.0 0.85 3.15 10.51 43.9 107.3 6.495 8.1 33.3 28.1 0.84 3.12 10.67 44.0 105.9 7.895 9.0 33.5 28.2 0.84 3.10 10.81 44.1 104.9 9.295 9.5 33.7 28.3 0.84 3.09 10.91 44.3 104.4 10.195 10.5 34.0 28.5 0.84 3.08 11.04 44.5 103.5 11.995 10.8 34.1 28.5 0.84 3.07 11.11 44.6 103.3 12.5105 5.9 30.4 27.1 0.89 3.40 8.94 42.0 119.3 4.4105 7.2 30.7 27.2 0.89 3.36 9.14 42.2 116.8 6.2105 8.1 30.9 27.3 0.88 3.34 9.25 42.3 115.5 7.5105 9.0 31.2 27.4 0.88 3.32 9.40 42.5 114.5 8.9105 9.5 31.3 27.5 0.88 3.31 9.46 42.6 114.0 9.8105 10.5 31.6 27.7 0.88 3.29 9.60 42.8 113.2 11.5105 10.8 31.7 27.7 0.87 3.29 9.64 42.9 113.0 12.0115 5.9 28.0 26.3 0.94 3.61 7.76 40.3 128.8 4.3115 7.2 28.2 26.4 0.94 3.58 7.88 40.4 126.3 6.0115 8.1 28.5 26.5 0.93 3.56 8.01 40.7 125.1 7.2115 9.0 28.7 26.6 0.93 3.54 8.11 40.8 124.2 8.6115 9.5 28.9 26.7 0.92 3.53 8.19 41.0 123.7 9.4115 10.5 29.2 26.9 0.92 3.51 8.32 41.2 122.9 11.1115 10.8 29.3 26.9 0.92 3.51 8.35 41.3 122.7 11.6120 5.9 26.7 25.8 0.97 3.72 7.18 39.4 133.5 4.2120 7.2 27.0 25.8 0.96 3.68 7.34 39.6 131.1 5.9120 8.1 27.2 25.9 0.95 3.66 7.43 39.7 129.9 7.1120 9.0 27.5 26.0 0.95 3.65 7.53 40.0 129.0 8.5120 9.5 27.7 26.1 0.94 3.64 7.61 40.1 128.5 9.3120 10.5 28.0 26.3 0.94 3.62 7.73 40.4 127.8 10.9120 10.8 28.1 26.4 0.94 3.62 7.76 40.5 127.6 11.4

WSHP-PRC013-EN 31





AbsorbMbtuh

PowerkW

COP LWT FeetHead

25 5.9 21.9 14.1 2.29 2.80 20.2 6.125 7.2 22.4 14.6 2.30 2.85 20.9 8.525 8.1 22.7 14.8 2.31 2.88 21.3 10.225 9.0 23.0 15.1 2.32 2.90 21.6 12.125 9.5 23.1 15.2 2.32 2.92 21.8 13.325 10.5 23.3 15.4 2.33 2.93 22.1 15.625 10.8 23.3 15.4 2.33 2.93 22.1 16.332 5.9 24.8 16.6 2.40 3.03 26.4 6.032 7.2 25.3 17.1 2.41 3.08 27.3 8.332 8.1 25.6 17.3 2.42 3.10 27.7 10.032 9.0 25.8 17.5 2.43 3.11 28.1 11.932 9.5 26.0 17.7 2.43 3.13 28.3 12.932 10.5 26.1 17.8 2.44 3.13 28.6 15.232 10.8 26.2 17.9 2.44 3.15 28.7 15.945 5.9 31.2 22.4 2.59 3.53 37.4 5.745 7.2 31.7 22.8 2.60 3.57 38.7 7.945 8.1 32.0 23.1 2.61 3.59 39.3 9.645 9.0 32.2 23.3 2.62 3.60 39.8 11.345 9.5 32.3 23.4 2.62 3.61 40.1 12.445 10.5 32.5 23.5 2.63 3.62 40.5 14.645 10.8 32.6 23.6 2.63 3.63 40.6 15.255 5.9 36.1 26.8 2.73 3.87 45.9 5.555 7.2 36.6 27.3 2.74 3.91 47.4 7.655 8.1 36.9 27.5 2.75 3.93 48.2 9.255 9.0 37.1 27.7 2.76 3.94 48.8 11.055 9.5 37.2 27.8 2.76 3.95 49.1 12.055 10.5 37.4 28.0 2.77 3.96 49.7 14.155 10.8 37.5 28.1 2.77 3.97 49.8 14.768 5.9 42.2 32.3 2.91 4.25 57.0 5.368 7.2 42.8 32.8 2.92 4.29 58.9 7.368 8.1 43.0 33.0 2.93 4.30 59.8 8.968 9.0 43.3 33.3 2.93 4.33 60.6 10.568 9.5 43.4 33.4 2.94 4.33 61.0 11.468 10.5 43.6 33.5 2.95 4.33 61.6 13.568 10.8 43.6 33.5 2.95 4.33 61.8 14.175 5.9 45.2 35.0 2.99 4.43 63.1 5.275 7.2 45.7 35.5 3.00 4.46 65.1 7.175 8.1 46.0 35.7 3.01 4.48 66.2 8.675 9.0 46.2 35.9 3.02 4.48 67.0 10.275 9.5 46.4 36.1 3.02 4.50 67.4 11.275 10.5 46.5 36.2 3.03 4.50 68.1 13.175 10.8 46.6 36.3 3.03 4.51 68.3 13.886 5.9 47.4 36.9 3.07 4.52 73.4 5.086 7.2 47.9 37.4 3.08 4.56 75.6 6.986 8.1 48.2 37.7 3.09 4.57 76.7 8.386 9.0 48.4 37.8 3.10 4.57 77.6 9.986 9.5 48.5 37.9 3.10 4.58 78.0 10.886 10.5 48.7 38.1 3.11 4.59 78.7 12.686 10.8 48.8 38.2 3.11 4.60 78.9 13.2

32 WSHP-PRC013-EN

Table P14: Correction Factors for Variation in Entering Air Temperature

Table P15: Correction Factors for Variation in Air Flow

CoolingEnteringAir WB F

CoolingCapacity

CoolingInputWatts

Sensible vs Entering Dry BulbMultipliers

HeatingEnteringAir DB F

HeatingCapacity

HeatingInputWatts65.6 70.6 75.6 80.6 85.6

49.4 0.722 0.893 * * * * * 53.0 1.067 0.82656.3 0.836 0.937 0.734 0.950 * * * 58.0 1.045 0.88460.3 0.903 0.963 0.566 0.797 1.019 1.230 * 63.0 1.022 0.94263.2 0.951 0.981 0.427 0.671 0.903 1.124 * 68.0 1.000 1.00066.2 1.000 1.000 - 0.526 0.769 1.000 1.218 73.0 0.978 1.05872.1 1.098 1.038 - - 0.473 0.724 0.960 78.0 0.956 1.11677.1 1.181 1.069 - - - 0.464 0.715 83.0 0.933 1.174

Model EnteringCFM

CoolingCapacity

SensibleCapacity

CoolingInputWatts

HeatingCapacity

HeatingInputWatts

GET 009 280 0.873 0.794 0.962 0.885 1.277GET 009 288 0.884 0.813 0.966 0.896 1.226GET 009 303 0.896 0.831 0.969 0.906 1.181GET 009 319 0.907 0.85 0.972 0.971 1.142GET 009 336 0.919 0.869 0.976 0.927 1.110GET 009 354 0.931 0.887 0.979 0.937 1.082GET 009 372 0.942 0.906 0.983 0.948 1.059GET 009 392 0.954 0.925 0.986 0.958 1.041GET 009 417 0.965 0.944 0.990 0.969 1.026GET 009 441 0.977 0.962 0.993 0.979 1.015GET 009 466 0.989 0.982 0.996 0.990 1.006GET 009 490 1.000 1.000 1.000 1.000 1.000

GET 012 376 0.954 0.925 0.986 0.958 1.041GET 012 400 0.965 0.944 0.990 0.969 1.026GET 012 423 0.977 0.962 0.993 0.979 1.015GET 012 447 0.989 0.982 0.996 0.990 1.006GET 012 470 1.000 1.000 1.000 1.000 1.000GET 012 494 1.012 1.019 1.003 1.010 0.995GET 012 519 1.023 1.037 1.006 1.021 0.992GET 012 545 1.035 1.056 1.010 1.031 0.989GET 012 560 1.046 1.075 1.013 1.042 0.987GET 012 475 0.942 0.906 0.983 0.948 1.059

GET 015 496 0.954 0.925 0.986 0.958 1.041GET 015 527 0.965 0.944 0.989 0.969 1.026GET 015 558 0.977 0.962 0.993 0.979 1.015GET 015 589 0.988 0.981 0.996 0.990 1.006GET 015 620 1.000 1.000 1.000 1.000 1.000GET 015 651 1.012 1.019 1.003 1.010 0.995GET 015 683 1.023 1.037 1.006 1.021 0.992GET 015 695 1.035 1.056 1.010 1.031 0.989GET 015 570 0.942 0.906 0.983 0.948 1.059

Performance DataCorrection Factors

WSHP-PRC013-EN 33

Performance DataCorrection Factors

Table P15: Correction Factors for Variation in Air Flow (continued)Model Entering

CFMCoolingCapacity

SensibleCapacity

CoolingInputWatts

HeatingCapacity

HeatingInputWatts

GET 018 584 0.954 0.925 0.986 0.958 1.041GET 018 621 0.965 0.944 0.989 0.969 1.026GET 018 657 0.977 0.962 0.993 0.979 1.015GET 018 694 0.989 0.981 0.996 0.990 1.006GET 018 730 1.000 1.000 1.000 1.000 1.000GET 018 766 1.012 1.019 1.003 1.010 0.995GET 018 800 1.023 1.037 1.006 1.021 0.992



34 WSHP-PRC013-EN

Performance DataBlower

Table F1: Blower External Static Pressure without Return Air Door (RAD), with filter

1 The NO "Ducted" option is for non-ducted (free return) units.2 Units specified as "non-ducted" (free return) are factory wired to low-speed.3 Units specified as "ducted" are factory wired to high-speed.

Table F2: Blower External Static Pressure with Return Air Door (RAD), with filter

1 The NO "Ducted" option is for non-ducted (free return) units.2 Units specified as "non-ducted" (free return) are factory wired to low-speed.3 Units specified as "ducted" are factory wired to high-speed.

Model No.

SpeedTap Ducted Min

CFMMaxCFM

External Static Pressure (in. of wg)0 0.05 0.1 0.15 0.2 0.25 0.3 0.35 0.4 0.45 0.5 0.55 0.6 0.65 0.7

GET009 High Yes 280 482 - 456 422 383 347 308 - - - - - - - - -GET009 Low Yes - - - 341 329 309 283 - - - - - - - - - -GET009 High No - - 350 - - - - - - - - - - - - - -GET009 Low No - - 285 - - - - - - - - - - - - - -GET012 High Yes 380 481 - - - 481 458 435 411 385 - - - - - - -GET012 Low Yes - - - 442 422 404 384 - - - - - - - - - -GET012 High No - - 492 - - - - - - - - - - - - - -GET012 Low No - - 402 - - - - - - - - - - - - - -GET015 High Yes 475 652 - - - - - 652 631 611 584 561 535 503 467 429 689GET015 Low Yes - - - 582 566 551 535 519 505 486 - - - - - - -GET015 High No - - 585 - - - - - - - - - - - - - -GET015 Low No - - 485 - - - - - - - - - - - - - -GET018 High Yes 570 800 - - - - - - - 799 772 747 723 693 664 632 603GET018 Low Yes - - - 648 642 628 613 596 580 - - - - - - - -GET018 High No - - 713 - - - - - - - - - - - - - -GET018 Low No - - 552 - - - - - - - - - - - - - -GET024 High Yes 760 974 - - - - 974 954 927 905 877 846 824 790 - - -GET024 Low Yes - - - 878 853 836 814 793 773 - - - - - - - -GET024 High No - - 987 - - - - - - - - - - - - - -GET024 Low No - - 807 - - - - - - - - - - - - - -GET036 High Yes 1135 1344 - - - - - - - - - - 1344 1313 1282 1255 1219GET036 Low Yes - - - 1271 1263 1253 1238 1230 1213 1196 1178 1155 - - - - -GET036 High No - - 1324 - - - - - - - - - - - - - -GET036 Low No - - 1229 - - - - - - - - - - - - - -

Model No. SpeedTap Ducted Min

CFMMaxCFM

External Static Pressure (in. of wg)0 0.05 0.1 0.15 0.2 0.25 0.3 0.35 0.4 0.45 0.5 0.55 0.6 0.65 0.7

GET009 High Yes 280 482 - 451 417 378 342 303 - - - - - - - - -GET009 Low Yes - - - 336 324 304 278 - - - - - - - - - -GET009 High No - - 345 - - - - - - - - - - - - - -GET009 Low No - - 280 - - - - - - - - - - - - - -GET012 High Yes 380 481 - - - 459 436 413 389 363 - - - - - - -GET012 Low Yes - - - 420 400 382 362 - - - - - - - - - -GET012 High No - - 470 - - - - - - - - - - - - - -GET012 Low No - - 380 - - - - - - - - - - - - -GET015 High Yes 475 652 - - - - - 642 621 601 574 551 525 493 457 419 679GET015 Low Yes - - - 572 556 541 525 509 495 476 - - - - - - -GET015 High No - - 575 - - - - - - - - - - - - - -GET015 Low No - - 475 - - - - - - - - - - - - - -GET018 High Yes 570 800 - - - - - - - 774 747 722 698 668 639 607 578GET018 Low Yes - - - 623 617 603 588 571 555 - - - - - - - -GET018 High No - - 690 - - - - - - - - - - - - - -GET018 Low No - - 524 - - - - - - - - - - - - - -GET024 High Yes 760 974 - - - - 927 907 880 858 830 799 777 743 - - -GET024 Low Yes - - - 831 806 789 767 746 726 - - - - - - - -GET024 High No - - 940 - - - - - - - - - - - - - -GET024 Low No - - 760 - - - - - - - - - - - - - -GET036 High Yes 1135 1344 - - - - - - - - - - 1250 1219 1188 1161 1125GET036 Low Yes - - - 1177 1169 1159 1144 1136 1119 1102 1084 1061 - - - - -GET036 High No - - 1280 - - - - - - - - - - - - - -GET036 Low No - - 1140 - - - - - - - - - - - - - -

WSHP-PRC013-EN 35

Table E1: Electrical Performance Model No. Oversized Blower Volts Total

FLAComp.RLA

Comp.LRA

BlowerMotorFLA

BlowerMotor

HP

MinimumCircuit

Ampacity

OvercurrentProtective

DeviceGET009 No 208/60/1 4.0 3.4 22.2 0.6 1/10 4.9 15GET009 No 220-240/50/1 3.6 3.1 18.8 0.5 1/10 4.4 15GET009 No 230/60/1 4.0 3.4 22.2 0.6 1/10 4.9 15GET009 No 265/60/1 3.6 3.1 18.8 0.5 1/10 4.4 15GET012 No 208/60/1 5.7 5.0 27.9 0.7 1/8 6.9 15GET012 No 220-240/50/1 4.9 4.3 22.2 0.6 1/8 6.0 15GET012 No 230/60/1 5.7 5.0 27.9 0.7 1/8 6.9 15GET012 No 265/60/1 4.9 4.3 22.2 0.6 1/8 6.0 15GET015 No 208/60/1 6.1 5.4 29.0 0.7 1/8 7.5 15GET015 No 220-240/50/1 5.4 4.8 27.0 0.6 1/8 6.6 15GET015 No 230/60/1 6.1 5.4 29.0 0.7 1/8 7.5 15GET015 No 265/60/1 5.4 4.8 27.0 0.6 1/8 6.6 15GET018 No 208/60/1 9.3 7.6 45.0 1.7 1/5 11.2 15GET018 No 220-240/50/1 7.4 6.3 32.0 1.1 1/5 9.0 15GET018 No 230/60/1 9.3 7.6 45.0 1.7 1/5 11.2 15GET018 No 265/60/1 7.4 6.3 32.0 1.1 1/5 9.0 15GET024 No 208/60/1 13.1 10.9 56.0 2.2 1/5 15.8 25GET024 No 220-240/50/1 11.7 9.9 55.0 1.8 1/5 14.2 20GET024 No 230/60/1 13.1 10.9 56.0 2.2 1/5 15.8 25GET024 No 265/60/1 11.7 9.9 55.0 1.8 1/5 14.2 20GET036 No 208/60/1 19.3 16.0 82.0 3.3 1/2 23.3 35GET036 No 220-240/50/1 16.4 13.6 64.0 2.8 1/2 19.8 30GET036 No 230/60/1 19.3 16.0 82.0 3.3 1/2 23.3 35GET036 No 265/60/1 16.4 13.6 64.0 2.8 1/2 19.8 30

Performance DataElectrical

36 WSHP-PRC013-EN

Performance DataAntifreeze Correction Factors

Table A1: Correction Factors for AntifreezeSolutions

Methanol

ItemConcentration by Volume

10% 20% 30% 40% 50%Cool

Capacity.9980 .9965 .9949 .9932 .9915

HeatCapacity

.9950 .9898 .9846 .9794 .9742

PressureDrop

1.023 1.057 1.091 1.122 1.160

Ethylene GlycolCool

Capacity.9955 .9912 .9870 .9830 .9790

HeatCapacity

.9925 .9848 .9770 .9690 .9610

PressureDrop

1.024 1.068 1.124 1.188 1.263

Propylene GlycolCool

Capacity.9934 .9869 .9804 .9739 .9681

HeatCapacity

.9863 .9732 .9603 .9477 .9350

PressureDrop

1.040 1.098 1.174 1.273 1.405

Example 1 (Ethylene Glycol):The antifreeze solution is 20% by volume of Ethylene Glycol. Determine the corrected cooling capacity and waterside pressure drop for a GET 009 when the EWT is 86 F and the GPM is 2.3.

From the catalog data, the cooling capacity at these conditions with 100% water is 8.5 MBTUH, and the waterside pressure drop is 9.1 feet of head. At 20% Ethylene Glycol, the correction factor for cool capaci-ty is 0.9912 and the pressure drop is 1.068.

The corrected cooling capacity (MBTUH) = 8.50* 0.9912 = 8.43. The corrected water side pressure drop (Ft. head) = 9.1 * 1.068 = 9.72.

Example 2 (Propylene Glycol):The antifreeze solution is 30% by volume of Propy-lene Glycol. Determine the corrected heating capacity and waterside pressure drop for a GET 009 when the EWT is 45 F and the GPM is 2.3.

From the catalog data, the heating capacity at these conditions with 100% water is 8.3 MBTUH, and the waterside pressure drop is 11.1 feet of head. At 30% Propylene Glycol, the correction factor for heat capacity is 0.9603 and the pressure drop is 1.174.

The corrected heating capacity (MBTUH) = 8.3 * 0.9603 = 7.97. The corrected water side pressure drop (Ft. head) = 11.1 * 1.174 = 13.03.

WSHP-PRC013-EN 37

60

59

58

57

56

55

54

53

52

51

50

49

46

48

47

45

44

41

43

42

40

39

38

37

36

35

34

33

32

31

30

29

19

24

28

27

26

25

23

22

21

20

18

17

16

15

14

13

12

11

10

8

9

7

6

5

2

4

3

1WARNING AVERTISSEMENT

IMPORTANT

3B1

R/T3

S/T22B1

C/T1

L1 L2

Y

W

O

G

R

B

6A,B 6A

B 5A

4A

1D

8A

9B(Y)

9A A,B(Y)

2C

(G)

1F

1C

(O)2E1E

(R)

1K3

E

F,G

D,E

16A(BL)

15A

19A

19A 20A

20B

27A 28A 29A

B

29B

29A,B

B

AREA LOCATION

DEVICE PREFIX LOCATION CODE

1 CONTROL PANEL

2 COMPRESSOR

3 BLOWER MOTOR

4 UNIT MTD

CUSTOMER PROVIDED5

1T1

1K1

1K4

1K3

1T1 TRANSFORMER 24V

LOCKOUT RELAY

BLOWER MOTOR RELAY

COMPRESSOR CONTACTOR

2B1 COMPRESSOR MOTOR

4S3

4S1

4L1

3B1C2

3B1 BLOWER MOTOR

BLOWER MOTOR CAPACITOR

REVERSING VALVE

FREEZE PROTECTION SWITCH

HIGH PRESSURE SWITCH

15C

SINGLESTAGEROOMT'STAT

ADD JUMPERBETWEENY & W.

5

C1C2

1K3

2D

CONTACT. ANCONTACTS

SOLID LINES

SHOWN AT 25° C (77° F), AT ATMOSPHERIC

WIRING BY OTHERS. DASHED LINE ENCLOSURES

COMPONENTS PROVIDED BY THE FIELD. PHANTOM

PRESSURE, AT 50% RELATIVE HUMIDITY, WITHNORMAL SHUTDOWN HAS OCCURRED.

UNLESS OTHERWISE NOTED, ALL SWITCHES ARE

DASHED LINES INDICATE RECOMMENDED FIELD

AND/OR DASHED DEVICE OUTLINES INDICATE

LINE ENCLOSURES INDICATE ALTERNATE

INDICATE WIRING BY TRANE CO.

NUMBERS ALONG THE RIGHT SIDE OF THE

BY LINE NUMBER. AN UNDERLINED

AN OPEN ARROWHEAD BELOW THECONTACT WHICH BEGINS TIMING WHEN

3

2

1

SCHEMATIC DESIGNATE THE LOCATION OF

NUMBER INDICATES A NORMALLY CLOSED LINE NUMBER POINTING UPWARD INDICATES A

ENERGIZED.TIMED

ALL UTILITIES TURNED OFF, AND AFTER A

CIRCUITRY OR AVAILABLE SALES OPTIONS.

NOTES:

DEATH.SEVERE PERSONAL INJURY ORBEFORE SERVICING CAN CAUSEFAILURE TO DISCONNECT POWER

BEFORE SERVICING.INCLUDING REMOTE DISCONNECTSDISCONNECT ALL ELECTRIC POWER

OU LA MORT.BLESSURES CORPORELLES SEVERESL'ENTRETIEN PEUT ENTRAINER DESELECTRIQUE AVANT D'EFFECTUERFAUTE DE DECONNECTER LA SOURCEAVANT D'EFFECTUER L'ENTRETIEN.DISJONCTEURS SITUES A DISTANCEELECTRIQUES INCLUANT LESDECONNECTEZ TOUTES LES SOURCES

VOLTAGE HASARDEUX!HAZARDOUS VOLTAGE!

UNIT TERMINALS ARE NOT DESIGNED TO ACCEPT ANY OTHER WIRING.USE COPPER CONDUCTORS ONLY TO PREVENT EQUIPMENT DAMAGE.

22A

1PB1

COMPRESSOR CAPACITOR2B1C1

LEGEND

DESCRIPTIONDESIGNATION

DEVICE

D

2 C,D1C,D

2B1C1

2A

10A10B

1K10 RELAY, RANDOM START (OPT)

1K11 RELAY, NIGHT SETBACK (OPT)1S1 RELAY, TIME DELAY (OPTIONAL)

31

1K4

1K4

2 4

1K1

1K1

L1 T1

C1 C2

E E

15B

1S2 DISCONNECT SWITCH

1FU1 FUSE BLOCK

1TB2 TERMINAL BOARD

2F

C

6

LINENUMBER

6,7,8

11,13,32

30,31

17,27

25,26

25

32

3,4,5

2,19

23

11

11

18

17

36

31

31

2X

1X

20C

1PB11PB1 POWER BLOCKPOWER BLOCK

(BK)INSET "B"

TRANSFORMER SHOWN IS WIRED FOR 230V, RED LEAD IS FOR 208V.

OPTIONAL DISCONNECT SWITCH.

OPTIONAL DISCONNECT SWITCH AND FUSE BLOCK.

1T1

265V

RED (LO)

RED (LO)

RED (LO)

HORIZONTAL DISCHARGE

009-013

SIZE

019

026

1S2

1FU1

**2B

2A1A

1B

1F 10A CAP

BK (HI)

BK (HI)

BK (HI)

BL (MED)

BL (MED)

NONE

TOP DISCHARGE

RED (LO)

RED (LO)

RED (LO)

019

026

SIZE

009-013

1F

BL (MED)

BL (MED)

BL (MED)

BK (HI)

BK

BK (HI)

10A CAP

3F

(W)

(BR)

3B1(G)

INSET "C"

FAN SPEED WIRING

208/230 WPRD SIZE 009

1S1

1K11 1K10

1TB2

N

N77A

78A

1K11

15D 16G

C2C1

1K10

SEE INSET "B" FOR 265V TRANSFORMER.

1 3

3B1C2

1K1

4L1

4S3 4S1

4

4

7

8

4

8

7

5

6

6

6 5

3B1C2

5

6

5

6

6

J1-1 P1-1

J1-5 P1-5

J2-3 P2-3

J2-2 P2-2

J2-1 P2-1

J1-4

P1-4

J1-2

P1-2J1-6 P1-6

J1-3 P1-3

Control WiringRetrofit WPRD

38 WSHP-PRC013-EN

Control WiringDeluxe

WSHP-PRC013-EN 39

Control WiringZN510

40 WSHP-PRC013-EN

Dimensional DataUnit Cabinet/Riser

SWAGE 3" (76)

G

G

H

J

UN

ITS

WIT

H T

OP

DIS

CH

AR

GE

AR

E 8

0" (

2032

) IN

HE

IGH

TA

LL O

TH

ER

UN

ITS

AR

E 8

8" (

2235

) IN

HE

IGH

T

FR

OM

96"

(24

38)

TO

120

" (3

048)

2 1/

2" (

63.5

)

EF

DRAIN CONNECTION

D

4 3/4"(121)

60"

(152

4)

3/4" (19) O.D.

CHASSISACCESSPANEL

THROWAWAYFILTER

CONTROL BOX

C

LOW VOLTAGECONNECTION BOXFOR THERMOSTAT

SUPPLY-AIROPENING

1 1/

4" (

32)

1/2" (12.7) O.D.ELECTRIC CONDUIT

1" (25.4)1"

(25.

4)

B

A

1" (

25.4

)

3 3/

4"(9

5)

8" (

203)

12 1

/2"

(318

)

3 3/4"(95)

8" (203)

12 1/2"(318)

RETURN

SUPPLY

DRAIN

OPTIONALDUCT OPENING1" (12.7) DUCT

COLLAR

R S DVARIES DEPENDENTON RISER O.D.

TOP

FRONT RIGHT SIDE

11" (279) FOR 80" (2032) CABINET HEIGHT3" (76) FOR 88" (2235) CABINET HEIGHT

SUPPLY-AIR OPENINGS AND RISER LOCATIONS CANNOTBE ON THE SAME SIDE OF THE UNIT.

RISER LOCATION CAN BE ON ANY SIDE EXCEPT FRONT, AND MAY BE SUPPLIED BY TRANE OR BY OTHERS.

NOTE:RIGHT RISERLOCATION SHOWNIN FRONT AND RIGHTVIEWS.

RISER CONNECTION1/2” (13) NPTE = 009-0183/4” (19) NPTE = 024,036

GET A B C D E F

009, 012 16 1/4" (413) 16 1/4" (413) 8 1/8" (206) 39 1/8" (994) 14 3/4" (375) 3/4" (19)

015-018 18" (457) 20" (508) 10" (254) 40 5/8" (1032) 18 3/4" (476) 3/4" (19)

024-036 24" (610) 24" (610) 12" (305) 49 5/8" (1260) 22 5/8" (575) 3/4" (19

WSHP-PRC013-EN 41

A

12 1/2"(318)

1 1/

4"(3

2)

8"(203)

3 3/4"(95) B

NRUTERYLPPUS NIARD

1/2" (12.7) O.D.FACTORYELECTRIC CONDUIT

D

60"(1524)

4 3/

4"(1

21)

C

LOW VOLTAGECONNECTION BOXFOR UNIT MTDTHERMOSTAT

WATER OUT

1/2" (13) NPTI = GET 009-0183/4" (19) NPTI = GET 024-036

TOP

DIS

CH

AR

GE

UN

ITS

= 8

0" (

2032

)FR

ON

T, S

IDE

, CO

MB

INA

TIO

N =

88"

(22

35)

E

K

J

H

F G

7/8" (22 mm) O.D.FOR FIELD ELECTRIC

CONDUIT

NOTE: REAR RISERLOCATION SHOWN.

1"(24.4)

Dimensional DataUnit Cabinet/Riser

Unit

SizeA B C D E F G H J K

009-012 16 1/4" (413)

16 1/4" (413)

8 1/8" (206)

43 7/8" (1114)

32 1/2" (826)

13 5/8"(346)

14" (356)

16 3/8"(416)

4 3/8"(111)

6 3/4"(171)

015-018 18" (457)

20" (508)

10" (254)

45 3/8" (1153)

34 7/8" (886)

17 3/8" (441)

16 1/8" (410)

18 1/2"(470)

5 3/4"(146)

4 3/4"(121)

024-036 24" (610)

24" (610)

12" (305)

54 3/8" (1381)

41" (1041)

21 3/8" (543)

22" (559)

19 3/4"(502)

4"(102)

6"(152)

42 WSHP-PRC013-EN

Dimensional DataRetrofit Chassis

Unit Size A B C D E F

009-012 30 3/8" (772)

13 5/8" (346)

16 3/8" (416) 14" (356) 3 1/2"

(89)4 7/8"(124)

015-018 32 7/8 (835)

17 3/8" (441)

18 1/2" (470)

16 1/8" (410)

5 7/8"(147)

2 7/8" (73)

Note:A retrofit filter-connecting panel is supplied for the retrofit chassis. The panel and filter are shipped separate from the chassis.

WSHP-PRC013-EN 43

Dimensional DataWater Flow Control

Factory InstalledThe factory installed water flow control option is hard piped to the copper or cu-pro-nickel water coil. The selection is available in a high or low flow option. An isolation valve and strainer are standard when the factory flow device is selected.

Two foot hose and ball valves are recommended for these units. The hoses and ball valves are optional and can be selected with the chassis portion of the order, or can be field provided. These items are shipped separate from the chassis.

Table 3: Factory hose kit flow options

Note: Not available on retrofit chassis.

Unit SizeLow Flow

Digit 9 = 3,4High Flow

Digit 9 = 5,6

006 1.0 GPM 1.5 GPM

009 1.5 GPM 2.0 GPM

012 2.0 GPM 2.5 GPM

015 2.5 GPM 3.5 GPM

018 3.0 GPM 4.0 GPM

024 4.0 GPM 6.0 GPM

036 6.0 GPM 8.0 GPM

44 WSHP-PRC013-EN

Dimensional DataRiser to Unit Connection

Note:This page may be used in riser schedule preparation for field installed risers.

Factory installed risers are only available as shown in Figure A.

Modification to the factory riser may be required in the field to fit the contractor’s ris-er schedule.

Riser location and appropri-ate hose length for ease of service is an important factor during unit installation. Rec-ommended hose length per riser location includes:

• 2’ hose = All riser locations.

Trapping the main conden-sate riser is recommended. The unit condensate line is not trapped internal to the equipment.

Figure A

WSHP-PRC013-EN 45

FIELD CUT SUPPLY-AIR

TOP SUPPLY-AIR009, 012 = 14" X 10"015-024 = 16" X 14"

036 = 17" x 17"

FRONT SUPPLY-AIR009, 012 = 14"W X 14"H015, 018 = 16"W X 12"H

024 = 22”W x 18”H036 = Not Recommended

R

S

D

R

S

D

R S D

R

S

D

R

S

D

R S D

R

S

D

R

S

D

R S D

DIGIT 15 - 0

DIGIT 15 - T DIGIT 15 - F

BACK/RIGHT SUPPLY-AIR009,012 = 10"W X 6"H

015-024 = 14"W X 12"H036 = 16"W X 14" H

BACK SUPPLY-AIR009, 012 = 14"W X 14"H015, 018 = 16"W X 12"H


R

S

D

R

S

D

DIGIT 15 - B

R

S

D

DIGIT 15 - 7

BACK/FRONT/RIGHT SUPPLY-AIR009,012 = Not Recommended

015-024 = 12"W X 8"H036 = 14"W X 12" H

R

S

D DIGIT 15 - 3

LEFT/RIGHT SUPPLY-AIR009,012 = 10"W X 6"H

015-024 = 14"W X 12"H036 = 16"W X 14" H

R S D

DIGIT 15 - 6

FRONT/RIGHT/LEFT SUPPLY-AIR009,012 = Not Recommended

015-024 = 12"W X 8"H036 = 14"W X 12" H

R S D

DIGIT 15 - 9

BACK/LEFT SUPPLY-AIR009,012 = 10"W X 6"H

015-024 = 14"W X 12"H036 = 16"W X 14" H

R

S

D

DIGIT 15 - 2

BACK/FRONT/LEFT SUPPLY-AIR009,012 = Not Recommended

015-024 = 12"W X 8"H036 = 14"W X 12" H

R

S

D

DIGIT 15 - 8

R

S

D

R S D

DIGIT 15 - 4

FRONT/BACK SUPPLY-AIR009,012 = 10"W X 6"H

015-024 = 14"W X 12"H036 = 16"W X 14" H

FRONT/LEFT SUPPLY-AIR009,012 = 10"W X 6"H

015-024 = 14"W X 12"H036 = 16"W X 14" H

FRONT/RIGHT SUPPLY-AIR009,012 = 10"W X 6"H

015-024 = 14"W X 12"H036 = 16"W X 14" H

R

S

D

R

S

D

DIGIT 15 - 1

LEFT SUPPLY-AIR009, 012 = 14"W X 14"H015, 018 = 16"W X 12"H


R

S

D

R S D

DIGIT 15 - L

R

S

D

R S D

DIGIT 15 - 5

RIGHT SUPPLY-AIR009, 012 = 14"W X 14"H015, 018 = 16"W X 12"H


R

S

D

R S D

DIGIT 21 - R

Dimensional DataSupply-Air Arrangements

46 WSHP-PRC013-EN

Dimensional DataRiser Extensions

Riser Extensions are field pro-vided and installed.

Note: Riser expansion mustbe considered when calculatingtotal riser length.

WSHP-PRC013-EN 47

Dimensional DataHinged Acoustical Door

RETURN-AIR OPENINGFLANGE ON CABINET

RETURN-AIR OPENINGFLANGE ON CABINET

2 X 4 STUD

A

B

Unit Size

09012

015018

024036

A

19 1/4”(489)

23 1/4”(591)

27 1/8”(689)

B

44 1/8”(1121)

45 1/4”(1149)

54 5/8”(1387)

SHEET ROCKOPENING

TOP VIEW

SIDE VIEW

CABINET

5“

B

4 5/8“2 1/4“

3 1/2” ±3/8”

3 1/2” ±3/8”

1 1/2” X 2 3/8”

FLOOR

SHEETROCK

SHEETROCK

RETURN AIRDOOR FRAME

RETURN AIRDOOR FRAME

1“ X 1” CLOSEDCELL INSULATION


3 1/2” ±3/8”

1 1/

4”+1

/2”/-

0”1

1/4”

+1/2

”/-0”

A



2“ X 4” STUD

2“ X 4” STUD

RETURN AIR OPENINGFLANGE ON CABINET

RETURN AIR OPENINGFLANGE ON CABINET

SHEETROCK

SHEETROCK

RET

UR

N A

IRD

OO

R F

LAN

GE

CAB

INET

CABINET

Note:Finished wall and framing should nottouch the unit cabinetry.

Return Air (hinged) Acoustical DoorThe hinged accoustical door is re-cessed into the wall so that the door is flush with the surface of the wall.

The opening through the wall for the door assembly must be centered with the return-air opening of the unit cabi-net. For full installing instructions of the return-air acoustical door, see WSHP-SVN08_-EN.

The dimensional data shown is based on Trane’s factory supplied return air door.

48 WSHP-PRC013-EN

SINGLE DEFLECTION GRILLE

BLADES ARE ADJUSTABLE FOR CONTROLLINGHORIZONTAL DISCHARGE PATH.

DOUBLE DEFLECTION GRILLE

BLADES ARE ADJUSTABLE FOR CONTROLLINGDISCHARGE PATH IN BOTH HORIZONTAL ANDVERTICAL PATHS.

GETB

009012015018024036

SINGLE GRILLE100% CFM

14"W X 14"H14"W X 14"H16"W X 12"H16"W X 12"H22"W X 18"H

Not Recommended

TWO GRILLE50%CFM

10"W X 6"H10"W X 6"H

14"W X 12"H14"W X 12"H14"W X 12"H16"W X 14"H

THREE GRILLE33%CFM

Not RecommendedNot Recommended

12"W X 8"H12"W X 8"H12"W X 8"H14"W X 12"H

TOP DISCHARGEUP TO 100%

CFM

14" X 10"14" X 10"16" X 14"16" X 14"16" X 14"17" X 17"

Dimensional DataSupply-Air Grilles

WSHP-PRC013-EN 49

Thermostat/Sensor LocationThe location of the thermostat or zone sensor is on the front of the unit. The thermostat, when ordered with the unit, is supplied with a wire harness and plug connector to facilitate thermostat connection easily during the installing phase. No wiring between the thermostat and the unit for field connection is needed.

Thermostats/Zone Sensors

Thermostat/Sensor Part Number/Description Description

4479 4081 0100Includes:

X13511039010 - thermostatX19051515010 - 10" wire harness

4479 4081 0200Includes:


Manual Changeover Digital Stat

• 2-stage heat/1-stage cool• System switching includes

HEAT-OFF-COOL• Fan switching includes ON-AUTO• Non programmable

4479 4082 0100Includes:


4479 4082 0200Includes:


Auto/Manual Changeover Digital Stat

• 1-stage heat/1-stage cool • System switching includes

HEAT-OFF-COOL-AUTO• Fan switching includes ON-AUTO• Non Programmable

4479 4373 0100Includes:


4479 4373 0200Includes:


Auto/Manual Changeover Digital Stat


HEAT-OFF-COOL-AUTO• Fan switching includes ON-AUTO• 7-Day Programmable• Adjustable 1-15° night setback

4479 4079 0100Includes:


4479 4079 0200Includes:


Manual Changeover Digital Stat


HEAT-OFF-COOL• Fan switching includes ON-AUTO• 5-Day Programmable• Adjustable 1-15° night setback

Accessories

50 WSHP-PRC013-EN

Thermostat/Sensor Part Number Description

447940900100Includes:

X13510628010 - sensorX19051511010 - Wire harness

Zone Sensor

• ZN510 compatible• Internal setpoint adjustment

wheel• Communication jack

447940910100Includes:


Zone Sensor

• Tracer ZN510 compatible• External setpoint adjustment

wheel• Communication jack

447940920100Includes:


Zone Sensor

• ZN510 compatible• External setpoint adjustment

wheel• Communication jack• ON and CANCEL buttons

447940930100Includes:


Zone Sensor

• ZN510 compatible• External setpoint adjustment

wheel• Communication jack• ON and CANCEL buttons• Fan switch AUTO-OFF

447940940100Includes:


Zone Sensor

• ZN510 compatible• Internal setpoint adjustment

wheel• Communication jack• ON and CANCEL buttons

X13790464010 - sensor Digital Zone Sensor

• ZN510 compatible• External setpoint • Communication jack• ON and CANCEL buttons

Accessories

WSHP-PRC013-EN 51

Hose KitsTrane provides two hose kit selections for equipment balancing.

• Manual ball valve(ordered with unit)

• Manual ball valve with P/T ports (ordered with unit)

Each selection provides some accura-cy in equipment balancing. Range of accuracy consist of ±25% for the man-ual ball valve method flow control method.

Utilizing the manual ball valve meth-od, the pressure/temperature (P/T ports) on the leaving and entering side of the heat pump is measured to deter-mine flow. The ball valve is then throt-tled to change the amount of flow to the unit to reach the desired tempera-ture or pressure differential.

Tracer Loop ControllerTrane’s Tracer Loop Controller (TLC) is a cost effective way of controlling the WSHP equipment, as well as the me-chanical components of the system. Fluid coolers, boilers, pumps and wa-ter-source heat pump units can be connected and controlled by the loop controller for total system optimiza-tion. See Figure 11.

Figure 11: Tracer loop control panel

The Tracer loop control panel has the ability to lower or raise the water loop temperature during low energy use hours (typically during the night time hours) to provide a greater optimiza-tion during the time of day where en-ergy consumption may be at it’s greatest. Using the loop controller as a means of coordinating cooling or heating storage, the building owner can expect better efficiencies from the WSHP equipment.

Accessories

52 WSHP-PRC013-EN

GeneralEquipment is completely assembled, piped, internally wired and test operat-ed at the factory. The equipment contains an ETL listing and label prior to leaving the factory. Canadian units are CETL certified. Ser-vice and caution area labels are placed on the unit in their appropriate loca-tions.

CasingThe cabinet assembly is constructed of heavy-gauge galvanized steel. It houses the blower, fan and control hook-up to the unit thermostat. A basepan with condensate hose is in-cluded with the cabinet design. Base rails allow ease of chassis installation/removal for service or maintenance.

The chassis is constructed of heavy-gauge galvanized steel. The chassis houses the compressor, reversing valve, water-to-refrigerant heat ex-changer, air-to-refrigerant heat ex-changer, thermal expansion valve, corrosive resistant condensate pan, and water inlet/outlet connections. The chassis is installed into the cabinet by sliding it in place on the locating rails within the cabinet design.

The insulation contains a flame spread rating of less than 25 and smoke den-sity rating of less than 50 (as tested in accordance with ASTM-85). The elas-tomeric insulation has a UL 94-5V rat-ing. All insulation edges are either captured or sealed.

Sound AttenuationSound attenuation is applied as a stan-dard feature in the product design. The enhanced reduction package includes a heavy gage base plate, and gasket/insulation around the compressor en-closure.

An optional deluxe sound reduction package is also available. It includes a heavy gage base plate, gasket and in-sulation around the compressor enclo-sure, and vibration isolation between the chassis and cabinet. An additional dampening treatment is applied

around the compressor enclosure to achieve greater acoustical reductions.

FiltersOne inch, throwaway filters are stan-dard and factory installed. The filters have an average resistance of 76-per-cent and dust holding capacity of 26-grams per square foot.

CompressorsAll units have direct-drive, hermetic, rotary (unit sizes 009-018) and recipro-cating (unit sizes 024 and 036) type compressors. The compressor con-tains rubber isolation to aid in noise reduction during compressor start/stop.

Internal thermal overload protection and compressor anti-short cycle tim-ers are also provided. Protection against excessive discharge pressure is provided by means of a high pres-sure switch. Loss of charge protection is provided by a low temperature sen-sor.

Refrigerant CircuitsThe refrigerant circuit contains a ther-mal expansion device, service pres-sure ports, and system safety devices factory-installed as standard.

Air-to-Refrigerant CoilInternally finned, 3/8-inch copper tubes mechanically bonded to a con-figured aluminum plate fin are stan-dard. Coils are leak tested at the factory to ensure the pressure integri-ty. The coil is leak tested to 200 psig and pressure tested to 450 psig.

Drain PanThe condensate pan is constructed of corrosive resistant material. The bot-tom of the drain pan is sloped in two planes to pitch the condensate to-wards the drain connection. Conden-sate is piped to a lower base pan through condensate hose for ease of chassis removal. A clear drain hose is factory clamped onto the drain con-nection for field hook-up.

Water-to-Refrigerant Heat ExchangerThe water-to-refrigerant heat ex-changer is of a high quality co-axial coil for maximum heat transfer. The copper or optional cupro-nickel coil is deeply fluted to enhance heat transfer and minimize fouling and scaling. The coil has a working pressure of 400 psig on both the refrigerant and water sides.

Indoor FanThe blower is a double width, double inlet (DWDI) forward curved wheel supported by a PSC fractional horse-power motor. The blower/motor as-sembly is designed for efficient and quiet operation. The motor is multiple speed, and wired for a HIGH or LOW setting. Service or maintenance to the blower/motor is easily achieved by re-moval of a single bracket.

RisersFactory supply, return, and drain risers are a Type L or M copper. Swages from one diameter to another are per-formed as specified by the engineer in the field. Diameters and length are specified by the equipment model number. Riser insulation (optional) contains a flame rating per UL94-5V with flame spread rate of no more than 25.

ControlsThe unit control box contains all nec-essary devices to allow heating and cooling operation to occur from a unit mounted, plug-in thermostat or sen-sor. The devices are as follows:

• 24 VAC energy limiting class II 75 VA breaker type transformer. The retrofit unit for WPRD contains a 50 VA transformer

• 24 VAC blower motor relay

• 24 VAC compressor contactor for compressor control

Mechanical Specifications

WSHP-PRC013-EN 53

• Lockout relay which controls cy-cling of the compressor is provid-ed to protect the compressor during adverse operating condi-tions. The device may be reset by interrupting the 24 VAC control cir-cuit. Reset may be done either at the thermostat or by momentary main power interruption.

• A high pressure switch protects the compressor against operation at refrigerant system pressures ex-ceeding 395 psig.

• A low pressure temperature sensor prevents the compressor opera-tion at leaving water temperatures below 20º F.

• Factory installed wire harness is available for the Deluxe and ZN510 control packages. Basic controls are provided for retrofit applica-tions.

• Power connections are made through a factory installed conduit located at the top of the unit’s cab-inet. An optional disconnect is pro-vided. The conduit grants access directly to the control box.

Nameplate information is given for the application of either time-delay fuses or HACR circuit breakers for branch circuit protection from the primary source of power.

Single phase, single voltage rated equipment is designed to operate be-tween plus or minus 10 percent of nameplate utilization voltage.

Operation outside of this range may adversely effect the service life of the equipment.

Deluxe Controls (option)The deluxe control package provides a 75 VA transformer with circuit breaker. The controller is a micro-processor based controller designed to include a lockout relay, anti-short cycle com-pressor protection, random start de-lay, brown-out protection, low pressure time delay, compressor de-lay on start and an open relay for night setback or pump request. Optional wiring from the factory for night set-back, condensate overflow and com-pressor enable are also supplied. LEDs (light emitting diodes) are included for diagnostics of the equipment. The de-luxe controller accepts either a stan-dard 24V digital or mercury thermostat.

ZN510 Controller (option)This system utilizes factory furnished and mounted DDC controls for opera-tion on a COMM 5 (LonMark) link. The TracerTM ZN510 control package in-cludes a 75 VA transformer. The con-troller provides random start delay, heating/cooling status, occupied/un-occupied mode, fan status and filter maintenance options. Optional wiring from the factory for condensate over-flow is also available. Three LEDs (light emitting diodes) are included for diagnostics of the equipment.

Return-Air Hinged Acoustical Door (option)A frame mounted acoustical door is provided to attenuate noise. The door is hinged to the wall frame, and con-tains magnetic latches to keep the door aesthetically in place. It is flush mounted to the wall as to not protrude into the owner space. The door allows access to the unit for ease of filter re-placement

The door is constructed from heavy-gauge formed galvanized steel and painted Polar white. It is made avail-able in a keylock design and a keyless design to fit several design applica-tions.

Supply-Air Grilles (option)Supply air grilles are available for air discharge from the unit. The grilles are made in either a vertical louver, or a bi-directional louver option. The grilles are painted the Polar White to match the door assembly.

Ball Valves (option)Ball valves are field installed between the riser stub out and the flexible hose.

Hoses (option)Hoses consist of a stainless steel outer braid with an inner core of tube made of a nontoxic synthetic polymer mate-rial. The hoses are suitable for water temperatures ranging between 33 F and 211 F without the use of glycol.


54 WSHP-PRC013-EN

Automatic Flow Devices (option-factory installed)The automatic balancing valve is fac-tory-installed and set to a rated flow, and will automatically control the flow to within 10% of the rated value over a 40 to 1 differential pressure, operating range (2 to 80 PSID). Operational tem-perature is rated from fluid freezing, to 225 degrees F. The valve body is constructed from hot forged brass UNS C37700 per ASTM B-283 latest revision.

The strainer is factory installed. The Y-strainer body is constructed of bronze with a brass cap. The cap issealed with a non-asbestos gasket. The strainer body is suitable for 400 PSIG, with a maximum pressure rat-ing of 400, at 150°F WOG. Working pressure rating is Class 125. The strainer screen is 304 stainless steel with 20-mesh.

The motorized isolation valve is facto-ry installed. The motorized isolation valve is of the low power type (6 VA), with an opening time of 6 seconds, and a closing time of 4 to 5 seconds. The motorized head is removable from the valve body and has a quick connect wiring harness. The valve body is con-structed of hot forged brass UNS C37700 per ASTM B-283, factory sweated into the pipe assembly. The flow cartridge is made of stainless steel, polyphenylene sulfide polyphe-nylene oxide and EPDM, suitable for use with hot and chilled water with up to 50% Glycol, for operating tempera-tures of 34 to 203 degrees F. Valves are rated for 300 PSI operating pressure and a close off pressure of 60 PSI. Cv ratings are 3.0 (1/2 inch), 4.0 (3/4 inch).

WarrantyThe unit is warranted by the manufac-turer against defects for one year. The entire refrigerant circuit including mo-tor-compressor, expansion device, all heat exchangers in contact with refrig-erants, and reversing valve (less sole-noid coil) are warranted for that year (parts only). Optional extended war-ranties are made available.


WSHP-PRC013-EN 55

Trane has a policy of continuous product and data improvement and reserves the right to change design and specifications without notice.

Literature Order Number WSHP-PRC013-EN

File Number PL-UN-000-WSHP-PRC013-0506 (electronic only)

Supersedes PL-UN-000-WSHP-PRC013-0206 (printed copy)

Stocking Location Inland for 0206 versionTrane A business of American Standard Companieswww.trane.com

For more information, contact your local district office or e-mail us at [email protected]

high efficiency vertical stack water-source comfort system

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