Specifications

ManualsBrandsClimateMaster ManualsHeat PumpGT-PE outdoor Split Series

GT-PCS Split Units - 60Hz Puron

Created: 29 Aug., 2013

Hot Water Generator

For Indoor and Outdoor Compressor Section

Table 9: HWG Water Piping Size and Length

Unit

Nominal

Tonnage

Nominal

HWG Flow

(gpm)

1/2" Copper

(max length*)

3/4" Copper

(max length*)

1.5 0.6 50 -

2.0 0.8 50 -

2.5 1.0 50 -

3.0 1.2 50 -

3.5 1.4 50 -

4.0 1.6 45 50

5.0 2.0 25 50

6.0 2.4 10 50

*Maximum length is equivalent length (in feet) one way of type L

copper.

 CAUTION! 

CAUTION! Use only copper piping for HWG piping due to

the potential of high water temperatures for water that has

been in the HWG heat exchanger during periods of no-ﬂ ow

conditions (HWG pump not energized). Piping other than

copper may rupture due to high water temperature and

potable water pressure.

Warning! The HWG pump Is fully wired from the

factory. Use extreme caution when working around

the microprocessor control as it contains line voltage

connections that presents a shock hazard that can

cause severe injury or death!

The heat pump, water piping, pump, and hot water tank

should be located where the ambient temperature does

not fall below 50°F [10°C]. Keep water piping lengths at a

minimum. DO NOT use a one way length greater than 50 ft.

(one way) [15 m]. See Table 9 for recommended piping sizes

and maximum lengths.

All installations must be in accordance with local codes. The

installer is responsible for knowing the local requirements,

and for performing the installation accordingly. DO NOT

energize the pump until “water tank reﬁ ll” section, below is

completed. Powering the pump before all installation steps

are completed may damage the pump.

Water Tank Preparation

1. Turn off power or fuel supply to the hot water tank.

2. Connect a hose to the drain valve on the water tank.

3. Shut off the cold water supply to the water tank.

4. Open the drain valve and open the pressure relief valve

or a hot water faucet to drain tank.

5. When using an existing tank, it should be ﬂ ushed with

cold water after it is drained until the water leaving the

drain hose is clear and free of sediment.

6. Close all valves and remove the drain hose.

7. Install HWG water piping.

HWG Water Piping

1. Using at least 5/8” [16mm] O.D. copper, route and install

the water piping and valves as shown in Figures 18 or

19. Install an approved anti-scald valve if the 150°F HWG

setpoint is or will be selected. An appropriate method

must be employed to purge air from the HWG piping.

This may be accomplished by ﬂ ushing water through the

HWG (as In Figures 18 and 19) or by Installing an air vent

at the high point of the HWG piping system.

2. Insulate all HWG water piping with no less than 3/8”

[10mm] wall closed cell insulation.

3. Open both shut off valves and make sure the tank drain

valve is closed.

Water Tank Reﬁ ll

1. Close valve #4. Ensure that the HWG valves (valves #2

and #3) are open. Open the cold water supply (valve #1)

to ﬁ ll the tank through the HWG piping. This will purge air

from the HWG piping.

2. Open a hot water faucet to vent air from the system until

water ﬂ ows from faucet; turn off faucet. Open valve #4.

Depress the hot water tank pressure relief valve handle to

ensure that there is no air remaining in the tank.

4. Inspect all work for leaks.

Before restoring power or fuel supply to the water heater,

adjust the temperature setting on the tank thermostat(s)

to insure maximum utilization of the heat available from

the refrigeration system and conserve the most energy.

On tanks with both upper and lower elements and

thermostats, the lower element should be turned down

to 100°F [38°C] or the lowest setting; the upper element

should be adjusted to 120-130°F [49-54°C]. Depending

upon the speciﬁ c needs of the customer, you may want

to adjust the upper element differently. On tanks with a

single thermostat, a preheat tank should be used (Fig 19).

6. Replace access cover(s) and restore power or

fuel supply.

Initial Start-Up

1. Make sure all valves in the HWG water circuit are fully

open.

2. Turn the heat pump power and remote HWG power “off”

and switch dip switch DIP 3.4 on the HWG controller to

the “off” (enabled) position to activate the HWG.

3. The HWG pump should not run if the compressor is not

running.

4. The temperature difference between the water entering

and leaving the HWG should be approximately 5-10 °F

[3-6 °C].

5. Allow the unit to operate for 20 to 30 minutes insure that

it is functioning properly.

6. Always turn dip switch DIP 3.4 on the HWG controller to

the “on” (disabled) position to deactivate the HWG when

servicing the outdoor compressor section.