Danger, Electrical wiring, Filling – GSW WATER HEATING User Manual

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tem, check valves must be installed to prevent the circulator

from pumping hot water into another tank and overheating

it.

8. The use of a pressure regulator is optional, but recom-

mended when the cold supply pressure is over 80 psi.

Reducing the inlet pressure to 45-60 psi will reduce

probability of relief valve discharge by thermal expan-

sion.

9. The water utility supply meter may contain a check

valve, back-flow preventer or water pressure reducing

valve. This will create a closed water system. During the

heating cycle, the water expands creating a pressure

build-up in the water system. A Temperature and

Pressure (T&P) Relief Valve must be installed (150 psi

maximum pressure). See preceding section. If the T&P

valve discharges periodically, this may be due to ther-

mal expansion in a closed system. To prevent this con-

dition and to reduce the possible build up of lime on the

Temperature and Pressure Relief Valve seat, either one

of the following installations is required;

i) Install a 125 psi pressure relief valve in the cold water

supply line. Make sure that the discharge of this valve is

protected from freezing and directed to an open drain.

ii) Install an expansion tank on the cold water supply

line.

10. A vacuum relief valve may be installed to provide vent-

ing of a closed system. Check local code requirements.

Electrical Wiring

Electrical wiring must be in accordance with local codes; or

in the absence of local codes with the National Electrical

code ANSI/NFPA 70 or The Canadian Electrical Code, as

applicable.

1. Supply 110/120 volt, 60Hz power, to the junction box

located at the top of the tank.

2. Connect the circulator pump in series with the thermo-

stat as shown in Figure 4.

3. A ground wire must be supplied from the ground con-

nection at the service panel to the ground screw at the

junction box.

4. The thermostat is rated for a maximum inductive current

of 7 FLA at 120 VAC. Do not exceed this rating for the

circuit.

5. Do not install or connect electrical heating elements to

this tank.

Filling

NOTE: When filling, avoid water leakage. Do not allow the

insulation of the tank to get wet as water can cause electri-

cal malfunction or reduce the effectiveness of the insulation.

1. To insure complete filling of the tank, allow air to exit by

opening a hot water faucet that is served by the tank

and is some distance away from the heater.

2. Ensure the storage tank drain valve is closed.

3. Open the cold water supply valve and fill the tank and

piping system with water. When an uninterrupted

stream of water, without apparent air bubbles, flows

from the open hot water faucet, the system is full.

4. Close the open hot water faucet. Check the system for

leaks, repair as necessary and retest.

5. Connect a hose to the drain valve and route to a suit-

able drain. Open the drain valve and let water run to

flush out any foreign matter that may have entered the

system. Once flushed, close the drain valve and dis-

connect hose.

Temperature Regulation

In order to reduce the risk of scald injury, the thermostat is

factory set to 49°C (120°F). The thermostat operates auto-

matically and can be adjusted to provide higher or lower

water temperature as needed. A mixing valve in connection

with a higher temperature setting should be used to reduce

risk of scald injury.

Figure 4: Wiring Diagram

IF WIRE HAS TO BE REPLACED IN THE FIELD,

USE ONLY TYPE TEW 105°C WIRE.

BOOSTER TANK

MUST BE

GROUNDED TO

THE ELECTRICAL

SUPPLY SERVICE.

BLACK

BLACK

WIRE CONNECTORS

CIRCULATOR

PUMP

L1

120 VOLT SUPPLY

JUNCTION BOX

(AT CASING TOP)

THERMOSTAT

L2

DANGER

CAUTION

Increasing the thermostat setting above the pre-set tem-

perature may cause severe burns and consume exces-

sive energy. Hotter water increases the risk of scald injury.

IMPORTANT

RISK OF SCALDING. Hot water will cause third degree

burns in 6 seconds at 60°C (140°F), in 30 seconds at 54°

(130°F).