Cleaning the Inlet Filter, Installation Checklist

NOTE: View shown is from under the unit.

Installation Instructions

REMOTE CONTROLLERINSTALLATION (cont.)

MOUNTING THE CONTROLLER (cont.)

10Thread the cable through the access hole at the base of the unit and connect the wires to the controller terminalson the bottomright-hand side of the PCB.

11Secure the controllercable using the clamp provided.

12Replace the plastic cover overthe PCB, and then replace the cover of the water heater.

CLEANING THE INLET FILTER

It is imperativethat	Waterinlet
control compartments,
burners and circulating
air passagewaysof the	Water inlet
appliance be kept clean.	Water inlet
	filter

CAUTION: Before

performingthisaction, first removepower to the water heater and be sure not to

stand near the discharge line of the pressurereliefvalve. This will prevent a possible scald injury.

1Turn off and disconnect electrical power. Allowwater heater to cool.

2Shut off water inlet.

3Open hot watertap at nearest faucet.

4Close outlet valve on unit.

5Have a small pan or bucket ready to catch spilled water.

6Remove and cleanthe water inlet filter with a small brush. If scale is present, clean in a white vinegar solution.

7Replace waterinletfilter.

8Remove the frontpanel by removing 4 screws.

CLEANING THE INLET FILTER (cont.)

9Use pressurized air to remove dust from the main burner, heat exchanger and fan blades. Do not use a wet cloth or spray cleaners on the burner. Do not use volatile substances such as benzene and thinners. They may ignite or fade the paint.

10Use soft dry cloth to wipe cabinet.

11Open water valves.

12Check for leaks.

13Connect electrical power and turn on the unit.

INSTALLATION CHECKLIST

•Ensure 120 Volts A.C. is connected to the unit and that the circuit is turned on.

•Verify the gas system is functioningcorrectly by connecting your manometer to the gas pressure test port on the unit (see page 11). Operate all gas appliances in the facility. The inlet gas pressure on the unit MUST NOT DROP BELOW that listed on the unit rating platefor the gas type being used. A manometer can be used to check the pressure.

•Make sure you have cleaned the COLD water inlet filter screen.

•Inspect HOT (outlet) and COLD (inlet) water lines to ensure they have not been crossed and are leak-free.

•Ensure the manual gas valve packaged withthe water heater is installed in the gas supply line(seepage 10).

•Ensure the controller is installed and functioning. Instruct the consumer on how to operate the controller. Instructions are always supplied in the Owner’s Manual (see page 18). A typical water temperature set point

is 120 degrees.

•For instructions on operatingthe unit, referto the Owner’s Manual.

GN75ENSRSA, GN94ENSRSA, GP94ENSRSA specifications

The GE GN94ENSRSA, GP94ENSRSA, and GN75ENSRSA represent a new generation of advanced gas turbines developed by General Electric (GE) for use in power generation applications. These models are designed for efficiency, reliability, and environmental sustainability, making them ideal for both industrial and utility-scale projects.

A hallmark of these turbines is their high efficiency. GE has implemented cutting-edge aerodynamics and materials technology to create a combustion process that maximizes energy extraction while minimizing fuel consumption. The GN94ENSRSA and GP94ENSRSA models specifically feature advanced compressor designs that increase air intake and compression ratio, enhancing overall performance.

The turbines incorporate GE's Digital Wind Farm technology, which utilizes advanced data analytics and machine learning to optimize operational efficiency. This technology allows for predictive maintenance, reducing downtime and operational costs. Users can monitor turbine performance in real-time, making adjustments as needed to boost output and efficiency.

Another significant feature is the flexible fuel capability. The GN94ENSRSA and GP94ENSRSA can operate with various fuel types, including natural gas, biogas, and hydrogen, making them versatile solutions for a range of energy markets. This flexibility aligns with global trends toward cleaner energy, helping reduce carbon emissions.

Safety and reliability are at the forefront of GE's design philosophy. The turbines are equipped with multiple safety features to ensure stable operation even under extreme conditions. This includes advanced control systems that continuously monitor critical parameters and adjust operations to maintain performance and safety standards.

In terms of emissions, GE has prioritized the development of low-emission technologies. These turbines are designed to meet stringent environmental regulations, reducing nitrogen oxides (NOx) and carbon monoxide (CO) emissions through enhanced combustion technology. This commitment to environmental sustainability has made GE’s turbines a preferred choice for many energy providers looking to transition to cleaner forms of power generation.

In summary, the GE GN94ENSRSA, GP94ENSRSA, and GN75ENSRSA gas turbines exemplify the latest advancements in turbine technology. With their high efficiencies, flexible fuel options, robust safety features, and commitment to reducing emissions, these models underscore GE's leadership in the energy sector and its dedication to sustainable power solutions. As global energy demands continue to evolve, these turbines provide a reliable path forward for efficient and responsible power generation.