Operating Instructions Safety Information

Reversing the hardware.

Read these instructions completely and carefully.

Transfer Center Hinge Bracket to the Left

Tips Installation Instructions

1 Remove the center hinge bracket by removing the three Torx screws.

NOTE: Keep these screws with the hinge bracket. They are long screws and will be used when installing the hinge on the other side.

On some models, you will need to remove the color-matched caps from the screw heads before you can remove the screws. Use the edge of a thin flat blade to gently pry the caps off the screw heads. (A putty knife works well for this.) Cover the blade with tape to prevent scratching the paint.

2 Remove the three Torx screws from the center left side of the cabinet. Screw them into the holes on the right side.

Place the center hinge bracket over the holes at the center left side of the cabinet. Insert and tighten the three long screws.

3 Replace the caps by snapping them over the screws with your finger.

Customer Service Troubleshooting

Transfer Top Hinge to the Left

Interchange hinge and screws at top right with screws at top left of cabinet.

Do not tighten screws on hinge side at this time.

Transfer Door Stops

 

On each door, move the metal door stop from the right to the left.

1

 

Move any screws from the left to the right.

2

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GE 1825 Operating Instructions Safety Information, Transfer Center Hinge Bracket to the Left, Transfer Door Stops

1825 specifications

The GE 1825 is a remarkable evolution in the world of gas turbine technology, produced by General Electric, a company renowned for its innovative engineering and commitment to power generation solutions. Launched as part of GE's 7FA series, the 1825 model has established itself as a pivotal asset for both industrial and utility applications.

One of the standout features of the GE 1825 is its design efficiency. Engineered to deliver a high output while ensuring low emissions, this gas turbine operates effectively in combined cycle settings, making it an ideal choice for power plants aiming to optimize their production capabilities. With a robust output capability of around 1825 megawatts, the turbine is well-suited for large-scale operations requiring reliable energy generation.

The GE 1825 employs advanced technologies to enhance its performance. The turbine incorporates sophisticated air-cooled components, which help maintain operational integrity at elevated temperatures. This design focuses on durability and longevity, minimizing the need for frequent maintenance. Moreover, the GE 1825 turbine utilizes a state-of-the-art combustion system that not only boosts its thermal efficiency but also reduces nitrogen oxide emissions, aligning with global environmental standards.

Another notable characteristic of the GE 1825 is its operational flexibility. This turbine can seamlessly adapt to various fuel sources, including natural gas, distillate oil, and other alternative fuels. Such versatility enables power plants to optimize their fuel consumption based on market conditions and availability, thus achieving better economic performance.

In terms of control technologies, the GE 1825 is equipped with advanced digital systems that facilitate real-time performance monitoring and predictive maintenance. This capability allows operators to maintain optimal performance levels while ensuring that potential issues are identified and addressed before they escalate into critical problems.

Ultimately, the GE 1825 gas turbine stands as a testament to General Electric's commitment to energy innovation, providing cutting-edge technologies, exceptional efficiency, and operational flexibility. With its high power output, reduced emissions, and advanced control systems, it plays a crucial role in the evolving landscape of power generation, meeting both economic and environmental challenges in today’s energy market.