ge.com

Replacing the Light Bulb

Safety

Moving the control to OFF does not remove power to the light circuit.

The bulb is located behind the shield next to the control.

Unplug the refrigerator.

Remove the screw.

Push in near the top of the shield and rotate down and out.

Replace the bulb with an appliance bulb of the same or lower wattage (40 Watt maximum).

Insert the tabs at the bottom of the light shield with the slots in the bulb housing.

Rotate the shield up until the tabs at the top of the shield pop into place in the bulb housing.

Replace the screw.

Instructions Operating

Preparing for Vacation

For long vacations or absences, remove food and unplug the refrigerator. Move the control to the OFF position, and clean the interior with a baking soda solution of one tablespoon (15 ml) of baking soda to one quart (1 liter) of water. Leave the doors open.

Preparing to Move

Secure all loose items such as shelves and

Be sure the refrigerator stays in an upright

drawers by taping them securely in place

position during moving.

to prevent damage.

 

7

Instructions

Instructions

Installation

Troubleshooting Tips Consumer Support

Page 7
Image 7
GE GTS12BBPLCC Safety, Instructions Operating, Replacing the Light Bulb, Preparing for Vacation, Preparing to Move

GTS12BBPLCC specifications

The GE GTS12BBPLCC is an advanced gas turbine designed for power generation applications, renowned for its efficiency and reliability. As part of General Electric’s family of gas turbines, the GTS12BBPLCC promises enhanced performance and operational flexibility, making it an attractive option for both utility and industrial settings.

One of the main features of the GTS12BBPLCC is its combined cycle capability, which allows operators to achieve higher efficiencies by utilizing both gas and steam turbines. This configuration can significantly reduce fuel consumption and greenhouse gas emissions, contributing to a more sustainable energy generation process. The turbine operates in a simple cycle mode as well, providing flexibility based on operational demands.

The GTS12BBPLCC incorporates advanced aerodynamics and materials that contribute to its superior performance. The turbine blades are designed using state-of-the-art computational fluid dynamics (CFD), which optimizes airflow and enhances combustion efficiency. Additionally, the use of advanced nickel-based superalloys ensures that the turbine can withstand the high-temperature conditions typical in gas turbines, enhancing durability and service life.

Another important characteristic of the GTS12BBPLCC is its quick start-up capability. Operators can bring the turbine online rapidly, which is critical in meeting sudden increases in electricity demand. This feature is particularly useful in markets with variable renewable energy sources, as it allows for seamless integration and grid stability.

The control system of the GTS12BBPLCC is equipped with GE’s latest digital technologies, including advanced monitoring and diagnostic capabilities. Operators have access to real-time data on turbine performance, enabling proactive maintenance and reducing unplanned outages. This digital edge enhances operational reliability and optimizes maintenance schedules.

Designed with operational flexibility in mind, the GTS12BBPLCC can efficiently utilize a variety of fuels, including natural gas and liquefied petroleum gas, further enhancing its versatility. This adaptability makes it suitable for diverse operational environments, from peaking power plants to baseload operations.

In summary, the GE GTS12BBPLCC stands out as a leading solution in the gas turbine market due to its combined cycle capability, advanced materials, quick start-up features, and digital monitoring technologies. Its ability to operate efficiently and flexibly makes it an ideal choice for modern power generation needs, paving the way for cleaner and more reliable energy production.