www.GEAppliances.com

The oven door must be closed and all controls must be set correctly for the cycle to work properly.

Safety

How to Delay the Start of Cleaning

Press the SELF CLEAN STD/LOW pad once for a 4-hour clean time or twice for a 3-hour clean time.

A 3-hour self-clean time is recommended for use when cleaning small, contained spills. A self-clean time of 4 hours or longer is recommended for a dirtier oven.

If a time other than 4 hours or

3 hours is needed, use the number pads and enter the desired clean time.

You can change the clean time to any time between 3 hours and 5 hours, depending on how dirty your oven is.

Press the DELAY START pad.

Using the number pads, enter the time of day you want the clean cycle to start.

Press the START pad.

The door locks automatically. The display will show the start time. It will not be possible to open the oven door until the temperature drops below the lock temperature and the LOCKED light

goes off.

When the LOCKED light goes off, you will be able to open the door.

NOTE: On double oven models, you can set a delay clean in both ovens at the same time. The second oven set will automatically delay the start of cleaning until the end of the first oven’s clean cycle.

To recall the start time of the second oven set, press the DELAY START pad on the controls for the second oven.

Instructions Operating Instructions Care and

After a Clean Cycle

You may notice some white ash in the oven. Wipe it up with a damp cloth after the oven cools.

If white spots remain, remove them with a soap-filled steel-wool pad and rinse thoroughly with a vinegar and water mixture.

These deposits are usually a salt residue that cannot be removed by the clean cycle.

If the oven is not clean after one clean cycle, repeat the cycle.

You cannot set the oven for cooking until the oven is cool enough for the door to unlock.

While the oven is self-cleaning, you can press the CLOCK pad to display the time of day. To return to the clean countdown, press the SELF CLEAN STD/LOW pad.

If the shelves become hard to slide, wipe the shelf supports with cooking oil.

Cleaning Troubleshooting Tips Consumer Support

21

Page 21
Image 21
GE JT912, JT952 Cleaning Troubleshooting Tips Consumer Support, After a Clean Cycle, How to Delay the Start of Cleaning

JT912, JT952 specifications

The GE JT912 and JT952 are advanced turbofan engines designed to provide optimal performance and efficiency for a variety of commercial and military aircraft. Both engines belong to the GE family of engines, which is known for its commitment to innovation and reliability in aviation technology.

The GE JT912 is a high-bypass turbofan engine that features a two-shaft configuration aimed at maximizing performance and efficiency. It is primarily designed for regional and business jets, offering a thrust range suitable for various applications. One of the standout features of the JT912 is its efficient fan design, which incorporates composite fan blades and advanced aerodynamic shaping. This design not only enhances fuel efficiency but also reduces noise, aligning with the industry's growing focus on eco-friendliness.

In terms of materials, the JT912 employs advanced nickel and titanium alloys in its construction, which contribute to enhanced durability and performance under high temperatures. The engine is also equipped with state-of-the-art digital engine control technology, allowing for better monitoring and optimization of engine performance throughout the flight profile. The integration of this technology results in a reduced maintenance burden and extended time between overhauls, attributes that are crucial for operators looking to manage costs effectively.

On the other hand, the GE JT952 engine is tailored for larger aircraft, offering higher thrust capabilities. It features similar technological advancements, including an advanced high-pressure compressor that optimizes the air intake and enhances overall engine performance. The JT952 is designed with a focus on reliability and efficiency, making it suitable for both commercial aviation and military applications.

An important feature of the JT952 is its modular design, which simplifies maintenance and repair processes. This modularity allows for quicker turnaround times during servicing and reduces overall downtime for operators. Additionally, the engine is designed to meet stringent environmental regulations, minimizing emissions and noise levels.

In summary, both the GE JT912 and JT952 engines represent the forefront of turbofan technology, combining advanced materials, innovative design features, and state-of-the-art control systems. Their focus on efficiency, reliability, and reduced environmental impact makes them valuable assets for modern aviation, catering to a wide range of operational needs. These engines exemplify GE's dedication to pushing the boundaries of aerospace engineering and supporting the future of flight.