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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

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GE JT91230 Cleaning Troubleshooting Tips Consumer Support, After a Clean Cycle, How to Delay the Start of Cleaning

JT91230, JT95230 specifications

The GE JT95230 and JT91230 are advanced jet engines designed by General Electric, renowned for their cutting-edge technologies and performance efficiencies. These engines are primarily utilized in the commercial aviation sector, equipping several popular aircraft models with the power and reliability needed for modern air travel.

One of the principal features of the GE JT95230 and JT91230 is their high thrust-to-weight ratio, which translates into improved aircraft performance and fuel efficiency. These engines are engineered with a focus on aerodynamic optimization, resulting in enhanced airflow and reduced drag. This design approach allows for superior fuel economy, ultimately contributing to lower operational costs for airlines.

The JT95230, a part of the GE80 series, incorporates a two-spool high bypass turbofan configuration. This configuration includes a large fan at the front, which significantly contributes to the engine's thrust. Meanwhile, the high bypass ratio allows the engine to operate at lower speeds, thereby reducing fuel consumption while maintaining high efficiency during various flight phases.

In contrast, the JT91230 features a more compact design, yet still retains robust performance capabilities. This engine is particularly noted for its durability and reliability, essential characteristics for commercial operators facing stringent safety and maintenance demands. The JT91230’s design also emphasizes noise reduction, aligning with modern regulations and environmental standards.

Technologically, both the JT95230 and JT91230 utilize advanced materials like titanium and composite structures, enhancing structural integrity while keeping weight to a minimum. Precise manufacturing techniques, including additive manufacturing, allow for greater accuracy and performance optimization in component production.

Another significant aspect is the incorporation of digital engine control systems, which enable real-time monitoring and adjustments of engine performance parameters. This technology enhances operational efficiency and allows for predictive maintenance, reducing downtime and increasing reliability. Furthermore, the engines are designed to be easily maintainable, ensuring that airline operators can quickly service and return them to operation.

Overall, the GE JT95230 and JT91230 embody a blend of advanced technology, efficiency, and reliability. Their innovative designs and features position them as leading choices for airlines looking to enhance their fleet performance, reduce fuel costs, and meet modern aviation regulations.