ADJUST THE OVEN THERMOSTAT—

DO IT YOURSELF!

.—

You may feel that your new oven cooks differently than the one it replaced. We recommend that you use your new oven for a few weeks to become more familiar with it, following the times given in your recipes as a guide.

If you think your new oven is too hot or too cold, you can adjust the thermostat yourself. If you think it is too hot, adjust the thermostat to make it cooler. If you think it is too cool, adjust the thermostat to make it hotter.

We do not recommend the use of inexpensive thermometers, such as those found in grocery stores, to check the temperature setting of your new oven. These thermometers may vary 2040 degrees.

To Adjust the Thermostat:

(—)1. Press the BAKE pad.

IIBAKE

[ )

2.Select an oven temperature between 500”F. and 550°F.

3.Immediately, before the BAKE indicator stops flashing, press and hold the BAKE pad for about 4 seconds. The display will change to the oven adjustment display.

4.The oven temperature can be adjusted up to

(+)35”F. hotter or (-) 35”F. cooler. Use the INCREASE or DECREASE pads to select the desired change in the display.

5.After you have made the adjustment,

c1CLEAR press the CLEAR/OFF pad to go back

w to the time of day display. Use your oven as you would normally.

NOTE: This adjustment will not affect the broiling or the self-cleaning temperatures. It will be remembered when power is removed.

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GE JSP40, JSP38 warranty Adjust the Oven Thermostat, To Adjust the Thermostat

JSP38, JSP40 specifications

The GE JSP40 and JSP38 are advanced gas turbine models developed by General Electric, renowned for their efficiency, reliability, and cutting-edge technology in power generation. These turbines are designed to meet the demanding requirements of modern energy markets, providing flexible solutions for various applications, including peaking power and baseload generation.

One of the main features of the JSP40 and JSP38 is their advanced aerodynamics, which contribute to high thermal efficiency and reduced emissions. The innovative design of the turbine blades enhances airflow and maximizes energy extraction from the combustion process, leading to improved overall performance. With a base load efficiency exceeding 40 percent, these turbines are positioned as leaders in their class, offering significant fuel savings for operators.

The JSP40 and JSP38 utilize advanced materials and coatings that enhance durability and resistance to high temperatures. This enables them to operate at higher pressure ratios and temperatures compared to earlier models, thereby increasing power output. The use of advanced nickel-based superalloys in the manufacturing of turbine components ensures long service life even under harsh operational conditions.

Additionally, these turbines are equipped with GE’s proprietary DLN (Dry Low NOx) combustion technology. This technology minimizes nitrogen oxide emissions, making the JSP40 and JSP38 compliant with stringent environmental regulations. The DLN systems achieve stable combustion across a wide range of loads, providing operators with the flexibility to efficiently manage varying demand levels while maintaining low emissions.

Both models feature integrated digital controls that provide real-time monitoring and analytics, improving operational efficiency and reducing downtime. GE's sophisticated control systems enable predictive maintenance, ensuring that potential issues are identified before they escalate, thus optimizing maintenance schedules and maximizing turbine availability.

Furthermore, the JSP40 and JSP38 are designed with adaptability in mind. They can be configured to burn a variety of fuels, including natural gas and distillate fuels, allowing fleets to respond to market changes and regulatory requirements seamlessly. This versatility empowers operators to take advantage of different fuel prices while maintaining a reliable power supply.

In summary, the GE JSP40 and JSP38 gas turbines represent a significant advancement in energy technology, combining high efficiency, reliability, and environmental performance. Their innovative features and advanced technologies make them an excellent choice for energy producers looking to meet the challenges of today’s dynamic energy landscape. With continued investment in research and development, GE is poised to maintain its position as a leader in the global power generation market.