Safety Instructions

IMPORTANT SAFETY INFORMATION.

READ ALL INSTRUCTIONS BEFORE USING.

RADIANT SURFACE UNITS

Use proper pan size—select cookware having flat bottoms large enough to cover the surface unit heating element. The use of undersized cookware will expose a portion of the surface unit to direct contact and may result in ignition of clothing. Proper relationship of cookware to surface unit will also improve efficiency.

Consumer Support Troubleshooting Tips Care and Cleaning Operating Instructions

Never leave the surface units unattended at high heat settings. Boilovers cause smoking and greasy spillovers that may catch on fire.

Only certain types of glass, glass ⁄ceramic, earthenware or other glazed containers are suitable for cooktop service; others may break because of the sudden change in temperature.

To minimize the possibility of burns, ignition of flammable materials and spillage, the handle of a container should be turned toward the center of the range without extending over nearby surface units.

Always turn the surface units off before removing cookware.

When preparing flaming foods under the hood, turn the fan on.

Use care when touching the cooktop. The glass surface of the cooktop will retain heat after the controls have been turned off.

Keep an eye on foods being fried at high or medium high heat settings.

Foods for frying should be as dry as possible. Frost on frozen foods or moisture on fresh foods can cause hot fat to bubble up and over the sides of the pan.

Use little fat for effective shallow or deep fat frying. Filling the pan too full of fat can cause spillovers when food is added.

If a combination of oils or fats will be used in frying, stir together before heating, or as fats melt slowly.

Always heat fat slowly, and watch as it heats.

Use a deep fat thermometer whenever possible to prevent overheating fat beyond the smoking point.

Avoid scratching the glass cooktop. The

 

cooktop can be scratched with items such

 

as sharp instruments, rings or other jewelry,

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and rivets on clothing.

 

Large scratches or impacts to glass doors or cooktops can lead to broken or shattered glass.

Do not operate the radiant surface units if the glass is broken. Spillovers or cleaning solution may penetrate a broken cooktop and create a risk of electrical shock. Contact a qualified technician immediately should your glass cooktop become broken.

Never use the glass cooktop surface as a cutting board.

Do not place or store items that can melt or catch fire on the glass cooktop, even when it is not being used.

Be careful when placing spoons or other stirring utensils on glass cooktop surface when it is in use. They may become hot and could cause burns.

Clean the cooktop with caution. If a wet sponge or cloth is used to wipe spills on a hot surface unit, be careful to avoid steam burns. Some cleaners can produce noxious fumes if applied to a hot surface.

NOTE: We recommend that you avoid wiping any surface unit areas until they have cooled and the indicator light has gone off. Sugar spills are the exception to this. Please see the Cleaning the glass cooktop section.

When the cooktop is cool, use only the CERAMA BRYTE® Ceramic Cooktop Cleaner and the CERAMA BRYTE Ceramic Cooktop Cleaning Pad to clean the cooktop.

To avoid possible damage to the cooking surface, do not apply cleaning cream to the glass surface when it is hot.

After cleaning, use a dry cloth or paper towel to remove all cleaning cream residue.

Read and follow all instructions and warnings on the cleaning cream labels.

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GE JS900, JD900 owner manual Radiant Surface Units

JD900, JS900 specifications

The GE JS900 and JD900 are advanced gas turbine models from General Electric, designed for efficiency and performance in power generation. These turbines represent the innovative spirit of GE, incorporating cutting-edge technologies to meet the demands of modern energy markets.

The GE JS900 is a versatile model used primarily in combined cycle power plants. One of its standout features is its ability to achieve high thermal efficiency, reaching levels of around 60 percent. This efficiency translates into lower fuel consumption and reduced emissions, making it an environmentally friendly choice for energy producers. The JS900 utilizes a larger aerodynamic blade design and advanced cooling techniques, which enable it to operate at higher temperatures, thus enhancing its overall performance.

On the other hand, the GE JD900 is designed for industrial applications, particularly in the oil and gas sector. It boasts a robust construction that can withstand the harsh conditions typical within these environments. The JD900 features a unique combustion system that minimizes nitrogen oxide emissions while maintaining a high power output. Its modular design allows for easier maintenance and faster installation compared to other models, making it a preferred choice for operators looking for operational efficiency.

Both turbines are equipped with GE's Digital Wind Farm technology, which utilizes real-time data analysis to optimize performance and reliability. This technology allows operators to monitor and adjust settings dynamically, ensuring maximum efficiency and reducing downtime. Additionally, the JD900 and JS900 both feature advanced control systems that enable seamless integration with existing power plant operations.

Both models also emphasize flexibility in fuel options. They can operate on a variety of fuels, including natural gas, liquid fuels, and even biofuels, which adds to their adaptability in different geographical locations and energy markets.

In conclusion, the GE JS900 and JD900 turbines stand at the forefront of gas turbine technology, embodying efficiency, sustainability, and adaptability. Their advanced features, combined with GE's commitment to innovation, make them ideal choices for a variety of energy applications, meeting the needs of industries while promoting environmental responsibility.