Cooktop and Radiant Surface Units

• Use proper pan size—Select

cookware having flat bottoms large enough to cover the selected

surface unit. 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 the cookware to the surface unit will also improve efficiency.

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

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.

Avoid scratching the glass cooktop. The cooktop can be scratched with items such as sharp instruments, rings or other jewelry and rivets on clothing.

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.

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 the cookware.

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

When flaming foods are under the hood, turn the fan off. The fan, if operating, may spread the flame.

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.

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 Glass Cooktop Cleaning section.

When the cooktop is cool, use only the recommended cleaning cream to clean the cooktop.

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

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

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

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

SAVE THESE

INSTRUCTIONS

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Important Safety Instructions

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GE 10-95 CG warranty Save These Instructions, Cooktop and Radiant Surface Units

10-95 CG specifications

The GE 10-95 CG is a notable locomotive designed to meet the demands of freight transport with efficiency and reliability. Built by General Electric, this model showcases a combination of advanced technology and impressive engineering, making it a prominent choice in the rail industry.

One of the primary features of the GE 10-95 CG is its powerful diesel engine. The locomotive is equipped with a 12-cylinder 7FDL engine, capable of producing substantial horsepower that allows it to handle heavy loads across challenging terrains. This engine configuration not only provides reliability but also ensures operational efficiency, allowing for lower fuel consumption over longer distances.

The 10-95 CG is recognized for its distinct, rugged design that is built to withstand diverse environmental conditions. Its robust frame and sturdy body contribute to its longevity and durability, while the optimized aerodynamics reduce drag, enhancing fuel efficiency. The locomotive's structure is designed for easy access and maintenance, allowing operators to keep it in optimal working condition with minimal downtime.

In terms of technologies, the GE 10-95 CG integrates advanced electronic systems that enhance performance and monitoring. The locomotive features a sophisticated microprocessor-based control system that enables precise engine management, ensuring optimal operation under varying conditions. Additionally, the use of dynamic braking technology provides enhanced control, reducing wear and tear on the braking system while improving safety.

The traction system of the GE 10-95 CG employs alternating current (AC) traction motors, which are known for their efficiency and reduced maintenance requirements compared to traditional DC motors. This technology results in better acceleration and overall performance, making the locomotive adept in both hauling heavy freight and navigating tight curves.

Another notable characteristic of the GE 10-95 CG is its ability to operate in multiple unit configurations. This allows for seamless coupling with other locomotives, enabling operators to scale their freight capacity as needed. The versatility of this locomotive makes it a valuable asset in various rail operations.

In summary, the GE 10-95 CG embodies a blend of power, efficiency, and advanced technology. With features designed for durability, operational efficiency, and ease of maintenance, it stands out as a formidable choice for freight transportation in the rail industry. Its innovative systems and robust performance characteristics ensure that it remains a reliable solution for meeting the demands of modern logistics and transportation.