Care and Cleaning

Note: Let cooktop parts cool before touching or handling.

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Proper care and cleaning are important so your cooktop will give you efficient and satisfactory service. Follow these directions carefully in caring for your cooktop to assure safe and proper maintenance.

Solid Disk Elements

The solid disk elements are made of high strength cast-iron alloy.

The surface has a heat-resistant coating to preserve the surface of the element. After the unit cools, any boiled-over material on the element should be removed as soon as possible with a slightly damp cloth. The element should then be dried by turning it on for a few minutes. After it cools, wipe lightly with cooking oil.

Clean very dirty solid disk elements with a little cleaning powder (such as Comet” cleanser) or with a scouring pad.

The matte black surface can be maintained by treating it periodically with Cello Electrol@ polish which is available from:

ELCO Sales

2545 Palmer Avenue

University Park, IL 60466

Failure to maintain the solid disk

elements as directed will result in

defacing the surface over a long

period of time primarily due to corrosion as the elements are made of cast-iron construction.

Do not place covers over the solid disk elements. An element turned on while the cover is in place can permanently damage the cooktop. Covers can also trap moisture which may cause the elements to rust.

Glass Top

The glass on your cooktop has been tempered to withstand sudden temperature changes during cooking. Give it the normal care you would give any glass material.

While it is impact-resistant, avoid scratching it to prevent it from shattering.

If the glass around the solid disk elements is hot, wipe up spills with a dry cloth or paper towel. When the surface has cooled, wash, rinse and dry it. Alternately, when the glass top is cool, spray it with glass or window cleaner. Avoid the use of cleaning powders or harsh abrasives that may scratch the surface.

Use the applicator to apply a very thin coating of the polish to the entire surface of the element. Turn the element on high for several minutes to bake the polish onto the element. When the element is cooled, rub lightly with a cloth or paper towel to remove any excess polish. Before next use, burn off the element by means of a short preheating period. A slight amount of smoke and odor will occur.

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GE JP330P warranty Care and Cleaning, Solid Disk Elements, Glass Top

JP330P specifications

The GE JP330P is a powerful and innovative gas turbine designed for optimized performance in a range of energy generation applications. Known for its high efficiency and reliability, the JP330P leads the way in modern energy solutions, particularly in the realm of combined cycle power plants.

One of the key features of the GE JP330P is its advanced combustion system. This turbine utilizes a dry low NOx (DLN) combustion technology that helps to minimize emissions, making it one of the cleanest gas turbines in its class. The DLN system ensures that nitrogen oxide emissions remain well below regulatory limits, allowing operators to meet stringent environmental standards while delivering efficient power generation.

The JP330P is built with a robust and durable design, featuring high-temperature materials that withstand the extreme conditions found in a gas turbine environment. This ensures not only the longevity of the turbine but also its consistent performance over time. Capacities for the JP330P typically range around 330 megawatts, making it suitable for both peaking and baseload power applications.

In terms of operational flexibility, the JP330P boasts rapid start-up capabilities, reducing the time needed to generate electricity from a cold start. This characteristic is particularly beneficial in balancing power supply in response to fluctuating demand, allowing utilities to efficiently manage their energy outputs.

GE’s Digital Wind Farm technology enhances the operational efficiency of the JP330P by integrating data analytics and advanced monitoring systems. This feature allows plant operators to optimize performance in real-time, reduce downtime, and improve overall reliability through predictive maintenance practices.

The turbine’s modular design also aids in maintenance and operations. With components that can be accessed and replaced with minimal downtime, the JP330P is designed to maximize availability and minimize disruptions.

In summary, the GE JP330P gas turbine is a leading option for energy producers looking for high efficiency, environmental sustainability, and operational flexibility. With its state-of-the-art technologies, durable construction, and advanced combustion system, the JP330P stands out as a robust solution for modern energy challenges, ushering in a new era of reliable power generation.