GE PP980, PP950 Cleaning the glass cooktop, Tips Consumer Support, Operating Instructions Care

Page 13

Cleaning the glass cooktop.

ge.com

Safety

CONTROL

LOCK

Control Lock Pad

As a convenience, you can lock the entire cooktop at any time when it is not in use or before cleaning.

Locking the cooktop will prevent surface elements from being turned on accidently.

Begin by locking the cooktop; see the Locking the Cooktop section. Use the same cleaning methods as those described for the glass-ceramic top.

Instructions

Clean your cooktop after each spill. Use ceramic cooktop cleaner.

Normal Daily Use Cleaning

ONLY use ceramic cooktop cleaner on the glass cooktop. Other creams may not be as effective.

To maintain and protect the surface of your glass cooktop, follow these steps:

Before using the cooktop for

the first time, clean it with ceramic cooktop cleaner. This helps protect the top and makes cleanup easier.

Daily use of ceramic cooktop cleaner will help keep the cooktop looking new.

Shake the cleaning cream well. Apply a few drops of ceramic cooktop cleaner directly to the cooktop.

Use a paper towel or cleaning pad for ceramic cooktops to clean the entire cooktop surface.

Use a dry cloth or paper towel to remove all cleaning residue. No need to rinse.

NOTE: It is very important that you DO NOT heat the cooktop until it has been cleaned thoroughly.

Operating Instructions Care and

Use a cleaning pad for ceramic cooktops.

Burned-On Residue

WARNING: DAMAGE to your glass surface may occur if you use scrub pads other than the pad included with your cooktop.

Allow the cooktop to cool.

Spread a few drops of ceramic cooktop cleaner on the entire burned residue area.

Using the included cleaning

pad for ceramic cooktops, rub the residue area, applying pressure as needed.

If any residue remains, repeat the steps listed above as needed.

For additional protection, after all residue has been removed, polish the entire surface with ceramic cooktop cleaner and a paper towel.

Cleaning Troubleshooting

The ceramic cooktop scraper

and all recommended supplies are available through our Parts Center. See instructions under “To Order Parts” section on next page.

NOTE: Do not use a dull or nicked blade.

Heavy, Burned-On Residue

Allow the cooktop to cool.

Use a single-edge razor blade scraper at approximately a 45° angle against the glass surface and scrape the soil. It will be necessary to apply pressure to the razor scraper in order to remove the residue.

After scraping with the razor scraper, spread a few drops of ceramic cooktop cleaner on the entire burned residue area. Use

the cleaning pad to remove any remaining residue.

For additional protection, after all residue has been removed, polish the entire surface with ceramic cooktop cleaner and a paper towel.

13

Tips Consumer Support

Image 13
Contents 49-80423-1 12-06 JR Model # Serial #Safety Precautions Ge.com Radiant Surface Elements Feature Index Features and appearances may vary Features of your cooktopHot Surface Indicator Lights one for each surface element Explained onSafety Instructions Using the surface elementsTips Care and Cleaning Operating Instructions About the radiant surface elements…Instructions Cleaning Troubleshooting Tips Consumer SupportSingle Surface Element Dual Surface ElementTo correct Consumer Support Cleaning Troubleshooting TipsInstructions Selecting types of cookware SafetyObserve the Following Points in Canning Time will be shortened by Using a pressure canner,How to Remove Protective Shipping Film and Packaging Tape Care and cleaning of the cooktopCleaning Troubleshooting Cleaning the glass cooktopTips Consumer Support Operating Instructions CareConsumer Support Troubleshooting Tips Instructions SafetyMetal Marks and Scratches Damage from Sugary Spills and Melted PlasticBefore you call for service…ge.com Before you call for service… We’ll Cover Any Appliance. Anywhere. Anytime Consumer Product Ownership Registration Safety Instructions Operating Instructions GE Electric Cooktop WarrantyGE Will Provide What GE Will Not CoverParts and Accessories Schedule ServiceConsumer Support GE Appliances Website Real Life Design StudioEstufa Soporte al Operación Consumidor Solucionar problemas Cuidado y limpiezaSeguridad OperaciónSoporte al Consumidor Solucionar problemas Cuidado y limpiezaSeguridad Características de su estufaSe explica en la página Cómo usar los elementos de superficie Solucionar problemas Cuidado y limpiezaAcerca de los elementos de superficie radiantes… No use la superficie como tabla de corteElemento de superficie doble Elemento de superficie simpleElemento de superficie calentador Problemas Cuidado y limpiezaTipo de alimento Para corregirCómo bloquear la estufa Al consumidorCómo usar la función Tamaño de cacerola Cuidado y limpieza Cómo seleccionar los tipos de utensiliosUsa una enlatadora a presión, y Siga los siguientes puntos para la preparación de enlatadosCuidado y limpieza de la estufa Tecla de control lock bloqueo de control Cómo limpiar la cubierta de vidrio de la estufaLimpieza durante el uso diario normal Residuos quemadosSeguridad Operación Soporte al consumidor Solucionar problemasMarcas metálicas y raspones Para ordenar piezasAntes de llamar para solicitar servicio… La palabra Temp En una configuración De potencia baja La letra F y unEl elemento de Superficie está al rojoNotas Solucionar problemas Soporte al consumidorOperación Cuidado y limpieza Cuidado y limpieza Operación Seguridad Soporte al consumidor Solucionar problemasCuidado y limpieza Solucionar Garantía de GE para su estufa eléctricaGE reemplazará Lo que no está cubierto por GESolicite una reparación Soporte al consumidor Página Web de GE AppliancesGarantías ampliadas Piezas y accesorios

PP980, PP950 specifications

The GE PP950 and PP980 are high-efficiency gas turbine models that exemplify General Electric's commitment to innovation in energy production. These turbines are designed to meet the increasing demand for reliable and sustainable power generation, catering to a variety of applications including base load and peaking power.

One of the standout features of the PP950 and PP980 turbines is their advanced aerodynamics and combustion technologies. These turbines utilize an innovative combustion system that allows for lower emissions while maximizing fuel efficiency. The turbines are engineered to operate on a variety of fuels, including natural gas and liquid fuels, providing operators with flexibility in fuel choice and enhanced operational resiliency.

In terms of performance, the PP950 and PP980 turbines boast impressive power output capabilities, with the PP980 capable of generating over 300 megawatts of electricity. This makes them suitable for large-scale energy projects, as well as for integration into cogeneration and combined cycle power plants. The turbines are designed for rapid startup, enabling them to respond quickly to fluctuations in power demand, which is critical for grid stability.

Another significant characteristic of these turbines is their modular design, which facilitates easier maintenance and reduced downtime. The use of advanced materials and manufacturing techniques not only enhances the durability of the components but also contributes to better operational performance. This ensures that the turbines maintain high reliability throughout their operational lifespan.

The GE PP950 and PP980 are also equipped with sophisticated control systems that optimize their performance in real-time, adapting to changing load requirements and grid conditions. These control systems enhance the turbines’ overall operational efficiency and reliability, allowing for more predictable energy output.

Additionally, GE has incorporated digital solutions into the monitoring and management of these gas turbines, including predictive maintenance tools that analyze performance data. This proactive approach helps plant operators minimize unplanned outages, ultimately leading to greater cost savings and improved asset management.

In conclusion, the GE PP950 and PP980 gas turbines represent a fusion of cutting-edge technology and robust engineering. With their high efficiency, low emissions, and adaptability to different fuel sources, they are well-suited to meet the evolving needs of the global energy landscape. As power generation continues to shift toward cleaner and more efficient solutions, these models stand out as reliable and advanced choices for energy producers.