Instructions

Care and cleaning of the range.

Removable Warming Drawer Pan (on some models)

Instructions Safety

NOTE: For models with a warming drawer, before performing any adjustments, cleaning or service, disconnect the range electrical power supply at the household distribution panel by removing the fuse or switching off the circuit breaker. Make sure the warming drawer heating element is cool.

NOTE: Allow warming drawer to cool before removing pan.

NOTE: Wipe spills promptly after each use.

Never place, use or self-clean the warming drawer pan in the upper oven.

Warming drawer has a removable pan for easy cleaning. Clean with hot soapy water and a sponge or dish towel. Dry with a clean cloth. Replace the pan in the warming drawer.

Operating

Storage Drawer Removal (on some models)

To remove the drawer:

To replace the drawer:

Consumer Support Troubleshooting Tips Care and Cleaning

Rail

Stop guide

Pull the drawer out until it stops.

Lift the front of the drawer until the stops clear the guides.

Remove the drawer.

Place the drawer rails on the guides.

Push the drawer back until it stops.

Lift the front of the drawer and push back until the stops clear the guides.

Lower the front of the drawer and push back until it closes.

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GE PB750 Instructions Safety, Removable Warming Drawer Pan on some models, Storage Drawer Removal on some models

PB750 specifications

The GE PB750 is a notable addition to the field of power generation, specifically designed for high-efficiency and reliability in the gas turbine market. This model represents a significant advancement in gas turbine technology, providing operators and utilities with an effective solution for meeting growing energy demands while minimizing environmental impact.

At the heart of the GE PB750 is its advanced aerodynamics and materials technology, which contribute to its superior performance. The turbine features a robust design that allows for increased efficiency and flexibility, making it capable of operating in various conditions. The incorporation of advanced cooling techniques ensures that the turbine can maintain optimal performance even at high temperatures, which is essential for meeting peak demand periods in electricity generation.

One of the standout features of the PB750 is its combined cycle capability, which maximizes the energy extracted from the fuel. This technology enables the turbine to use both gas and steam cycles, leading to a significant reduction in carbon emissions compared to traditional single-cycle plants. Furthermore, the GE PB750 is equipped with advanced emissions control systems, which help to further reduce NOx and CO2 emissions, making it compliant with stringent environmental regulations.

The control system of the GE PB750 is designed with digital technology that enhances operational efficiency. Advanced analytics and monitoring capabilities provide real-time insights into performance, allowing operators to make informed decisions. This digital integration also facilitates predictive maintenance, reducing downtime and ensuring the turbine operates at peak performance.

The PB750’s modular design provides greater flexibility in installation and maintenance, making it an attractive option for utility operators. The ability to perform maintenance and upgrades while the unit is operating contributes to overall efficiency and reduces outages.

In summary, the GE PB750 gas turbine exemplifies cutting-edge technology in the power generation sector. Its high efficiency, reduced emissions, and advanced digital controls make it a suitable choice for meeting the energy demands of the future while ensuring compliance with environmental standards. As the world shifts towards cleaner energy solutions, the PB750 stands out as a reliable and innovative option for power generation.