Bump

Oven Shelves

The shelves are designed with stop-locks so that, when placed correctly on the shelf supports, they will stop before coming completely out of the oven and will not tilt when you are removing food from them or placing food on them.

When placing cookware on a shelf, pull the shelf out to the bump on the shelf support. Place the cookware on the shelf, then slide the shelf back into the oven. This will eliminate reaching into the hot oven.

To remove a shelf from the oven, pull the shelf toward you, tilt the front end upward and pull the shelf out.

To replace, place the shelf on the shelf support with the stop-locks (curved extension of the shelf) facing up and toward the rear of the oven. Tilt up the front and push the shelf toward the back of the oven until it goes past the bump on the shelf support. Then lower the front of the shelf and push it all the way back.

Safety Instructions

Shelf Positions

The oven has 4 shelf supports, identified in this illustration as A (bottom), B, C and D (top).

Shelf positions for cooking are suggested in the Baking, Roasting and Broiling sections.

Oven Moisture

As your oven heats up, the changing temperature of the air in the oven may cause water droplets to form on the door glass. These droplets are harmless and will evaporate as the oven continues to heat up.

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Operating Instructions

Troubleshooting Tips

Customer Service

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GE JGRP17 owner manual Shelf Positions, Oven Moisture, Oven Shelves

JGRP17 specifications

The GE JGRP17 is a cutting-edge gas turbine engine designed primarily for use in industrial applications, distinguishing itself with a blend of advanced technology and robust performance. This engine is part of GE’s extensive portfolio of gas turbine systems, which are renowned for their efficiency, reliability, and adaptability.

One of the main features of the JGRP17 is its high thermal efficiency, enabling it to convert a greater proportion of fuel energy into usable power. This efficiency is achieved through sophisticated aerodynamic design and advanced materials that withstand high temperatures, resulting in lower fuel consumption and reduced emissions. The engine's modular design also contributes to its high performance, allowing for easier maintenance and reduced downtime during repairs or overhauls.

Another notable characteristic of the JGRP17 is its versatility. It can operate on a variety of fuels, including natural gas and liquid fuels, making it suitable for diverse applications across multiple sectors, from power generation to marine propulsion. The engine is engineered to provide reliable operation in various environmental conditions, ensuring consistent performance regardless of location.

The JGRP17 incorporates advanced control systems that enhance its operational efficiency and reliability. These systems utilize real-time monitoring and data analytics to optimize performance and detect potential issues before they escalate, thereby improving overall safety and operational longevity. These smart technologies are complemented by GE's legacy of engineering excellence, resulting in an engine that not only meets current industry standards but also anticipates future demands.

In addition to technical advancements, the GE JGRP17 is designed with sustainability in mind. Its lower emissions profile is a significant advantage in today’s climate-conscious market, facilitating compliance with stringent environmental regulations. The turbine's efficient performance contributes to reduced carbon footprints, making it an attractive option for companies looking to enhance their sustainability practices.

Overall, the GE JGRP17 gas turbine engine exemplifies the convergence of advanced engineering, efficiency, and environmental responsibility. With its powerful performance, flexible fuel options, and commitment to sustainability, it represents a significant advancement in industrial gas turbine technology, positioning itself as a reliable choice for a variety of energy and propulsion applications in an evolving marketplace.