1.Mark the wall where the RIGHT EDGE of the range is to be located. Be sure to allow for the countertop overhang if you intend to install the range next to cabinets.

 

Anti-Tip

 

device

Slotted

 

head

Wallplate

screw

Approx. 20°

 

218

Marked edge

of range

2.Locate the outside edge of the device 218

toward the center of the range from the marked edge of the range.

3.Using the device as a template, mark the position of the hole for the screw.

4.For wood construction, drill a pilot hole at an angle of 20 degrees from the horizontal. A nail or awl may be used if a drill is not available.

Mount the Anti-Tip device with the screw provided.

For cement or concrete construction, you

will need a 1/4″ x 112″ lag bolt and a 1/2″ O.D. sleeve anchor, which are not provided. Drill the recommended size hole for the hardware.

Install the sleeve anchor into the drilled hole and then install the lag bolt through the device. The bolts must be properly tightened as recommended for the hardware.

Wallboard

Back of

range

 

Anti-Tip device

Wood screw

Wallplate

5.Slide the range against the wall, and check for proper installation by grasping the front edge of the cooktop and carefully attempting to tilt the range forward.

WHEN ALL HOOKUPS ARE COMPLETED: MAKE SURE ALL CONTROLS ARE LEFT IN THE OFF POSITION.

MAKE SURE THE FLOW OF COMBUSTION AND VENTILATION AIR TO THE RANGE IS UNOBSTRUCTED.

CONVERTING TO LP GAS

(or converting back to natural gas from LP)

This range leaves the factory set for use with natural gas. If you want to convert to LP gas, the conversion must be performed by a qualified LP gas installer.

The conversion instructions, sticker and LP orifices can be found attached to the range next to the pressure regulator.

There is a second set of instructions included in the envelope containing the product wiring diagrams on the back of the range. Keep these instructions and the orifices in case you want to convert back to natural gas.

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GE EGR3001, JR EGR3000, JGBP40 manual ⁄ 8 ″

JGBP40, JR EGR3000, EGR3001 specifications

The GE EGR3001, JR EGR3000, and JGBP40 are three innovative industrial equipment models from General Electric, renowned for their efficiency and advanced engineering.

The GE EGR3001 represents a significant advancement in gas turbine technology. This model is designed for optimal performance in combined cycle power plants, where its high efficiency helps to reduce fuel consumption and greenhouse gas emissions. The EGR3001 features an advanced combustor design that facilitates low emissions and enhances fuel flexibility, allowing it to operate on various fuels, including natural gas and liquid fuels. This flexibility is crucial in today's energy markets, where energy source availability may fluctuate.

The EGR3001 is also equipped with sophisticated control systems that provide reliable performance even under varying load conditions. Its modular design simplifies maintenance, allowing for faster service times and lower operational costs. Additionally, the EGR3001's robust construction ensures durability and longevity, making it an excellent investment for power generators.

The JR EGR3000 is another remarkable model in GE's lineup, focusing on integration and performance in industrial settings. This unit combines the features of a gas turbine with superior steam generation capabilities. The JR EGR3000 prides itself on its compact design, which facilitates easy installation without compromising performance. It features advanced aerodynamics and heat recovery systems that maximize output while minimizing fuel consumption.

A key highlight of the JR EGR3000 is its digital twin technology, which allows operators to simulate and analyze performance in real-time. This technology provides valuable insights for maintenance planning and operational efficiency, leading to decreased downtime and optimally managed assets.

The JGBP40 is a unique offering, primarily designed for industrial applications requiring higher efficiency and reliability. It integrates advanced gearbox technology with high-speed turbine operations, facilitating increased torque and power output. The JGBP40 is designed for versatility, able to support various applications across different industries.

Its design incorporates advanced materials to withstand high-stress conditions, thereby increasing operational lifespan. The model also features smart diagnostics and predictive maintenance capabilities, allowing operators to monitor health and performance efficiently. This proactive approach minimizes unplanned outages and enhances overall productivity.

In summary, the GE EGR3001, JR EGR3000, and JGBP40 are testament to General Electric’s commitment to innovation, efficiency, and reliability in industrial equipment. Their advanced features and technologies not only optimize performance but also address modern energy challenges, making them essential assets for electricity producers and industrial users alike.