Typical installation location.

(if installing the cooktop over a GSM2100 dishwasher, go to the next page)

ge.com

Read these instructions completely and carefully.

Dimensions and Clearances

Safety Instructions

13

Max.

A

D

J

E

 

134Min.

clearance to

side wall

 

 

 

A: 21 12

B: 16 58

C: 19 1516

D: 15 1516

E: 16 18

30Min.

 

F: 20 18

G: 10 116

H: 3

J: 2Min.

K: 2 34Min.

B

 

H

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

C

134Min.

clearance to

side wall

F K

G

Operating Instructions Care and Cleaning

Unit and cutout dimensions

This counter unit must be installed with the control knobs toward the front edge or the side.

Counter space must be provided for installation of the counter unit. When choosing a location, consider the following:

The cooktop should be easy to reach and lighted with natural light during the day.

To eliminate the risk of burns or fire by reaching over heated surface units, cabinet storage space located above the surface units should be avoided. If cabinet storage space is to be provided, the risk can be reduced by

installing a range hood that projects horizontally a minimum of 5″ beyond the bottom of the cabinets. Cabinets installed

above the counter unit may be no deeper than 13″ and must be at least 30″ above the cooktop.

To insure accuracy, it is best to make a template when cutting the opening in the counter. See the following illustration and chart for all necessary dimensions.

The following minimum clearances must be maintained:

234 ″ minimum clearance between the front edge of the counter unit and the front edge of the counter.

30 ″ minimum vertical clearance from the cooktop to the nearest overhead surface.

15 ″ minimum vertical clearance to adjacent cabinets.

112 ″ minimum vertical clearance between the bottom of the cooktop and any combustible material, i.e. shelving.

Installation Instructions Troubleshooting Tips Consumer Support

11

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GE JP202 owner manual Typical installation location, Dimensions and Clearances, Operating Instructions Care and Cleaning

JP202 specifications

The GE JP202 is a revolutionary product that represents a significant advancement in the realm of energy generation technology. This cutting-edge gas turbine offers remarkable efficiency and reliability, making it an ideal choice for both utility and industrial applications. Designed by General Electric, a leader in energy solutions, the JP202 has been engineered to meet the growing demands for cleaner and more sustainable energy sources.

One of the main features of the JP202 is its high efficiency. The gas turbine operates with an efficiency rating of up to 64%, positioning it as one of the most efficient gas turbines in its class. This efficiency not only results in reduced fuel consumption but also contributes to lower greenhouse gas emissions, aligning with global goals for environmental sustainability.

The JP202 utilizes advanced aerodynamics and materials technology that enable superior performance under various operating conditions. Its advanced cooling technologies allow for higher operating temperatures, which are crucial for improving overall efficiency. The turbine's combustion system is engineered to minimize NOx emissions, further enhancing its environmental performance without compromising on power output.

Another key characteristic of the JP202 is its modular design. This makes maintenance and upgrades easier, ensuring that operators can maximize uptime and reduce operational costs. The design facilitates quick access to critical components, which allows for streamlined service and maintenance routines.

The turbine is equipped with a sophisticated digital control system that enhances its operational flexibility. This system utilizes advanced analytics and machine learning algorithms to optimize performance in real-time. Operators can monitor and control the turbine remotely, allowing for improved decision-making and operational efficiency.

In addition to its technological innovations, the GE JP202 is designed with versatility in mind. It can operate on various fuel types, including natural gas, biogas, and other renewable fuels, allowing facility operators to adapt to changing fuel markets and regulations. Its design is suitable for combined cycle operations, which further enhances its efficiency by capturing waste heat to produce additional power.

In summary, the GE JP202 combines high efficiency, innovative technologies, and a modular design to provide a powerful solution for modern energy needs. Its commitment to reducing emissions and promoting sustainability makes it a valuable asset for energy generation, ensuring reliable power while supporting environmental goals. This turbine is poised to play a significant role in the transition to cleaner energy sources.