Care and cleaning of the range.

After broiling, remove the broiler pan from the oven.

Broiler Pan & Grid

Donotdean thebroi/erpan orgrid ina serf- cleaningoven.

After broiling, remove file broiler pan

_I'Ollltile oven. Remove tile _'id from tile pan. Carefhlly pour out the _'ease fi'om the pan into a proper container.

Wash and rinse tile broiler pan and grid in hot water _ith a soap-filled or plastic scouring pad.

fffood has burned on, sprinkle tile _'id

_ith detergent while hot and cover _ith wet paper towels or a dishcloth. Soaking the pan _ill remove bimaed-on fbods.

Both file broiler pan and _'id may be cleaned _ith a commercial oven cleaner.

Both dm broiler pan and _'id can also be cleaned in a dishwasher.

Donotstorea soiledbreilerpan andgrid anywherein therange.

Oven Heating Elements

Donotcleanthebakeelementor thebroil

dement.An;/softwill burnoff whenthe elementsareheated.

To clean file oven floor, gently lif_ tile bake element. Clean _ith warill

soa W water.

Removable Storage Drawer

Thestoragedraweris a goodplacetostore

co&wareandbakewareDonotstoreplastics. andflammablematerialin thedrawer.

Do not overload dm storage &awer. If din drawer is too heax_,, it may slip off tile track when opened. To open tile (kawer,

grasp tile center of tile handle and pull straight out.

Toremove:

Pull tile (kawer straight out and lif_over the guide smps.

Toreplace:

Lift over tile guide stops and slide dm drawer into place.

To clean both tile inside and tile outside: Wipe _4th soap and water. Rinse well.

Donotusecleansingpowdersor harsh abrasiveswhichmayscratchthesurface.

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GE JSP40, JSP34, JSP26 manual Broiler Pan & Grid, Oven Heating Elements, Removable Storage Drawer, Toreplace

JSP40, JSP26, JSP34 specifications

The GE JSP34, JSP26, JSP31, and JSP28 are cutting-edge jet engine models developed by General Electric, designed to power the next generation of commercial and military aircraft. Each model incorporates advanced technologies and innovative features that enhance performance, efficiency, and reliability.

The JSP34 engine is characterized by its high thrust-to-weight ratio, making it ideal for high-performance aircraft. It utilizes a new composite fan blade design that reduces weight while increasing aerodynamic efficiency. The advanced turbofan architecture allows for lower noise emissions and improved fuel efficiency. Additionally, the JSP34 is equipped with smart engine health monitoring systems, enabling proactive maintenance scheduling and minimizing downtime.

The JSP26 model is tailored for regional jets and smaller commercial aircraft. It features a state-of-the-art bypass ratio, providing exceptional fuel efficiency for short-haul flights. One of its standout technologies is the variable area nozzle, which optimizes performance across various flight regimes. The JSP26's modular design ensures easier maintenance and quicker turnaround times, crucial for regional operators.

The JSP31 engine focuses on versatility and adaptability, making it suitable for both commercial and military applications. Its multi-modal operation capability allows for a seamless transition between different mission profiles. The engine incorporates adaptive control technologies that optimize performance based on altitude and weight, ensuring superior operational efficiency. Enhanced materials and thermal barrier coatings contribute to improved durability and longevity, catering to the demands of varied operational environments.

Lastly, the JSP28 is designed with an emphasis on sustainability and the reduction of environmental impact. Its advanced blade materials and aerodynamic shapes contribute to reduced fuel consumption and lower CO2 emissions. The JSP28 engine features noise-reducing technologies that meet stringent regulatory requirements while enhancing passenger comfort. Furthermore, it is compatible with sustainable aviation fuels (SAFs), aligning with global initiatives aimed at fostering greener aviation practices.

In summary, the GE JSP34, JSP26, JSP31, and JSP28 engines represent significant advancements in aviation technology, each tailored to meet specific operational needs while achieving impressive performance metrics, fuel efficiency, and environmental sustainability. As the aviation industry continues to evolve, these engines embody the future of flight with their innovative characteristics and technologies.