Useandbre Guide

Built-in Oven

Safety instructions

3, 4

 

 

 

Operating

Instructions,

Tips

Aluminum

Foil

4, 19, 23, 28

Convection

 

 

11-17

Baking

 

 

 

12

Roasting

 

 

 

15-17

Special Roasting Rack

. . . . . .

. . . . . . . . 15

Timed

 

Baking

13,

14

Features

 

 

5

Oven

 

 

 

17-29

Baking

 

 

 

17-19

Broiling,

Broiling Guide

,.............27 -29

Control Panel

 

6-8

Clock and Timer

7, 8

Light; Bulb Replacement

10, 36

Multi-Shelf

Baking

12

Offset Shelf

 

9, 12, 16

Preheating

 

 

18

Probe

. . . . . .

. . . . . . . . . . . . . . . . . . .

. . . . . . . .

. . . 16, 24, 25

Roasting, Roasting Guide

23, 26

Roasting with the Probe

24, 25

Self-Cleaning

instructions

30-33

Shelves

9, 10, 12, 15, 16, 18, 30,34

Timed Baking

 

,2O, 21

 

 

 

 

 

Problem So[ver.........,,37,,,,.,..,,37, 38

Thermostat Adjustment–

Do It Yourself ,,.....,,..22

More questions ?...call

GE Answer Centerm 800.626.2000

Care and Cleaning

34-36

Broiler Pan and Grid

34

Oven Door

3 5

Oven Shelves

34

Self-Cleaning Instructions

30-33

Probe

36

Consumer Services

39

Important Phone Numbers

39

Appliance Registration

2

Model and Serial No. Location

...................2

Removal of Packaging Tape

2

Warranty

,,,..,,.......Back Cover

 

Models: JTP54

 

JTP55

GE Appliances

JTP56

 

 

164D2966P087

Page 1
Image 1
GE JTP55, JTP54, 164D2966P087 warranty Useandbre Guide

164D2966P087, JTP55, JTP54 specifications

The GE JTP54 and JTP55 series, with associated part number 164D2966P087, are notable offerings in the realm of jet engine technology, specifically designed for use in various commercial aircraft. These engines exhibit a combination of advanced engineering and reliable performance, making them a popular choice among aircraft manufacturers.

One of the key features of the JTP54 and JTP55 engines is their high-bypass turbofan design, which promotes fuel efficiency while delivering optimal thrust. This turbofan architecture allows for a greater percentage of airflow to bypass the combustion engine core, resulting in reduced fuel consumption and lower emissions. The engines are well-suited for long-haul flights, where fuel efficiency is critical to operating costs.

The JTP54 and JTP55 models leverage a range of advanced materials and technologies to enhance durability and performance. The compressor sections utilize composite fan blades made from lightweight materials, which contribute to improved aerodynamic efficiency. High-temperature super alloys in the turbine sections provide superior resistance to thermal fatigue, allowing the engine to operate effectively under high-stress conditions.

Another notable characteristic of the JTP54 and JTP55 engines is their noise reduction technologies. The application of chevrons on the engine nacelles and the use of advanced acoustic liners minimize the noise generated during operation, making these engines compliant with stringent noise regulations set by aviation authorities. This focus on quiet operation enhances passenger comfort, especially on short-range flights and takeoffs or landings in urban areas.

Connectivity and diagnostic capabilities are also integral to the JTP series. Integrated health management systems monitor engine performance in real time, enabling predictive maintenance strategies that can significantly reduce downtime. This technology allows operators to anticipate potential issues before they become critical, ensuring flight safety and enhancing overall operational efficiency.

In conclusion, the GE JTP54, JTP55, and 164D2966P087 engines epitomize advanced aerospace engineering with their high-bypass turbofan design, utilization of cutting-edge materials, emphasis on noise reduction, and incorporation of smart technologies. These features not only improve operational performance and fuel efficiency but also contribute to a more sustainable and comfortable flying experience. For airlines and operators, choosing the JTP series means investing in a technology that aligns with modern aviation demands for safety, performance, and environmental responsibility.