LIGHT MAINTENANCE MANUAL

TFE731-5/-5AR/-5R (ATA NUMBER 72-02-75)

2.F. (5) Restore engine to operational status.

(a)Remove protective cover (or tape) from inlet pressure and temperature sensor and starter/generator.

(b)Reverse blow compressed air (approximately 50 psig) through disconnected P3 tubes removed from fuel control P3 pressure limiter valve fitting.

(c)Remove cap, previously installed, from fuel control P3 pressure limiter valve fitting. Connect P3 tube to fuel control P3 pressure limiter valve fitting. (See Figure 301.)

(6)Perform dry-out procedure of engine immediately following compressor rinse and resto- ration of engine to operational status.

WARNING: AREAS IN PROXIMITY OF ENGINE INLET AND EXHAUST ARE EXTREMELY HAZARDOUS TO PERSONNEL WHEN ENGINES ARE OPERATING. PERSONNEL SHALL CLEAR THESE AREAS DURING ENGINE START AND OPERA- TION TO AVOID INJURY.

NOTE: Refer to Aircraft Maintenance Manual for any special instructions relative to dry-out procedure.

(a)Perform normal engine start in accordance with Aircraft Flight Manual and/or appropriate aircraft document.

(b)[5-1J]Operate engine at idle speed for approximately 10 minutes, then advance power to 80 percent N1 speed indication. Turn on anti-ice air. When ITT indica- tion rises, turn off anti-ice air.

(c)[5A, 5-1H]Operate engine at idle speed for approximately 10 minutes.

(d)Perform normal engine shutdown in accordance with Aircraft Flight Manual and/or appropriate aircraft document.

72-00-00 Page 309

Jan 31/00

E Honeywell International Inc. Do not copy without express permission of Honeywell.

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Honeywell TFE731-5-5AR -5R manual Light Maintenance Manual

TFE731-5-5AR -5R specifications

The Honeywell TFE731-5-5AR and TFE731-5R are advanced turbofan engines widely recognized for their performance and reliability in the business aviation sector. Offering a blend of efficiency and power, these engines are engineered to meet the demands of modern aircraft, contributing to fuel economy and reduced operational costs.

One of the main features of the TFE731-5-5AR engine is its high thrust-to-weight ratio. This allows for superior climb performance and overall aircraft agility, essential for competitive operations. The engine produces a thrust rating of up to 4,500 pounds, making it suitable for a variety of business jets. The TFE731-5R version offers similar performance but with modifications tailored to specific aircraft requirements.

Technologically, the TFE731 engines incorporate advanced materials and manufacturing techniques that enhance durability while minimizing maintenance needs. Their design includes a fan system with swept blades, which improves aerodynamic efficiency, resulting in lower specific fuel consumption. This focus on modern aerodynamics translates into significant operational savings over the engine's lifecycle.

Another notable characteristic of the TFE731-5-5AR is its quiet operation. Designed with noise reduction technologies, these engines comply with the strict noise regulations present in many urban environments, making them a popular choice for operators who prioritize environmental compliance. The TFE731-5 series has also received certifications that affirm its low emissions, aligning with global initiatives to reduce the aviation industry's environmental impact.

In terms of reliability, the TFE731 engine family is renowned for its robust performance under varying operational conditions. A proven track record of dependability ensures that operators can complete missions with confidence, minimizing downtime and maintenance costs. The engine features a modular design, which simplifies repairs and maintenance, allowing for quicker turnarounds and increased aircraft availability.

Overall, the Honeywell TFE731-5-5AR and TFE731-5R engines represent a pinnacle of innovation in turbofan technology, combining power, efficiency, and reliability. With their state-of-the-art features, advanced materials, and commitment to environmental responsibility, they continue to be a top choice for business jet operators around the globe. As the aviation industry evolves, these engines set a benchmark for performance and sustainability in the world of private aviation.