Factors Affecting Inlet-Engine Compatibility During Aircraft Departures at High Angle of Attack for an F/A-18A Aircraft

Steenken, W. G. and Williams, J. G. and Yuhas, A. J. and Walsh, K. R. (1999) Factors Affecting Inlet-Engine Compatibility During Aircraft Departures at High Angle of Attack for an F/A-18A Aircraft. Technical Report NASA/TM-1999-206572, Research Engineering, NASA Dryden Flight Research Center.

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Abstract

The F404-GE-400 engine powered F/A-18A High Alpha Research Vehicle (HARV) was used to examine the quality of inlet airflow during departed flight maneuvers, that is, during flight outside the normal maneuvering envelope where control surfaces have little or no effectiveness. A series of six nose-left and six nose-right departures were initiated at Mach numbers between 0.3 and 0.4 at an altitude of 35 kft. The yaw rates at departure recovery were in the range of 40 to 90 degrees per second. Engine surges were encountered during three of the nose-left and one of the nose-right departures. Time-variant inlet-total-pressure distortion levels at the engine face were determined to not significantly exceed those measured at maximum angle-of-attack and -sideslip maneuvers during controlled flight. Surges as a result of inlet distortion levels were anticipated to initiate in the fan. Analysis revealed that the surges initiated in the compressor and were the result of a combination of high levels of inlet distortion and rapid changes in aircraft motion. These rapid changes in aircraft motion are indicative of a combination of engine mount and gyroscopic loads being applied to the engine structure that impact the aerodynamic stability of the compressor through changes in the rotor-to-case clearances.

EPrint Type:	NASA Technical Memorandum
Keywords:	Aircraft departures, F-18 aircraft, F/A-18A, High angle of attack, Inlet distortion, Inlet-engine compatibility
Subjects:	(01 - 09) Aeronautics: (07) Aircraft Propulsion And Power
ID Code:	999
Deposited On:	28 June 2006
Additional Information:	200 pages. W. G. Steenken and J. G. Williams, GE Aircraft Engines, Cincinnati, Ohio; A. J. Yuhas, Analytical Services and Materials, Inc., Edwards, California; and K. R. Walsh, Dryden Flight Research Center, Edwards, California. NASA Contract NAS3-26617.