Challenges in modeling the X-29A flight test performanceThe paper presents the methods, instrumentation, and difficulties associated with drag measurement of the X-29A aircraft. The initial performance objective of the X-29A program emphasized drag polar shapes rather than absolute drag levels. Priorities during the flight envelope expansion restricted the evaluation of aircraft performance. Changes in aircraft configuration, uncertainties in angle-of-attack calibration, and limitations in instrumentation complicated the analysis. Limited engine instrumentation with uncertainties in overall in-flight thrust accuracy made it difficult to obtain reliable values of coefficient of parasite drag. The aircraft was incapable of tracking the automatic camber control trim schedule for optimum wing flaperon deflection during typical dynamic performance maneuvers; this has also complicated the drag polar shape modeling. The X-29A was far enough off the schedule that the developed trim drag correction procedure has proven inadequate. Despite these obstacles, good drag polar shapes have been developed throughout the flight envelope. Preliminary flight results have compared well with wind tunnel predictions. A more comprehensive analysis must be done to complete the performance models. The detailed flight performance program with a calibrated engine will benefit from the experience gained during this preliminary performance phase.
Document ID
19870035128
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Hicks, John W. (NASA Flight Research Center Edwards, CA, United States)
Kania, Jan (USAF, Flight Test Center Edwards AFB, CA, United States)
Pearce, Robert (NASA Flight Research Center Edwards, CA, United States)
Mills, Glen (Grumman Aerospace Corp. Edwards, CA, United States)