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Longitudinal Aerodynamic Characteristics of a Four-Propeller Deflected Slipstream VTOL Model Including the Effects of Ground Proximity

Published 2019-08-15 From Headquarters 2 authors

Attribution

This is the abstract and citation. Full text lives at NASA NTRS — we link out rather than host. All credit to the authors and Headquarters.

Abstract

Verbatim from NASA NTRS. Not paraphrased, not summarized.

Results are presented of a wind-tunnel investigation of the longitudinal stability, control, and performance characteristics of a model of a four-propeller deflected-slipstream VTOL airplane in the transition speed range. These results indicate that steady level-flight transition and descending flight-path angles up to 7 or 8 deg. out of the region of ground effect can be accomplished without wing stall being encountered. In general, the pitching moments out of ground proximity can be adequately trimmed by programming the stabilizer incidence to increase with increasing flap deflection, except for a relatively large diving moment in the hovering condition. The deflection of the slipstream onto the horizontal tail in proximity of the ground substantially increases the diving moment in hovering, unless the tail is set at a large nosedown incidence.

Authors

  • Kuhn, Richard E. NASA Langley Research Center
  • Grunwald, Kalman J. NASA Langley Research Center

Citation: Kuhn, Richard E., Grunwald, Kalman J. (2019). Longitudinal Aerodynamic Characteristics of a Four-Propeller Deflected Slipstream VTOL Model Including the Effects of Ground Proximity. Headquarters. NASA NTRS ID 19980227804. https://ntrs.nasa.gov/citations/19980227804 ↗