Author: National Aeronautics and Space Adm Nasa

Publisher: Independently Published

Published: 2018-11-17

Total Pages: 132

ISBN-13: 9781731261991

Various drag accounts for about half of the total drag on commercial aircraft at subsonic cruise conditions. Two avenues are available to achieve drag reduction: either laminar flow control or turbulence manipulation. The present research deals with the latter approach. The primary objective of Phase 2 research was to investigate experimentally the feasibility of substantially reducing the skin-friction drag in a turbulent boundary layer. The method combines the beneficial effects of suction and a longitudinally ribbed surface. At a sufficiently large spanwise separation, the streamwise grooves act as a nucleation site causing a focusing of low-speed streaks over the peaks. Suction is then applied intermittently through longitudinal slots located at selected locations along those peaks to obliterate the low-speed regions and to prevent bursting. Phase 2 research was divided into two tasks. In the first, selective suction from a single streamwise slot was used to eliminate either a single burst-like event or a periodic train of artificially generated bursts in laminar and turbulent boundary layers that develop on a flat plate towed in a water channel. The results indicate that equivalent values of the suction coefficient as low as 0.0006 were sufficient to eliminate the artificially generated bursts in a laminar boundary layer. Gad-El-hak, Mohamed Unspecified Center BOUNDARY LAYER CONTROL; CRUISING FLIGHT; DRAG REDUCTION; SKIN FRICTION; TURBULENT BOUNDARY LAYER; LAMINAR BOUNDARY LAYER; SUBSONIC SPEED; SUCTION; THICKNESS; WIND TUNNEL TESTS...