John L. Whitesides scite author profile

A fully automated iterative design method has been developed by which an airfoil with a substantial amount of natural laminar flow can be designed, while maintaining other aerodynamic and geometric constraints. Drag reductions have been realized using the design method over a range of Mach numbers, Reynolds numbers and airfoil thicknesses. The thrusts of the method are its ability to calculate a target NFactor distribution that forces the flow to undergo transition at the desired location; the target-pressure-NFactor relationship that is used to reduce the N-Factors in order to prolong transition; and its ability to design airfoils to meet lift, pitching moment, thickness and leading-edge radius constraints while also being able to meet the natural laminar flow constraint. The method uses several existing CFD codes and can design a new airfoil in only a few days using a Silicon Graphics IRIS workstation.

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Suspension-Line Wave Motion during the Lines-First Parachute Unfurling Process

Poole

Whitesides²

1974

AIAA Journal

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Three-dimensional Euler solutions for long-duct nacelles

Compton

Whitesides

1983

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