Numerical algorithms and solutions of generalized nonlinear lifting-line theory over an elliptical wing are examined, with emphasis on near/poststall flows. First, a thorough analysis on the circulation-based and angle-of-attack-based correction methods ( and methods, respectively) highlights their respective numerical poststall characteristics. The stability of the method is demonstrated, producing single and multiple solutions in the pre- and poststall regions, respectively. Second, artificial dissipation added to the method is shown to be an effective means of controlling the poststall flow region. Finally, a strongly coupled algorithm is presented, allowing to bypass the interpolation phase via the use of Legendre polynomials. The model sheds light on poststall flow behavior, in agreement with several papers studying formation of stall cell patterns.
Nonlinear Generalized Lifting-Line Coupling Algorithms for Pre/Poststall Flows
AIAA Journal ; 53 , 7 ; 1784-1792
2015-07-01
Conference paper , Article (Journal)
Electronic Resource
English
Nonlinear Generalized Lifting-Line Coupling Algorithms for Pre/Poststall Flows
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