A method for predicting aerodynamic characteristics of slender wings with edge vortex separation was developed. Semiempirical but simple methods were used to determine the initial positions of the free sheet and vortex core. Comparison with available data indicates that: the present method is generally accurate in predicting the lift and induced drag coefficients but the predicted pitching moment is too positive; the spanwise lifting pressure distributions estimated by the one vortex core solution of the present method are significantly better than the results of Mehrotra's method relative to the pressure peak values for the flat delta; the two vortex core system applied to the double delta and strake wing produce overall aerodynamic charac...
An attempt was made to model the so called leading edge vortex which forms over the leading edge of ...
Separation-induced leading-edge vortices can dominate the flow about slender wings at moderate to hi...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/83577/1/AIAA-2010-2707-714.pd
A vortex filament-vortex core method for predicting aerodynamic characteristics of slender wings wit...
The aerodynamic characteristics of wings with leading-edge vortex separation were predicted using a ...
A computer code base on an improved vortex filament/vortex core method for predicting aerodynamic ch...
A method of predicting forces, moments, and detailed surface pressures on thin, sharp-edged wings wi...
A numerical method is developed to predict distributed and total aerodynamic characteristics for low...
The aerodynamic characteristics of slender wings having separation induced vortex flows are investig...
The aerodynamic characteristics of highly sweptback wings having separation-induced vortex flow were...
The Boeing Commercial Airplane Company developed an inviscid three-dimensional lifting surface metho...
Three different numerical codes are employed to determine the aerodynamic characteristics of wings w...
The ability of the Vortex Separation AEROdynamics (VSAERO) program to calculate aerodynamic loads on...
A subsonic potential flow mathematical model of the flow past slender aerodynamic surfaces with shar...
A semiempirical method to predict vortex breakdown effects on aerodynamic characteristics of slender...
An attempt was made to model the so called leading edge vortex which forms over the leading edge of ...
Separation-induced leading-edge vortices can dominate the flow about slender wings at moderate to hi...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/83577/1/AIAA-2010-2707-714.pd
A vortex filament-vortex core method for predicting aerodynamic characteristics of slender wings wit...
The aerodynamic characteristics of wings with leading-edge vortex separation were predicted using a ...
A computer code base on an improved vortex filament/vortex core method for predicting aerodynamic ch...
A method of predicting forces, moments, and detailed surface pressures on thin, sharp-edged wings wi...
A numerical method is developed to predict distributed and total aerodynamic characteristics for low...
The aerodynamic characteristics of slender wings having separation induced vortex flows are investig...
The aerodynamic characteristics of highly sweptback wings having separation-induced vortex flow were...
The Boeing Commercial Airplane Company developed an inviscid three-dimensional lifting surface metho...
Three different numerical codes are employed to determine the aerodynamic characteristics of wings w...
The ability of the Vortex Separation AEROdynamics (VSAERO) program to calculate aerodynamic loads on...
A subsonic potential flow mathematical model of the flow past slender aerodynamic surfaces with shar...
A semiempirical method to predict vortex breakdown effects on aerodynamic characteristics of slender...
An attempt was made to model the so called leading edge vortex which forms over the leading edge of ...
Separation-induced leading-edge vortices can dominate the flow about slender wings at moderate to hi...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/83577/1/AIAA-2010-2707-714.pd