A method is presented for determining the geometric input data required by the VORLAX computer program in order to accurately model an aircraft configuration. Techniques are described for modeling each of the major components of a configuration and for joining these individual components into a complete configuration. The effects of trailing vortex filaments and methods of avoiding their intersection with downstream panels are also discussed. The methods presented here are applicable to most conventional aircraft configurations
A method of developing an input data file for use in the aerodynamic analysis of a complete airplane...
The ability of the Vortex Separation AEROdynamics (VSAERO) program to calculate aerodynamic loads on...
An accurate and efficient method was developed for the aerodynamic analysis of a series of arbitrary...
A numerical technique is presented for modeling the vortex sheet with a deformable surface definitio...
A computer program developed to fit smooth surfaces to the component parts of three-dimensional airc...
An examination of the potential flow computer code VSAERO to model leading edge separation over a de...
A computer program based on the Quasi-Vortex-Lattice Method of Lan is presented for calculating long...
A computer code base on an improved vortex filament/vortex core method for predicting aerodynamic ch...
A user's guide to an improved version of Woodward's chord plane aerodynamic panel computer code is p...
Numerical procedures to compute gradients in aerodynamic loading due to planform shape changes using...
The close-approach problem associated with vortex-lattice methods was examined numerically with the ...
Numerical results illustrating the capabilities of an advanced aerodynamic surface paneling method a...
Experimental data show that the phenomenon of a separation induced leading edge vortex is influenced...
A comprehensive description of panel methods has been given to enable an understanding of the underl...
A user's manual is presented for a computer program in which a vortex-lattice lifting-surface method...
A method of developing an input data file for use in the aerodynamic analysis of a complete airplane...
The ability of the Vortex Separation AEROdynamics (VSAERO) program to calculate aerodynamic loads on...
An accurate and efficient method was developed for the aerodynamic analysis of a series of arbitrary...
A numerical technique is presented for modeling the vortex sheet with a deformable surface definitio...
A computer program developed to fit smooth surfaces to the component parts of three-dimensional airc...
An examination of the potential flow computer code VSAERO to model leading edge separation over a de...
A computer program based on the Quasi-Vortex-Lattice Method of Lan is presented for calculating long...
A computer code base on an improved vortex filament/vortex core method for predicting aerodynamic ch...
A user's guide to an improved version of Woodward's chord plane aerodynamic panel computer code is p...
Numerical procedures to compute gradients in aerodynamic loading due to planform shape changes using...
The close-approach problem associated with vortex-lattice methods was examined numerically with the ...
Numerical results illustrating the capabilities of an advanced aerodynamic surface paneling method a...
Experimental data show that the phenomenon of a separation induced leading edge vortex is influenced...
A comprehensive description of panel methods has been given to enable an understanding of the underl...
A user's manual is presented for a computer program in which a vortex-lattice lifting-surface method...
A method of developing an input data file for use in the aerodynamic analysis of a complete airplane...
The ability of the Vortex Separation AEROdynamics (VSAERO) program to calculate aerodynamic loads on...
An accurate and efficient method was developed for the aerodynamic analysis of a series of arbitrary...