A numerical technique is presented for modeling the vortex sheet with a deformable surface definition, along which a continuous vortex strength distribution in the spanwise direction is applied, so that by repeatedly modifying its shape, its true configuration is approached, in the proximity of its generating wing. Design problems requiring the inclusion of a realistic configuration of the vortex sheet are numerous. Examples discussed include: control effectiveness and stability derivatives, longitudinal stability, lateral stability, canards, propellers and helicopter rotors, and trailing vortex hazards
Three different numerical codes are employed to determine the aerodynamic characteristics of wings w...
The aerodynamic characteristics of highly sweptback wings having separation-induced vortex flow were...
A fully three-dimensional subsonic panel method that can handle arbitrary shed vortex wakes is used ...
A method to predict the shape of the vortex sheet in the vicinity of its generating lifting surface ...
The self induced evolution of a vortex sheet was simulated by modeling the sheet using an integratio...
A numerical lifting surface formulation, including computed results for planar wing cases is present...
A method is presented for determining the geometric input data required by the VORLAX computer progr...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/77273/1/AIAA-1992-409-534.pd
Simplified models of the vortex distribution over cylindrical surfaces are developed. The effect of ...
A method of predicting forces, moments, and detailed surface pressures on thin, sharp-edged wings wi...
We investigate the behavior of vortex flows in the presence of obstacles using numerical simulations...
The low speed lateral/directional characteristics of a generic 74 degree delta wing body configurati...
The close-approach problem associated with flow calculation methods based on vortex-lattice theory w...
The rolling up of the trailing vortex sheet produced by a wing of finite span was calculated as a se...
A method for calculating the self-induced motion of a vortex sheet using discrete vortex elements is...
Three different numerical codes are employed to determine the aerodynamic characteristics of wings w...
The aerodynamic characteristics of highly sweptback wings having separation-induced vortex flow were...
A fully three-dimensional subsonic panel method that can handle arbitrary shed vortex wakes is used ...
A method to predict the shape of the vortex sheet in the vicinity of its generating lifting surface ...
The self induced evolution of a vortex sheet was simulated by modeling the sheet using an integratio...
A numerical lifting surface formulation, including computed results for planar wing cases is present...
A method is presented for determining the geometric input data required by the VORLAX computer progr...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/77273/1/AIAA-1992-409-534.pd
Simplified models of the vortex distribution over cylindrical surfaces are developed. The effect of ...
A method of predicting forces, moments, and detailed surface pressures on thin, sharp-edged wings wi...
We investigate the behavior of vortex flows in the presence of obstacles using numerical simulations...
The low speed lateral/directional characteristics of a generic 74 degree delta wing body configurati...
The close-approach problem associated with flow calculation methods based on vortex-lattice theory w...
The rolling up of the trailing vortex sheet produced by a wing of finite span was calculated as a se...
A method for calculating the self-induced motion of a vortex sheet using discrete vortex elements is...
Three different numerical codes are employed to determine the aerodynamic characteristics of wings w...
The aerodynamic characteristics of highly sweptback wings having separation-induced vortex flow were...
A fully three-dimensional subsonic panel method that can handle arbitrary shed vortex wakes is used ...