An analytical procedure based on the Navier-Stokes equations was developed for analyzing and representing properties of unsteady viscous flow around oscillating obstacles. A variational formulation of the vorticity transport equation was discretized in finite element form and integrated numerically. At each time step of the numerical integration, the velocity field around the obstacle was determined for the instantaneous vorticity distribution from the finite element solution of Poisson's equation. The time-dependent boundary conditions around the oscillating obstacle were introduced as external constraints, using the Lagrangian Multiplier Technique, at each time step of the numerical integration. The procedure was then applied for determin...
The design and usage of a pilot program for calculating the pressure distributions over harmonically...
A weak interaction solution algorithm was established for aerodynamic flow about an isolated airfoil...
A numerical method is developed for computing periodic, three-dimensional, vortical flows around iso...
A general computational method for analyzing unsteady flow around pitching and plunging airfoils was...
A compressible, unsteady, full Navier-Stokes, finite difference code was developed for modeling tran...
Two methods are described for calculating unsteady flows over rapidly pitching airfoils. The first m...
A compressible time-dependent procedure for the two-dimensional ensemble averaged Navier-Stokes equa...
A finite-difference solution to the Navier-Stokes equations combined with a time-varying grid-genera...
A finite difference solution code for the two dimensional Navier-Stokes equations was combined with ...
A finite element method for the computation of the transonic flow with shocks past airfoils is prese...
A full Navier-Stokes solver has been used to model transonic flow over three airfoil sections. The m...
Results are presented for computations of unsteady viscous transonic flows past a stationary NACA001...
A finite difference code was developed for modeling inviscid, unsteady supersonic flow by solution o...
A procedure is presented for obtaining the pressure distribution on an arbitrary airfoil section in ...
A method is described for calculating unsteady transonic flow with viscous interaction by coupling a...
The design and usage of a pilot program for calculating the pressure distributions over harmonically...
A weak interaction solution algorithm was established for aerodynamic flow about an isolated airfoil...
A numerical method is developed for computing periodic, three-dimensional, vortical flows around iso...
A general computational method for analyzing unsteady flow around pitching and plunging airfoils was...
A compressible, unsteady, full Navier-Stokes, finite difference code was developed for modeling tran...
Two methods are described for calculating unsteady flows over rapidly pitching airfoils. The first m...
A compressible time-dependent procedure for the two-dimensional ensemble averaged Navier-Stokes equa...
A finite-difference solution to the Navier-Stokes equations combined with a time-varying grid-genera...
A finite difference solution code for the two dimensional Navier-Stokes equations was combined with ...
A finite element method for the computation of the transonic flow with shocks past airfoils is prese...
A full Navier-Stokes solver has been used to model transonic flow over three airfoil sections. The m...
Results are presented for computations of unsteady viscous transonic flows past a stationary NACA001...
A finite difference code was developed for modeling inviscid, unsteady supersonic flow by solution o...
A procedure is presented for obtaining the pressure distribution on an arbitrary airfoil section in ...
A method is described for calculating unsteady transonic flow with viscous interaction by coupling a...
The design and usage of a pilot program for calculating the pressure distributions over harmonically...
A weak interaction solution algorithm was established for aerodynamic flow about an isolated airfoil...
A numerical method is developed for computing periodic, three-dimensional, vortical flows around iso...