A three-dimensional solution-adaptive Euler flow solver for unstructured tetrahedral meshes is assessed, and the accuracy and efficiency of the method for predicting sonic boom pressure signatures about simple generic models are demonstrated. Comparison of computational and wind tunnel data and enhancement of numerical solutions by means of grid adaptivity are discussed. The mesh generation is based on the advancing front technique. The FELISA code consists of two solvers, the Taylor-Galerkin and the Runge-Kutta-Galerkin schemes, both of which are spacially discretized by the usual Galerkin weighted residual finite-element methods but with different explicit time-marching schemes to steady state. The solution-adaptive grid procedure is base...
A finite difference code was developed for modeling inviscid, unsteady supersonic flow by solution o...
The numerical solution of the two-dimensional inviscid Euler flow equations is given. The unstructur...
A two-dimensional numerical scheme for the compressible Euler equations is presented and applied her...
Spatial adaptation procedures for the accurate and efficient solution of steady and unsteady invisci...
The applicants have developed a finite element based approach for the solution of three-dimensional ...
Computational methods to solve large-scale realistic problems in fluid flow can be made more efficie...
Solution-adaptive CFD codes based on unstructured methods for 3-D complex geometries in subsonic to ...
Improved algorithms for the solution of the 3-D time dependent Euler equations are presented for aer...
International audienceA novel strategy to solve the finite volume discretization of the unsteady Eul...
The paper presents numerical results from a novel scheme for the solution of the flow equations in ...
This report describes the research work undertaken at the Massachusetts Institute of Technology. The...
An upwinding flux difference splitting method has been used to solve the Euler equations for compre...
New 2D and 3D unstructured-grid based flow solvers have been developed for simulating steady compres...
The advancing front technique is being used to develop a code to generate grids around complex 3-D c...
A dissertation submitted to the Faculty of Engineering, University of the Witwatersrand, Johannesbu...
A finite difference code was developed for modeling inviscid, unsteady supersonic flow by solution o...
The numerical solution of the two-dimensional inviscid Euler flow equations is given. The unstructur...
A two-dimensional numerical scheme for the compressible Euler equations is presented and applied her...
Spatial adaptation procedures for the accurate and efficient solution of steady and unsteady invisci...
The applicants have developed a finite element based approach for the solution of three-dimensional ...
Computational methods to solve large-scale realistic problems in fluid flow can be made more efficie...
Solution-adaptive CFD codes based on unstructured methods for 3-D complex geometries in subsonic to ...
Improved algorithms for the solution of the 3-D time dependent Euler equations are presented for aer...
International audienceA novel strategy to solve the finite volume discretization of the unsteady Eul...
The paper presents numerical results from a novel scheme for the solution of the flow equations in ...
This report describes the research work undertaken at the Massachusetts Institute of Technology. The...
An upwinding flux difference splitting method has been used to solve the Euler equations for compre...
New 2D and 3D unstructured-grid based flow solvers have been developed for simulating steady compres...
The advancing front technique is being used to develop a code to generate grids around complex 3-D c...
A dissertation submitted to the Faculty of Engineering, University of the Witwatersrand, Johannesbu...
A finite difference code was developed for modeling inviscid, unsteady supersonic flow by solution o...
The numerical solution of the two-dimensional inviscid Euler flow equations is given. The unstructur...
A two-dimensional numerical scheme for the compressible Euler equations is presented and applied her...