A self-adaptive grid procedure for efficient computation of three-dimensional complex flow fields is described. The method is based on variational principles to minimize the energy of a spring system analogy which redistributes the grid points. Grid control parameters are determined by specifying maximum and minimum grid spacing. Multidirectional adaptation is achieved by splitting the procedure into a sequence of successive applications of a unidirectional adaptation. One-sided, two-directional constraints for orthogonality and smoothness are used to enhance the efficiency of the method. Feasibility of the scheme is demonstrated by application to a multinozzle, afterbody, plume flow field. Application of the algorithm for initial grid gene...
A study has been conducted to investigate the adaptive grid method, based on the concept of equidist...
A further investigation has been conducted for a previously proposed multiple one-dimensional adapti...
This paper describes adaptive grid methods developed specifically for compressible flow computations...
A directional-split, modular, user-friendly grid point distribution code is applied to several test ...
A practical solution, adaptive-grid method utilizing a tension and torsion spring analogy is propose...
The multidimensional self-adaptive grid code, SAGE, has proven to be a flexible and useful tool in t...
An algebraic adaptive grid scheme based on the concept of arc equidistribution is presented. The sch...
The formulation of the Self-Adaptive Grid Evolution (SAGE) code, based on the work of Nakahashi and ...
This report describes a numerical method for generating 3-D grids for general configurations. The ba...
This new report on Version 2 of the SAGE code includes all the information in the original publicati...
An unstructured grid adaptation technique has been developed and successfully applied to several thr...
An algebraic adaptive grid system based on equidistribution law and utilized by the Non-Uniform Rati...
AbstractThe construction of two- and three-dimensional computational grids using linear variational ...
Rapid access to highly accurate data about complex configurations is needed for multi-disciplinary o...
An efficient means of adaptive refinement within systems of overset grids is presented. Problem doma...
A study has been conducted to investigate the adaptive grid method, based on the concept of equidist...
A further investigation has been conducted for a previously proposed multiple one-dimensional adapti...
This paper describes adaptive grid methods developed specifically for compressible flow computations...
A directional-split, modular, user-friendly grid point distribution code is applied to several test ...
A practical solution, adaptive-grid method utilizing a tension and torsion spring analogy is propose...
The multidimensional self-adaptive grid code, SAGE, has proven to be a flexible and useful tool in t...
An algebraic adaptive grid scheme based on the concept of arc equidistribution is presented. The sch...
The formulation of the Self-Adaptive Grid Evolution (SAGE) code, based on the work of Nakahashi and ...
This report describes a numerical method for generating 3-D grids for general configurations. The ba...
This new report on Version 2 of the SAGE code includes all the information in the original publicati...
An unstructured grid adaptation technique has been developed and successfully applied to several thr...
An algebraic adaptive grid system based on equidistribution law and utilized by the Non-Uniform Rati...
AbstractThe construction of two- and three-dimensional computational grids using linear variational ...
Rapid access to highly accurate data about complex configurations is needed for multi-disciplinary o...
An efficient means of adaptive refinement within systems of overset grids is presented. Problem doma...
A study has been conducted to investigate the adaptive grid method, based on the concept of equidist...
A further investigation has been conducted for a previously proposed multiple one-dimensional adapti...
This paper describes adaptive grid methods developed specifically for compressible flow computations...