Computational procedure reduces the numerical effort whenever the method of finite differences is used to solve ablation problems for which the surface recession is large relative to the initial slab thickness. The number of numerical operations required for a given maximum space mesh size is reduced
Nowadays there are high speed improvements in processors frequencies and processors amount on a sing...
Traditional numerical methods of solution of heat flow problems are subject to inaccuracies n...
Element-by-element solution strategies are developed for transient heat conduction problems. Results...
An exponential finite difference scheme first presented by Bhattacharya for one dimensional unsteady...
The finite difference method and finite element method for heat transfer calculations are compared b...
Computer program solves transient or steady-state heat flow problems through the concept of lumped p...
Computer program for solving both transient and steady-state heat transfer problems is presented. Sp...
An exponential finite difference algorithm, as first presented by Bhattacharya for one-dimensianal s...
Includes bibliographical references (page 40)This report analyzes problems that involve fluid-flow b...
Generalized method, including computer program, to solve problem of heat transfer and material respo...
Based on the concept of hierarchical parallelism, this research effort resulted in highly efficient ...
The one dimensional transient heat conduction equation was numerically modeled through matrix diagon...
Finite Difference (FD) Schemes have been a major contributors in numerical computations for variety ...
A numerical digital computer program was developed to calculate the heat-transfer coefficients for b...
A review of the classic techniques used to solve ablative thermal response problems is presented. Th...
Nowadays there are high speed improvements in processors frequencies and processors amount on a sing...
Traditional numerical methods of solution of heat flow problems are subject to inaccuracies n...
Element-by-element solution strategies are developed for transient heat conduction problems. Results...
An exponential finite difference scheme first presented by Bhattacharya for one dimensional unsteady...
The finite difference method and finite element method for heat transfer calculations are compared b...
Computer program solves transient or steady-state heat flow problems through the concept of lumped p...
Computer program for solving both transient and steady-state heat transfer problems is presented. Sp...
An exponential finite difference algorithm, as first presented by Bhattacharya for one-dimensianal s...
Includes bibliographical references (page 40)This report analyzes problems that involve fluid-flow b...
Generalized method, including computer program, to solve problem of heat transfer and material respo...
Based on the concept of hierarchical parallelism, this research effort resulted in highly efficient ...
The one dimensional transient heat conduction equation was numerically modeled through matrix diagon...
Finite Difference (FD) Schemes have been a major contributors in numerical computations for variety ...
A numerical digital computer program was developed to calculate the heat-transfer coefficients for b...
A review of the classic techniques used to solve ablative thermal response problems is presented. Th...
Nowadays there are high speed improvements in processors frequencies and processors amount on a sing...
Traditional numerical methods of solution of heat flow problems are subject to inaccuracies n...
Element-by-element solution strategies are developed for transient heat conduction problems. Results...