Handbook of numerical heat transfer
Abstract
A comprehensive presentation is given of virtually all numerical methods that are suitable for the analysis of the various heat transverse and fluid flow problems that occur in research, practice, and university instruction. After reviewing basic methodologies, the following topics are covered: finite difference and finite element methods for parabolic, elliptic, and hyperbolic systems; a comparative appraisal of finite difference versus finite element methods; integral and integrodifferential systems; perturbation methods; Monte Carlo methods; finite analytic methods; moving boundary problems; inverse problems; graphical display methods; grid generation methods; and programing methods for supercomputers.
 Publication:

New York
 Pub Date:
 1988
 Bibcode:
 1988wi...bookR....M
 Keywords:

 Computational Fluid Dynamics;
 Finite Difference Theory;
 Finite Element Method;
 Heat Transfer;
 Thermal Analysis;
 Grid Generation (Mathematics);
 Handbooks;
 Hyperbolic Differential Equations;
 Integral Equations;
 Monte Carlo Method;
 Parabolic Differential Equations;
 Perturbation Theory;
 Fluid Mechanics and Heat Transfer