Description

Book Synopsis
This book, which is published in two volumes, studies heat transfer problems by modern numerical methods. Basic mathematical models of heat transfer are considered. The main approaches, to the analysis of the models by traditional means of applied mathematics are described. Numerical methods for the approximate solution of steady- and unsteady state heat conduction problems are discussed. Investigation of difference schemes is based on the general stability theory. Much emphasis is put on problems in which phase transitions are involved and on heat and mass transfer problems. Problems of controlling and optimizing heat processes are discussed in detail. These processes are described by partial differential equations, and the main approaches to numerical solution of the optimal control problems involved here are discussed. Aspects of numerical solution of inverse heat exchange problems are considered. Much attention is paid to the most important applied problems of identifying coefficie

Table of Contents
Radiative Heat Exchange.

Convective Heat Exchange.

Problems of Thermoelasticity.

Problems of Control Over Heat Processes.

Inverse Problems of Heat Exchange.

Examples of Numerical Modelling for Thermophysical Processes.

Appendix.

Index.

Computational Heat Transfer Volume 2

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    A Hardback by A. A. Samarskii, P. N. Vabishchevich

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      Publisher: John Wiley & Sons Inc
      Publication Date: 09/10/1995
      ISBN13: 9780471956600, 978-0471956600
      ISBN10: 0471956600
      Also in:
      Engineering thermodynamics Engines and power transmission Mechanical engineering and materials

      Description

      Book Synopsis
      This book, which is published in two volumes, studies heat transfer problems by modern numerical methods. Basic mathematical models of heat transfer are considered. The main approaches, to the analysis of the models by traditional means of applied mathematics are described. Numerical methods for the approximate solution of steady- and unsteady state heat conduction problems are discussed. Investigation of difference schemes is based on the general stability theory. Much emphasis is put on problems in which phase transitions are involved and on heat and mass transfer problems. Problems of controlling and optimizing heat processes are discussed in detail. These processes are described by partial differential equations, and the main approaches to numerical solution of the optimal control problems involved here are discussed. Aspects of numerical solution of inverse heat exchange problems are considered. Much attention is paid to the most important applied problems of identifying coefficie

      Table of Contents
      Radiative Heat Exchange.

      Convective Heat Exchange.

      Problems of Thermoelasticity.

      Problems of Control Over Heat Processes.

      Inverse Problems of Heat Exchange.

      Examples of Numerical Modelling for Thermophysical Processes.

      Appendix.

      Index.

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