Cover for Damped Wave Transport and Relaxation

Damped Wave Transport and Relaxation

Book2005

Author:

Kal Renganathan Sharma

Damped Wave Transport and Relaxation

Book2005

 

Cover for Damped Wave Transport and Relaxation

Author:

Kal Renganathan Sharma

About the book

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Book description

Transient problems in transport phenomena have a variety of applications, ranging from drug delivery systems in chemotherapy in bioengineering to heat transfer to surfaces in fluid ... read full description

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  2. Book chapterAbstract only

    1.0 - The Damped Wave Conduction and Relaxation Equation

    Pages 1-45

  3. Book chapterAbstract only

    2.0 - Transient Heat Conduction and Relaxation

    Pages 46-145

  4. Book chapterAbstract only

    3.0 - Transient Mass Diffusion and Relaxation

    Pages 146-221

  5. Book chapterAbstract only

    4.0 - Transient Momentum Transfer and Relaxation

    Pages 222-303

  6. Book chapterAbstract only

    5.0 - Applications

    Pages 304-385

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    Sources, References and Further Reading

    Pages 386-412

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    Appendix A - Bessel's Differential Equation

    Pages 413-419

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    Appendix B - Inverse of Laplace Transforms

    Pages 420-423

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    Appendix C - Equation of Continuity and Equation of Motion and Equation for Temperature and Equation for Concentration in Cartesian, Cylindrical and Spherical Coordinates

    Pages 424-430

  11. Book chapterNo access

    Subject Index

    Pages 435-443

About the book

Description

Transient problems in transport phenomena have a variety of applications, ranging from drug delivery systems in chemotherapy in bioengineering to heat transfer to surfaces in fluidized bed combustion (FBC) boilers in mechanical engineering. However, the attention given to transient problems is disproportionate with its occurrence in the industry. Damped Wave Transport and Relaxation looks at transient problems in heat, mass and momentum transfer: including non-Fourier effects of conduction and relaxation; non-Fick effects of mass diffusion and relaxation; and non-Newtonian effects of viscous momentum transfer and relaxation. The author also reviews applications to current problems of interest and uses worked examples and illustrations to describe the manifestations of using generalized transport equations. This book is intended for graduate students in transport phenomena and is an ideal reference source for industrial engineers.

Transient problems in transport phenomena have a variety of applications, ranging from drug delivery systems in chemotherapy in bioengineering to heat transfer to surfaces in fluidized bed combustion (FBC) boilers in mechanical engineering. However, the attention given to transient problems is disproportionate with its occurrence in the industry. Damped Wave Transport and Relaxation looks at transient problems in heat, mass and momentum transfer: including non-Fourier effects of conduction and relaxation; non-Fick effects of mass diffusion and relaxation; and non-Newtonian effects of viscous momentum transfer and relaxation. The author also reviews applications to current problems of interest and uses worked examples and illustrations to describe the manifestations of using generalized transport equations. This book is intended for graduate students in transport phenomena and is an ideal reference source for industrial engineers.

Key Features

* Provides a connection with molecular phenomena * Separate sections are devoted to heat, mass and momentum transfer * Includes exercises and examples of applications

* Provides a connection with molecular phenomena * Separate sections are devoted to heat, mass and momentum transfer * Includes exercises and examples of applications

Details

ISBN

978-0-444-51943-6

Language

English

Published

2005

Copyright

Copyright © 2005 Elsevier B.V. All rights reserved

Imprint

Elsevier Science

Authors

Kal Renganathan Sharma

Professor, School of Chemical and Biotechnology Shanmugha Arts, Science, Technology & Research Academy SASTRA Deemed University, Thanjavur, India