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Dynamic Modeling of Transport Process Systems

✍ Scribed by C. A. Silebi and William E. Schiesser (Auth.)

Publisher
Elsevier Science
Year
1992
Tongue
English
Leaves
523
Category
Library
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✦ Synopsis

This book presents a methodology for the development and computer implementation of dynamic models for transport process systems. Rather than developing the general equations of transport phenomena, it develops the equations required specifically for each new example application. These equations are generally of two types: ordinary differential equations (ODEs) and partial differential equations (PDEs) for which Read more...

✦ Table of Contents

Content:
Front Matter, Page iii
Copyright, Page iv
Dedication, Page v
Preface, Pages xi-xiii
1 - The Nature of Dynamic Systems, Pages 1-12
2 - Basic Concepts in the Numerical Integration of Ordinary Differential Equations, Pages 13-31
3 - Accuracy in the Numerical Integration of Ordinary Differential Equations, Pages 32-58
4 - Stability in the Numerical Integration of Ordinary Differential Equations, Pages 59-94
5 - Systems Modeled by Ordinary Differential Equations, Pages 95-183
6 - Systems Modeled by First Order Partial Differential Equations, Pages 184-323
7 - Systems Modeled by Second Order Partial Differential Equations, Pages 324-397
8 - Systems Modeled by First/Second Order, Multidimensional and Multidomain Partial Differential Equations, Pages 398-461
APPENDIX 1 - Integrator INT1, Pages 463-465
APPENDIX 2a - Main Program DSS2S, Pages 466-474
APPENDIX 2b - Subroutine INTEG Called by Main Program DSS2S, Pages 475-480
APPENDIX 3 - Integrator INT8, Pages 481-483
APPENDIX 4 - Integrator INT15, Pages 484-487
APPENDIX 5 - Integrator INTM15, Pages 488-491
APPENDIX 6 - Main Program to Call Subroutine LSODE, Pages 492-496
APPENDIX 7 - Main Program to Call Subroutine DASSL, Pages 497-500
APPENDIX 8 - Library of ODE and PDE Applications, Pages 501-505
APPENDIX 9 - Spatial Differentiation Routines, Pages 506-508
Index, Pages 509-518

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