Dynamic Modeling of Transport Process Systems

Author: Silebi   C. A.;Schiesser   William E.  

Publisher: Elsevier Science‎

Publication year: 2012

E-ISBN: 9780080925820

P-ISBN(Paperback): 9780126434200

P-ISBN(Hardback):  9780126434200

Subject: TQ021 basic theory

Language: ENG

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Description

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 time is an independent variable. The computer-based methodology presented is general purpose and can be applied to most applications requiring the numerical integration of initial-value ODEs/PDEs. A set of approximately two hundred applications of ODEs and PDEs developed by the authors are listed in Appendix 8.

Chapter

Front Cover

pp.:  1 – 4

Dynamic Modeling of Transport Process Systems

pp.:  4 – 5

Copyright Page

pp.:  5 – 8

Table of Contents

pp.:  8 – 12

Preface

pp.:  12 – 16

Chapter 1. The Nature of Dynamic Systems

pp.:  16 – 28

Chapter 2. Basic Concepts in the Numerical Integration of Ordinary Differential Equations

pp.:  28 – 47

Chapter 3. Accuracy in the Numerical Integration of Ordinary Differential Equations

pp.:  47 – 74

Chapter 4. Stability in the Numerical Integration of Ordinary Differential Equations

pp.:  74 – 110

Chapter 5. Systems Modeled by Ordinary Differential Equations

pp.:  110 – 199

Chapter 6. Systems Modeled by First Order Partial Differential Equations

pp.:  199 – 339

Chapter 7. Systems Modeled by Second Order Partial Differential Equations

pp.:  339 – 413

Chapter 8. Systems Modeled by First/Second Order, Multidimensional and Multidomain Partial Differential Equations

pp.:  413 – 478

Appendix 1: Integrator INT1

pp.:  478 – 481

Appendix 2a: Main Program DSS2S

pp.:  481 – 490

Appendix 2b: Interface Routine INTEG

pp.:  490 – 496

Appendix 3: Integrator INT8

pp.:  496 – 499

Appendix 4: Integrator INT15

pp.:  499 – 503

Appendix 5: Integrator INTM15

pp.:  503 – 507

Appendix 6: Main Program to Call Subroutine LSODE

pp.:  507 – 512

Appendix 7: Main Program to Call Subroutine DASSL

pp.:  512 – 516

Appendix 8: Library of ODE and PDE Applications

pp.:  516 – 521

Appendix 9: Spatial Differentiation Routines

pp.:  521 – 524

Index

pp.:  524 – 534

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