Modelling in Transport Phenomena

Author: Tosun   Ismail  

Publisher: Elsevier Science‎

Publication year: 2002

E-ISBN: 9780080511856

P-ISBN(Paperback): 9780444510525

P-ISBN(Hardback):  9780444510525

Subject: TQ022 material conveying process

Language: ENG

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Description

Modelling in Transport Phenomena: A Conceptual Approach aims to show students how to translate the inventory rate equation into mathematical terms at both the macroscopic and microscopic levels. The emphasis is on obtaining the equation representing a physical phenomenon and its interpretation.
The book begins with a discussion of basic concepts and their characteristics. It then explains the terms appearing in the inventory rate equation, including ""rate of input"" and ""rate of output."" The rate of generation in transport of mass, momentum, and energy is also described. Subsequent chapters detail the application of inventory rate equations at the macroscopic and microscopic levels.
This book is intended as an undergraduate textbook for an introductory Transport Phenomena course in the junior year. It can also be used in unit operations courses in conjunction with standard textbooks. Although it is written for students majoring in chemical engineering, it can also serve as a reference or supplementary text in environmental, mechanical, petroleum, and civil engineering courses.

Chapter

Front Cover

pp.:  1 – 4

Modelling in Transport Phenomena: A Conceptual Approach

pp.:  4 – 5

Copyright Page

pp.:  5 – 12

Preface

pp.:  8 – 18

Contents

pp.:  12 – 8

Chapter 1. Introduction

pp.:  18 – 32

Chapter 2. Molecular and Convective Transport

pp.:  32 – 58

Chapter 3. Interphase Transport and Transfer Coefficients

pp.:  58 – 82

Chapter 4. Evaluation of Transfer Coefficients: Engineering Correlations

pp.:  82 – 150

Chapter 5. Rate of Generation in Momentum, Energy and Mass Transfer

pp.:  150 – 166

Chapter 6. Steady-State Macroscopic Balances

pp.:  166 – 198

Chapter 7. Unsteady-State Macroscopic Balances

pp.:  198 – 254

Chapter 8. Steady-State Microscopic Balances Without Generation

pp.:  254 – 342

Chapter 9. Steady-State Microscopic Balances With Generation

pp.:  342 – 446

Chapter 10. Unsteady-State Microscopic Balances Without Generation

pp.:  446 – 490

Chapter 11. Unsteady-State Microscopic Balances With Generation

pp.:  490 – 508

Chapter A. Mathematical Preliminaries

pp.:  508 – 548

Chapter B. Solutions of Differential Equations

pp.:  548 – 584

Chapter C. Flux Expressions

pp.:  584 – 592

Chapter D. Physical Properties

pp.:  592 – 600

Chapter E. Constants and Conversion Factors

pp.:  600 – 603

Index

pp.:  603 – 608

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