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More About This Title Chemically Reacting Flow: Theory, Modeling, and Simulation, Second Edition
English
A guide to the theoretical underpinnings and practical applications of chemically reacting flow
Chemically Reacting Flow: Theory, Modeling, and Simulation, Second Edition combines fundamental concepts in fluid mechanics and physical chemistry while helping students and professionals to develop the analytical and simulation skills needed to solve real-world engineering problems. The authors clearly explain the theoretical and computational building blocks enabling readers to extend the approaches described to related or entirely new applications. New to this Second Edition are substantially revised and reorganized coverage of topics treated in the first edition. New material in the book includes two important areas of active research: reactive porous-media flows and electrochemical kinetics. These topics create bridges between traditional fluid-flow simulation approaches and transport within porous-media electrochemical systems.
The first half of the book is devoted to multicomponent fluid-mechanical fundamentals. In the second half the authors provide the necessary fundamental background needed to couple reaction chemistry into complex reacting-flow models. Coverage of such topics is presented in self-contained chapters, allowing a great deal of flexibility in course curriculum design.
• Features new chapters on reactive porous-media flow, electrochemistry, chemical thermodynamics, transport properties, and solving differential equations in MATLAB
• Provides the theoretical underpinnings and practical applications of chemically reacting flow
• Emphasizes fundamentals, allowing the analyst to understand fundamental theory underlying reacting-flow simulations
• Helps readers to acquire greater facility in the derivation and solution of conservation equations in new or unusual circumstances
• Reorganized to facilitate use as a class text and now including a solutions manual for academic adopters
Computer simulation of reactive systems is highly efficient and cost-effective in the development, enhancement, and optimization of chemical processes. Chemically Reacting Flow: Theory, Modeling, and Simulation, Second Edition helps prepare graduate students in mechanical or chemical engineering, as well as research professionals in those fields take utmost advantage of that powerful capability.
English
Robert J. Kee, PhD, is the George R. Brown Distinguished Professor of Engineering at the Colorado School of Mines in Golden, Colorado.
Michael E. Coltrin, PhD, is a Distinguished Member of the Technical Staff at Sandia National Laboratories, Albuquerque, New Mexico.
Peter Glarborg, PhD, is a Professor of Chemical Engineering at the Technical University of Denmark in Lyngby, Denmark.
Huayang Zhu, PhD, is a Research Professor of Mechanical Engineering at the Colorado School of Mines, Golden, Colorado.
English
Preface xxi
Acknowledgments xxv
1 Introduction 1
References 17
2 Fluid properties 21
viii CONTENTS
References 42
3 Fluid Kinematics 43
4 The Conservation Equations 89
CONTENTS ix
x CONTENTS
References 147
5 Parallel Flows 149
References 191
6 Similarity and Local Similarity 193
CONTENTS xi
References 222
7 Stagnation Flows 223
xii CONTENTS
References 284
8 Boundary-Layer Channel Flow 287
References 316
9 Low-Dimensional Reactors 319
CONTENTS xiii
References 342
10 Thermochemical Properties 343
References 366
11 Molecular Transport 367
xiv CONTENTS
References 412
12 Mass-Action Kinetics 413
CONTENTS xv
References 438
13 Reaction Rate Theories 439
References 475
14 Reaction Mechanisms 477
References 515
xvi CONTENTS
15 Laminar Flames 519
References 543
16 Heterogeneous Chemistry 547
CONTENTS xvii
References 586
17 Reactive Porous Media 587
References 607
18 Electrochemistry 611
xviii CONTENTS
References 647
A Vector and Tensor Operations 649
B Navier-Stokes Equations 669
CONTENTS xix
C Example in General Curvilinear Coordinates 679
D Small Parameter Expansion 685
E Boundary-Layer Asymptotic Behavior 689
F Computational Algorithms 695
References 718
G Matlab Examples 721
xx CONTENTS
Index 739
