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EBOOK
Author Kee, R. J.,
Title Chemically reacting flow : theory, modeling, and simulation / Robert J. Kee, Michael E. Coltrin, Peter Glarborg, Huayang Zhu.
Imprint Hoboken, NJ : John Wiley & Sons, 2018.
2018
Edition Second edition.

LOCATION CALL # STATUS MESSAGE
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LOCATION CALL # STATUS MESSAGE
 OHIOLINK WILEY EBOOKS    ONLINE  
View online
Author Kee, R. J.,
Subject Transport theory.
Fluid dynamics.
Thermodynamics.
Alt Name Coltrin, Michael Elliott, 1953-
Glarborg, Peter,
Zhu, Huayang,
Description 1 online resource (xli, 747 pages)
Edition Second edition.
Bibliography Note Includes bibliographical references and index.
Contents 2.3.1 Viscosity2.3.2 Diffusion Coefficients; 2.3.3 Thermal Conductivity; 2.3.4 Ideal Gases; References; 3 FLUID KINEMATICS; 3.1 Path to Conservation Equations; 3.2 System and Control Volume; 3.2.1 Extensive and Intensive Variables; 3.2.2 Reynolds Transport Theorem; 3.2.3 Substantial Derivative; 3.2.4 Substantial Derivative of a Scalar Field; 3.2.5 Fluid Acceleration, Substantial Derivative of Velocity; 3.3 Stress and Strain Rate; 3.4 Fluid Strain Rate; 3.4.1 The z-r Projection; 3.4.2 The r-[theta] Projection; 3.4.3 The z-[theta] Projection; 3.4.4 Strain-Rate Tensor; 3.5 Vorticity; 3.6 Dilatation.
CHEMICALLY REACTING FLOW; Contents; Preface; Acknowledgments; 1 INTRODUCTION; 1.1 Foregoing Texts; 1.2 Objectives and Approach; 1.3 What is a Fluid?; 1.3.1 Continuum Velocity; 1.3.2 Mean-Free Path; 1.3.3 Range of Scales; 1.4 Chemically Reacting Fluid Flow; 1.5 Physical Chemistry; 1.6 Illustrative Examples; References; 2 FLUID PROPERTIES; 2.1 Equations of State; 2.1.1 Ideal Gas; 2.1.2 Compressibility; 2.1.3 Virial Equation of State; 2.1.4 Cubic Equation of State; 2.1.5 Redlich-Kwong Equation of State; 2.2 Thermodynamics; 2.2.1 Ideal Gas; 2.2.2 Real Gas; 2.3 Transport Properties.
3.7 Stress Tensor3.7.1 Stress Vectors and Tensors; 3.7.2 Differential Cylindrical Element; 3.7.3 Stress-Tensor Symmetry; 3.7.4 Net Force from Stress on Control Surfaces; 3.7.5 Forces on a Differential Element; 3.8 Stokes Postulates; 3.8.1 Static Fluid; 3.8.2 Principal Stress-Strain-Rate Relationships; 3.9 Transformation from Principal Coordinates; 3.9.1 Physically Based Transformation; 3.10 Stokes Hypothesis; 3.11 Summary; 4 CONSERVATION EQUATIONS; 4.1 Mass Continuity; 4.1.1 Stream Function; 4.1.2 Axisymmetric Stream Function; 4.1.3 Polar Stream Function; 4.2 Navier-Stokes Equations.
4.2.1 Constant Viscosity, General Vector Form4.2.2 Cylindrical Coordinates, Constant Viscosity; 4.2.3 Incompressible Flow; 4.2.4 Incompressible, Constant Viscosity; 4.3 Species Diffusion; 4.3.1 Mass and Mole Measures; 4.3.2 Diffusive Mass Flux; 4.3.3 Stefan-Maxwell Equations; 4.4 Species Conservation; 4.4.1 Conservation Law for Individual Species; 4.4.2 Cylindrical Differential Control Volume; 4.4.3 Continuity in Terms of Composition Gradients; 4.4.4 Summation of Species Continuity; 4.5 Conservation of Energy; 4.5.1 Heat-Transfer Rate; 4.5.2 Rate of Work.
4.5.3 Total Energy Equation in Vector Form4.6 Mechanical Energy; 4.7 Thermal Energy; 4.7.1 Dissipation Function; 4.7.2 Thermal Energy Equation; 4.7.3 Ideal Gas; 4.7.4 Cylindrical Coordinates, Ideal Gas; 4.7.5 Incompressible, Single-Component Fluid; 4.8 Ideal Gas and Incompressible Fluid; 4.9 Conservation Equation Summary; 4.9.1 General Vector Form; 4.9.2 Ideal Gas, Cylindrical Coordinates; 4.10 Pressure Filtering; 4.11 Helmholtz Decomposition; 4.12 Potential Flow; 4.13 Vorticity Transport; 4.13.1 Pressure and Vorticity Fields; 4.13.2 Stream Function and Vorticity.
Note Online resource; title from digital title page (viewed on November 14, 2017).
ISBN 9781119186281 (electronic book)
1119186285 (electronic book)
9781119186304 (electronic book oBook)
1119186307 (electronic book oBook)
1119184878
9781119184874
9781119186298
1119186293
9781119184874 (hardcover)
OCLC # 983786602
Additional Format Print version: Kee, R.J. Chemically reacting flow. Second edition. Hoboken, NJ : John Wiley & Sons, 2017 9781119184874 (DLC) 2017011676



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