Cl Kleinstreuer

Two-Phase Flow

Theory and Applications

• Gebundenes Buch

Produktbeschreibung

This graduate text provides a unified treatment of the fundamental principles of two-phase flow and shows how to apply the principles to a variety of homogeneous mixture as well as separated liquid-liquid, gas-solid, liquid-solid, and gas-liquid flow problems, which may be steady or transient, laminar or turbulent. Each chapter contains several sample problems, which illustrate the outlined theory and provide approaches to find simplified analytic descriptions of complex two-phase flow phenomena. This well-balanced introductory text will be suitable for advanced seniors and graduate students in mechanical, chemical, biomedical, nuclear, environmental and aerospace engineering, as well as in applied mathematics and the physical sciences. It will be a valuable reference for practicing engineers and scientists. A solutions manual is available to qualified instructors.

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Produktdetails

• Verlag: CRC Press
• Seitenzahl: 476
• Erscheinungstermin: 23. Mai 2003
• Englisch
• Abmessung: 235mm x 157mm x 30mm
• Gewicht: 836g
• ISBN-13: 9781591690009
• ISBN-10: 1591690005
• Artikelnr.: 31282938

Autorenporträt

Clement Kleinstreuer is Professor in the Department of Mechanical and Aerospace Engineering at North Carolina State University, Raleigh. He has written over 100 research papers, several book chapters and Engineering Fluid Dynamics.

Inhaltsangabe

1. Review of Single-Phase Flow 1.1 Basic Fluid Flow Concepts 1.2 Flow Field
Descriptions 1.3 Conservation Laws 1.4 Turbulence 1.5 Solution Techniques
1.6 Homework Problem Assignments 2. Basic Concepts of Two-Phase Flow Theory
2.1 Flow Regime Classifications and Modeling Approaches 2.2 Dispersed Flow
Definitions, Phase Properties and Phase Coupling 2.3 Mass, Momentum and
Heat Transfer 2.4 Statistical Descriptions 2.5 Highlights of Industrial
Dispersed Flows 2.6 Homework Problem Assignments 3. Derivations of
Two-Phase Flow Modelling Equations 3.1 Averaging Techniques and
Constitutive Equations 3.2 Mixture Models 3.3 Separated Flow Models 3.4
Problem Assignments 4. Analyses and Solutions of Basic Two-Phase Flow
Problems 4.1 Numerical Solution Tools 4.2 Mixture Flow Applications 4.3
Particle Trajectory Dynamics 4.4 Two-Fluid Model Applications 4.5 Project
Assignments 5. Selected Case Studies 5.1 Mathematical Modeling, Computer
Simulation and Virtual Prototyping 5.2 Quasi-Homogeneous Equilibrium Flows
(EULER) 5.3 Separated Flows 1: Fluid Particle Models (EULER_Lagrange) 5.4
Separated Flows 2: Two-Fluid Models (EULER-EULER) Appendicies