Multiphase Flows with Droplets and Particles / Edition 1

Multiphase Flows with Droplets and Particles / Edition 1

by Clayton T. Crowe, John D. Schwarzkopf, Martin Sommerfeld, Yutaka Tsuji
     
 

ISBN-10: 0849394694

ISBN-13: 9780849394690

Pub. Date: 11/13/1997

Publisher: Taylor & Francis

Multiphase flow technology, especially in the area of gas-droplet and gas-particle flows, is increasingly important in the energy and manufacturing industries. Pollution control, pneumatic transport, food processing, combustion, and development of new materials as well as many other engineering applications will benefit from the fundamental engineering design

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Overview

Multiphase flow technology, especially in the area of gas-droplet and gas-particle flows, is increasingly important in the energy and manufacturing industries. Pollution control, pneumatic transport, food processing, combustion, and development of new materials as well as many other engineering applications will benefit from the fundamental engineering design applications and research in this field. Written for graduate students and professionals, Multiphase Flows with Droplets and Particles provides a clear, pedagogical approach to the fundamentals of gas-particle and gas-droplet flows.

Product Details

ISBN-13:
9780849394690
Publisher:
Taylor & Francis
Publication date:
11/13/1997
Edition description:
Older Edition
Pages:
496
Product dimensions:
6.30(w) x 9.10(h) x 1.20(d)

Table of Contents

Introduction Industrial Applications Energy Conversion and Propulsion Fire Suppression and Control Properties of Dispersed Phase Flows Density and Volume Fraction Particle or Droplet Spacing Response Times Stokes Number Dilute vs. Dense Flows Phase Coupling Properties of an Equilibrium Mixer Size Distribution Discrete Size Distribution Continuous Size Distributions Statistical Parameters Frequently Used Size Distributions Particle-Fluid Interaction Single Particle Equations Mass Coupling Momentum Transfer Energy Coupling Particle-Particle Interaction Particle-Wall Interaction Particle-Particle Interaction Continuous Phase Equations Averaging Procedures Boundary Particles Quasi-One-Dimensional Flow Multidimensional Flows Droplet/Particle Cloud Equations Lagrangian Approach Eulerian Approach Radiation Modeling Numerical Modeling Single-Phase Flows Dilute Flows - Lagrangian Models Dilute Flow - Two-Fluid Model Dense Flows: Lagrangian Approach Dense Flows: Eulerian Approach Experimental Methods Sampling Methods Integral Methods Local Measurement Techniques Final Remarks Applications Current and Future Needs Fundamental Parameters Numerical Models Experimental Measurements References Appendix A - Single Particle Equations Appendix B - Volume Averaged Conservation Equations Appendix C - Brownian Motion Appendix D - Program Listing Index

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