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Informationen zum Autor Clayton Crowe is Professor Emeritus of Mechanical Engineering at Washington State University. John D. Schwartzkopf is a Research Associate at the Los Alamos National Laboratory in New Mexico. Yutaka Tsuji is a Professor Emeritus of Mechanical Engineering at Osaka University! Japan. Klappentext Rev. ed. of: Multiphase flows with droplets and particles / Clayton Crowe! Martin Sommerfeld! Yutaka Tsuji. 1998. Zusammenfassung Since the publication of the first edition of Multiphase Flow with Droplets and Particles! there have been significant advances in science and engineering applications of multiphase fluid flow. Maintaining the pedagogical approach that made the first edition so popular! this second edition provides a background in this important area of fluid mechanics to those new to the field and a resource to those actively involved in the design and development of multiphase systems.See what's new in the Second Edition:Chapter on the latest developments in carrier-phase turbulenceExtended chapter on numerical modeling that includes new formulations for turbulence and Reynolds stress modelsReview of the fundamental equations and the validity of the traditional "two-fluid" approachExpanded exercises and a solutions manualA quick look at the table of contents supplies a snapshot of the breadth and depth of coverage found in this completely revised and updated text. Suitable for a first-year graduate (5th year) course as well as a reference for engineers and scientists! the book is clearly written and provides an essential presentation of key topics in the study of gas-particle and gas-droplet flows. Inhaltsverzeichnis Introduction Industrial Applications Energy Conversion and Propulsion Fire Suppression and Control Summary Properties of Dispersed Phase Flows Concept of a Continuum Density and Volume Fraction Particle or Droplet Spacing Response Times Stokes Number Dilute versus Dense Flows Phase Coupling Properties of an Equilibrium Mixture Summary Exercises Size Distribution Discrete Size Distributions Continuous Size Distributions Statistical Parameters Frequently Used Size Distributions Summary ExercisesParticle-Fluid Interaction Single-Particle Equations Mass Coupling Linearmomentumcoupling Energy Coupling Summary Exercises Particle-Particle Interaction Particle-Particle Interaction Particle-Wall Interaction Summary Exercises Continuous Phase EquationsAveraging Procedures Volume Averaging Property Flux Through a Particle Cloud Volume-Averaged Conservation Equations Equation Summary Summary Exercises Turbulence Review of Turbulence in Single-Phase Flow Turbulence Modulation by Particles Review of Modulation Models Basic Test Case for Turbulence Models Volume-Averaged Turbulence Models Application to Experimental ResultsSummary Exercises Droplet-Particle Cloud Equations Discrete Element Method (DEM) Discrete Parcel Method (DPM) Two-Fluid Model PDF Models Summary Numerical Modeling Complete Numerical Simulation DNS Models LES Models VANS Numerical Models Summary Experimental Methods Sampling Integral Methods Local Measurement Techniques Summary Exercises Appendix A: Single-Particle Equations Appendix B: Volume Averaging Appendix C: Volume-Averaged Equations Appendix D: Turbulence Equations 425Appendix E: Brownian Motion References Nomenclature Index ...
