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Molecular and particle modelling of laminar and turbulent flows /

Main Author: Greenspan, Donald.
Format: Book
Language:English
Published: Hackensack, NJ : World Scientific, ©2005.
Subjects:
Turbulence > Mathematical models.
Laminar flow > Mathematical models.
Water vapor transport > Mathematical models.
Vapors > Mathematical models.
SCIENCE > Mechanics > Fluids.
Online Access:http://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=161356
Table of Contents:
  • Cover
  • Contents
  • Preface
  • 1. Mathematical, Physical, and Computational Preliminaries
  • 1.1. The N-Body Problem
  • 1.2. Classical Molecular Potentials
  • 1.3. Molecular Mechanics
  • 1.4. The Leap Frog Formulas
  • ALGORITHM 8212; PROGRAM LEAP FROG
  • 1.5. Turbulence
  • 1.5.1. Engineering
  • 1.5.2. Theoretical
  • 1.5.3. Numerical
  • 1.6. Overview
  • 2. Molecular Cavity Flow of Argon Vapor in Two Dimensions
  • 2.1. Introduction
  • 2.2. Equations of Motion for Argon Vapor
  • 2.3. The Cavity Problem
  • 2.4. Computational Considerations
  • 2.5. Examples of Primary Vortex Generation
  • 2.6. Example of Turbulent Flow
  • 2.7. Remarks
  • 2.8. The Fortran Program ARGON. FOR
  • 2.9. The Fortran Program YOUWIN. FOR
  • 3. Molecular Cavity Flow of Air Vapor in Two Dimensions
  • 3.1. Molecular Formulas
  • 3.2. The Cavity Problem
  • 3.3. Initial Data
  • 3.4. Examples of Primary Vortex Generation
  • 3.5. Turbulent Flow
  • 3.6. The Fortran Program AIR. FOR
  • 4. Molecular Cavity Flow of Water Vapor in Two Dimensions
  • 4.1. Introduction
  • 4.2. Equations of Motion for Water Vapor Molecules
  • 4.3. Examples of Primary Vortex Generation
  • 4.4. Example of Turbulent Flow
  • 4.5. A Speculative Study of Liquid Water
  • 4.6. The Fortran Program CAV. FOR
  • 5. Molecular Cavity Flow of Water Vapor in Three Dimensions
  • 5.1. Introduction
  • 5.2. Molecular Arrangement and the Cavity Problem
  • 5.3. Computational Considerations
  • 5.4. Examples
  • 5.5. Turbulent Flow
  • 5.6. The Fortran program CAV3D. FOR
  • 6. Particle Models of Flow in Two Dimensions
  • 6.1. Introduction
  • 6.2. Particle Arrangement and Equations
  • 6.3. Particle Equilibrium
  • 6.4. Examples
  • 6.5. Turbulence
  • 6.6. Heating Water Vapor in a Square Cavity
  • 6.7. A Speculative Study of Liquid Water
  • 6.8. Particle Equations of Motion
  • 6.9. Particle Equilibrium
  • 6.10. Primary Vortex Generation
  • 6.11. Turbulence
  • 6.12. The Fortran Program PARTICLE. FOR
  • 7. The Flow of Water Vapor Around a Flat Plate
  • 7.1. Introduction
  • 7.2. Mathematical and Physical Preliminaries
  • 7.3. Approximate Equations
  • 7.4. Problem Formulation
  • 7.5. Examples
  • 7.6. Remarks
  • 7.7. The Fortran Program PLATE. FOR
  • 8. Extant Problems with Continuum Models
  • 8.1. Introduction
  • 8.2. Concepts of Infinity
  • 8.3. The Surface Area Paradox
  • 8.4. Paradoxes of Zeno
  • 8.5. A Nonsolvable Problem in Population Genetics
  • 8.6. Time as a Continuum in Fluid Dynamics
  • 8.7. Remark
  • References and Additional Sources
  • Index.

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