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The dynamics of aerocolloidal systems

The Dynamics of Aerocolloidal Systems, Volume 1 is concerned with the dynamical behavior of idealized aerosol particles in the light of developments in classical mechanics. The idealization is based on the assumption that the solid or liquid particles suspended in a gas can be modeled as macroscopic...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autores principales: Hidy, George M., Brock, J. R. (James Rush), 1930- (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Oxford, New York, Pergamon Press [1970]
Edición:[1st ed.].
Colección:International reviews in aerosol physics and chemistry ; v. 1.
Temas:
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; The Dynamics of Aerocolloidal Systems; Copyright Page; Table of Contents; PREFACE; PRINCIPAL NOMENCLATURE; CHAPTER 1. INTRODUCTION; A. Preliminary Definitions and Classification; B. Scope and Limitations; CHAPTER 2. FUNDAMENTAL CONSIDERATIONS; 2.1 Characterization of Aerocolloidal Systems; 2.2 Quantitative Formulation of Aerosol Dynamics; 2.3 Physicochemical Properties of Aerosol Particles; CHAPTER 3. DYNAMICS OF SINGLE PARTICLES IN THE CONTINUUM APPROXIMATION; 3.1 Steady Rectilinear Motion in a Homogeneous Gas; 3.2 Accelerated Motion of Particles in a Moving Medium.
  • CHAPTER 4. HEAT AND MASS TRANSFER TO SINGLE PARTICLES IN A CONTINUUM4.1 The Macroscopic Equations for Heat and Mass Transfer in a Continuum Regime; 4.2 Diffusional Processes to a Particle in a Stagnant Gas; 4.3 Diffusional Processes to a Particle Moving Relative to the Gas Phase; 4.4 Mass Transfer Coupled to Particle Motion; CHAPTER 5. TRANSFER PROCESSES TO SINGLE PARTICLES: THE FREE MOLECULE AND TRANSITIONS REGIONS OF KNUDSEN NUMBER; 5.1 Transfer Processes to Single Particles from Moments of the Molecular Velocity Distribution Function; 5.2 Transfer Processes in the Free Molecule Regime.
  • 5.3 Transfer Processes in the Transition RegimeCHAPTER 6. TRANSFER PROCESSES TO AN AEROSOL PARTICLE IN THE SLIP FLOW REGION; 6.1 The Slip Flow Procedure; 6.2 Illustrations of the Slip Flow Procedure; 6.3 Summary; CHAPTER 7. DIFFUSION AND DISPERSION OF AEROSOL PARTICLES; 7.1 General Properties of the Diffusion Equations; 7.2 Deposition of Aerosols by Diffusion; 7.3 Laminar Convection and Diffusion; 7.4 Diffusion of Particles in a Turbulent Medium; CHAPTER 8. AEROSOL, GENERATION BY DISINTEGRATION AND DISPERSAL; 8.1 Atomization and the Breakup of Liquids; 8.2 Aerosols by Dispersal of Powders.
  • CHAPTER 9. FORMATION OF AEROSOLS BY NUCLEATION OF SUPERSATURATED VAPOR9.1 Nucleation of Vapor in the Absence of Foreign Nuclei; 9.2 Heterogeneous Nucleation; 9.3 Some Features of Aerosols Created by Spontaneous Condensation; CHAPTER 10. INTERACTION BETWEEN AEROSOL PARTICLES-GROWTH BY COAGULATION OR COALESCENCE; 10.1 Brownian Motion of Electrostatically Charged and Uncharged Particles; 10.2 Influences of Non-uniformities in the Suspending Gas and External Forces on Coagulation; 10.3 Influences of Aerodynamic and Electrical Forces Arising from Interaction between Particles.
  • 10.4 The Evolution of the Size Distribution of a Coagulating AerosolREFERENCES; AUTHOR INDEX; SUBJECT INDEX.