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Topics in current aerosol research /
Topics in Current Aerosol Research deals with the fundamental aspects of aerosol science, with emphasis on experiment and theory describing highly dispersed aerosols (HDAs) as well as the dynamics of charged suspensions. Topics covered range from the basic properties of HDAs to their formation and m...
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Oxford, England :
Pergamon Press,
1971.
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| Colección: | International reviews in aerosol physics and chemistry ;
volume 2. |
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Topics in Current Aerosol Research; Copyright Page; Table of Contents; Praface; PART 1: HIGH-DISPERSED AEROSOLS; BASIC PROPERTIES OF HIGH-DISPERSED AEROSOLS (HDAs); CHAPTER 1. FORMATION AND METHODS OF GENERATION OF HDAs; 1.1. Formation of condensation HDAs; 1.2. Generation of HDAs by physical condensation of vapor; 1.3. Generation of HDAs by chemical reactions in the gas phase; 1.4. Generation of HDAs by atomization; CHAPTER 2. METHODS OF INVESTIGATION OF HDAs; 2.1. Investigation of HDAs in suspended state; 2.2. Methods of investigation of HDAs based on particle precipitation.
- CHAPTER 3. PROPERTIES OF HDAs3.1. Transfer processes in HDAs: general considerations; 3.2. Mass transfer in HDAs: evaporation and condensation growth of particles; 3.3. Momentum transfer in HDAs: resistance of the medium to the motion of particles; 3.4. Heat transfer in HDAs: heating and cooling of particles; 3.5. Charge transfer in HDAs: charging and discharging of particles by gas ions; 3.6. Thermophoresis and diffusiophoresis; 3.7. Coagulation of HDAs; 3.8. Capillary effects and structure of HDA particles; REFERENCES; PART 2: DYNAMICS OF CHARGED SUSPENSIONS; NOMENCLATURE; INTRODUCTION.
- CHAPTER 1. SOURCES OF ELECTRIC CHARGES1.1. Charging by surface contact; 1.2. Atmospheric electricity; 1.3. Gaseous discharge; 1.4. Emission charging; Chapter 2. CHARGING OF PARTICULATE MATTER BY COLLECTION; 2.1. Field charging; 2.2. Charging by diffusion of ions; 2.3. Charging in an ionized gas; 2.4. Charging of a cloud of particles; Chapter 3. INTERACTIONS BETWEEN FLUID AND AEROSOL PARTICLES; 3.1. Fluid forces on solid particles; 3.2. Heat transfer by convection from a solid particle; 3.3. Modifications for uncharged liquid droplets; 3.4. Charged liquid droplet.
- 3.5. Interaction of particles and waves and turbulence3.6. Electric drag in an ionized gas; Chapter 4. PARTICLE CLOUDS; 4.1. Transfer of electric charges; 4.2. Impact on a wall by a turbulent suspension; 4.3. Interaction length, slip, and accommodation; 4.4. State of motion of particles; 4.5. Condensation, evaporation, droplet coalescence, and break-up; 4.6. Mobility and conductivity; Chapter 5. HYDRODYNAMIC EQUATIONS OF A COMPONENT IN A MIXTURE; 5.1. Continuity equation; 5.2. Momentum equation; 5.3. Energy equation; 5.4. Diffusion equation; Chapter 6. DYNAMIC EQUATIONS OF A DILUTE SUSPENSION.
- 6.1. Continuity equations6.2. Momentum equations; 6.3. Energy equations; 6.4. Diffusion under field forces; Chapter 7. ONE-DIMENSIONAL MOTION OF CHARGED CLOUD OF PARTICLES; 7.1. Settling of charged dusts; 7.2. Electric field in a rain cloud; 7.3. Effect of charge on growing rain drops; 7.4. Effect of diffusion on fall-out; Chapter 8. FULLY DEVELOPED MOTION; 8.1. Basic relations of pipe flow; 8.2. Characteristic relations of pipe flow; 8.3. Measurement on charged suspensions; 8.4. Laminar flow of a liquid-solid suspension; Chapter 9. BOUNDARY LAYER MOTION; 9,1. Flow over a single flat plate.