Developments in surface contamination and cleaning. Volume 1 : fundamentals and applied aspects / edited by Rajiv Kohli and K. L. Mittal.

Kohli, Rajiv, 1947- author.
2nd ed.
Amsterdam, [Netherlands] : William Andrew, 2016.
Developments in surface contamination and cleaning ; Volume 1.
Developments in Surface Contamination and Cleaning Series ; Volume 1
1 online resource (897 p.)
Surface contamination.
Surfaces (Technology)
Electronic books.
Front Cover; Developments in Surface Contamination and Cleaning: Fundamentals and Applied Aspects; Copyright; Contents; Preface; About the Editors; Contributors; Part I: Fundamentals; Chapter 1: The Physical Nature of Very, Very Small Particles and its Impact on their Behavior; 1.1. Introduction; 1.2. The Spectrum of Aerosol Particle Sizes; 1.3. Atoms and Molecules-Concepts and Dimensions; 1.4. The Model of a Gas; 1.5. Particles and Gas Molecules; 1.6. Particle Interactions; 1.6.1. Coagulation; 1.6.2. Homogeneous Nucleation; 1.6.3. Adsorption; 1.7. Nanoparticles as Molecular Clusters
1.8. An Interaction Model for Nanometer-Sized Particles1.9. Concluding Remarks; References; Chapter 2: Transport and Deposition of Aerosol Particles; 2.1. Introduction; 2.2. Noncontinuum Considerations; 2.3. Lagrangian Particle Equation of Motion; 2.3.1. Fluid-Particle Drag Force; Fluid-Drag Force: Assumptions and Practical Considerations; Continuum Regime Limit; Free Molecule Regime Limit; 2.3.2. Gravitational Force; 2.3.3. Thermophoretic Force; Continuum Regime Limit; Free Molecule Regime Limit; 2.3.4. Electrostatic Force
2.4. Inertial Effects2.4.1. Nondimensionalization; 2.5. Drift Velocity; 2.5.1. Gravitational Drift Velocity; 2.5.2. Thermophoretic Drift Velocity; 2.5.3. Electric Drift Velocity; 2.6. Eulerian Formulation; 2.6.1. Particle Diffusion Coefficient; 2.6.2. Nondimensional Formulation; 2.7. Particle Transport and Deposition in a Parallel Plate Reactor; 2.7.1. Fluid Transport Equations; Flow Field in the Showerhead Holes; Fluid Transport Between Parallel Plates; Summary: Fluid Flow Analysis for the Parallel Plate Geometry; 2.7.2. Particle Collection Efficiency
2.7.3. Particles Entering Through the Showerhead2.7.3.1. External Force Limit; 2.7.4. Particle Traps/in Situ Nucleation; Efficiency for the Lagrangian Formulation; Efficiency for the Eulerian Formulation; External Force Limit; 2.7.5. Diffusion-Enhanced Deposition from Traps or in Situ Nucleation; Problem Definition; Solution of the Eulerian Particle Transport Equation; Particle Collection Efficiency; Particle Flux; 2.7.6. Nondimensional Results; Efficiency at Intermediate Peclet Numbers; 2.7.7. Dimensional Results Trap Height Effects2.7.7.2. Pressure Effects; Mass Flow Rate Effects; Effect of Thermophoresis; 2.7.8. Summary: Diffusion-Enhanced Deposition; 2.8. Inertia-Enhanced Deposition; 2.8.1. Particle Transport in the Showerhead Holes; 2.8.2. Particle Transport Between Parallel Plates; Asymptotic Limit of Critical Stokes Number; 2.8.3. Coupled Transport-Nondimensional Results; Critical Stokes Numbers; Grand Design Curves; External Forces; Parabolic Profile; 2.8.4. Coupled Transport-Dimensional Results
2.9. Chapter Summary and Practical Guidelines
Description based upon print version of record.
Includes bibliographical references at the end of each chapters and index.
Description based on online resource; title from PDF title page (ebrary, viewed February 17, 2016).
Kohli, Rajiv, editor.
Mittal, Kashmiri L., editor.
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