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Advances in Aerosol Filtration

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Title: Advances in Aerosol Filtration
Author: Kvetoslav R Spurny
ISBN: 0873718305 / 9780873718301
Format: Hard Cover
Pages: 560
Publisher: Lewis
Year: 1998
Availability: Out of Stock
     
 
  • Description
  • Contents

Reviews the most important developments in aerosol gas filtration over the last 15 years
Contains a biography of aerosol science pioneer, N.A. Fuchs, to whom the book is also dedicated
Explains the history of dust and aerosol filtration and how it has evolved as a science
Includes contributions from distinguished aerosol and filtration scientists from Europe, the U.S., and Japan

Aerosols are generally associated with damaging effects to the ozone and human health, however, some aerosols enable productions of very clean, highly dispersed materials. Advances in Aerosol Filtration is dedicated to progress in aerosol science, presenting newly developed theories, filtration models, and novel applications of aerosol gas filtration. Topics include new filtration materials, filter testing methods, electrically enhanced filtration, mechanical and chemical filter resistivity, computational models, and much more. This book examines the history and development of aerosol filtration science and also considers research needs for the future.

Foreword
Acknowledgments
Contributors

Part I : Aerosol Filtration Contributions
Chapter 1 : The History of Dust and Aerosol Filtration
Chapter 2 : Aerosol Filtration Science at the End of the 20th Century
Chapter 3 : Single-Fiber Collection Efficiency
Chapter 4 : Stationary and Nonstationary Filtration of Liquid Aerosols by Fibrous Filters
Chapter 5 : Modeling of Particle Transport and Collection in Aerosol Flow Devices
Chapter 6 : The Analysis of Aerosol Filtration Using the Method of Volume Averaging
Chapter 7 : The Efficiency of Clarification and Resource of Fiber Filter Predicted by Modeling Its Structure With a Packet of Plane Nets
Chapter 8 : Airflow Through Filters-Beyond Single-Fiber Theory
Chapter 9 : Numerical Simulation of Gas-Particle Flow in Filters by Lattice Bhatnagar-Gross-Krook Model
Chapter 10 : Mechanics of a Deformable Fibrous Aerosol Particle: General Theory and Application to the Modeling of Air Filtration
Chapter 11 : Nature, Stablity, and Effectiveness of Electric Charge in Filters
Chapter 12 : Separation of Airborne Dust in Deep-Bed Filtration
Chapter 13 : Quality Assurance of Glass Fiber Filter Media: Control of Structure Inhomogeneities
Chapter 14 : The Lung as a Filter for Inhaled Aerosols-Particle Deposition Patterns in Human Airway Bifurcations
Chapter 15 : Effect of Deposition on Aerosol Filtration
Chapter 16 : Performance of an Air Filter at Dust-Loaded Condition
Chapter 17 : Predicting Pressure Response Characteristics Across Particle-Loaded Filters
Chapter 18 : Fundamentals of the Compression Behavior of Dust Filter Cakes
Chapter 19 : Filter Efficiency Modeling, Electrically Stimulated Agglomeration, and Separation of Bioaerosols-Some Recent Trends in Aerosol Research
Chapter 20 : On the Filtration and Separation of Fibrous Aerosols
Chapter 21 : Carbon Fiber Filters With Aerosol Separation and Gas Adsorption Properties
Chapter 22 : Pore Filters-Aerosol Filtration and Sampling

Part II : Aerosol Separation
Chapter 23 : Inertial Impaction
Chapter 24 : Development of Small-Cutpoint Virtual Impactors and Applications in Environmental Health
Chapter 25 : Dry Aerosol Removal Capacity of a Newly Developed Plate Cyclone Filter
Chapter 26 : A Length-Selective Technique for Fibrous Aerosols

Appendix : Nikolai Albertowich Fuchs: Aerosol Scientist and Humanist
Index

 
 
 
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