Physical and Chemical Properties of Aerosols
Physical and Chemical Properties of Aerosols

Author: Ian Colbeck

Publisher: Springer

Published: 1998

Total Pages: 488

ISBN-13:

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An aerosol is a suspension of fine particles in a gas, usually air, and is generally taken to include both solid and liquid particles with dimensions ranging from a few nanometres up to around 100 micrometres in diameter. Aerosol sicence is the study of the physics and chemistry of aerosol behaviour and this includes techniques of generating particles of nanometre and micrometre dimensions: size classification and measurement, transport and deposition properties: chemical properties of aerosols in the atmosphere and in industry, as well as health effects from inhalation and industrial gas cleaning technology. Aerosols have important commercial implications, e.g. pressure-packaged `aerosol' products, agricultural sprays, atmospheric visibility and high technology materials and knowledge of aerosol properties is important in a wide range of disciplines, including industrial hygiene, air pollution, medicine, agriculture, meteorology and geochemistry. Written by an international team of contributors, this book forms a timely, concise and accessible overview of aerosol science and technology. Chemists, technologists and engineers new to aerosol science will find this book an essential companion in their studies of the subject. Those more familiar with aerosols will use it as an essential source of reference.

Aerosols
Aerosols

Author: George Hidy

Publisher: Elsevier

Published: 2012-12-02

Total Pages: 795

ISBN-13: 0323142516

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Aerosols: An Industrial and Environmental Science is a comprehensive account of the science and technology of aerosols as well as their aerodynamic and physico-chemical properties. Measurement techniques and results are presented in terms of a framework of classical mechanics and macroscopic chemistry. This book is comprised of 10 chapters and begins with a discussion on the foundations of modern aerosol science and technology, followed by a review of the dynamic theory of aerosols as rigid spheres. The production of particle suspensions, the methods of particle sampling and measurement, and physical or chemical characterization are then considered, along with particle diffusion by Brownian motion, particle formation and growth, and coagulation processes. The formation of particle clouds is described by means of molecular agglomeration (condensation) processes, breakup and disintegration, and chemical reactions. The remaining chapters focus on several major applications of aerosol science in areas such as combustion, agriculture, and medicine. This monograph is intended to serve scientists and engineers who are concerned with the underlying principles of aerodynamic and physical chemical behavior of aerosols, and could also be used as a text for graduate students in specialized courses on aerosol or colloid chemistry, atmospheric processes, and chemical, mechanical, or environmental engineering.