This book is the most comprehensive treatment yet of the problems faced by the engineer caused by static electricity. Written in as non-technical a manner as possible, given the depth of the material, this book discusses the material from the beginner level to many advanced topics for engineers and designers. It discusses not only the harmful and damaging known effects of static electricity on electrical and electronic equipment, but the possible solutions and applications that can be used to stop it.
Among the many technological and legal efforts being made to restore our environment, electrostatic technologies may well hold the solution to the cleaning of air, water and soil. Such technologies include non-thermal plasma processing - electron beam irradiation, electrical discharge, hybrid plasma systems. The book also contains descriptions of the industrial implementation of the technology for NOx and SO2 removal using accelerated electrons. This technique has been implemented in three plants, built in China, Poland and Japan. Water pollution can be controlled and reduced by the use of ozone and UV irradiation. Soil pollution can be reduced by electrical methods and by using electrostatics to spray agricultural pesticides. Further articles cover the future of EHD systems in environmental protection, new aspects of ESD research, and industrial waste recycling technologies.
In this book, the authors provide state-of-the-art research studies on electrostatic principles or include the electrostatic phenomena as an important factor. The chapters cover diverse subjects, such as biotechnology, bioengineering, actuation of MEMS, measurement and nanoelectronics. Hopefully, the interested readers will benefit from the book in their studies. It is probable that the presented studies will lead the researchers to develop new ideas to conduct their research.
This proceedings contains papers presented at the 5th International Conference on Applied Electrostatics held in Shanghai, China on November 2--5,2004. The ICAES 2004 Conference is of wide interest, as is shown by the contributions received from 11 countries and districts throughout the world. About 90 researchers attend the conference and more than 100 papers were submitted for presentation in the proceedings. The paper sessions covered following topics: - fundamentals and physics - applications (precipitation, pollution control, spray, separation, material, Ozone, etc.) - hazards and problems - biology technology - electrets - measuring technology - electromagnetic compatibility and others These papers demonstrated recent research level and developing trends of the entire electrostatic field.
This book provides new clues for understanding electrostatic charging in solids and liquids, resulting from the surge of research in this active area of science that is taking place since the 1990's but is still largely unknown to most researchers, lecturers and engineers. Written by a leading researcher in this field, this book describes the formation and properties of the Earth capacitor, the production of environmental electricity and its effect on natural and anthropic systems and examines many situations in which water may play a decisive role in electrostatic behavior. The authors present an informed critique of the long-held assumption that pure substances should be electroneutral. In this regard, the authors show that charge partition and accumulation is expected considering the electrochemical potential under non-zero electrostatic potential, which prevails at Earth surface. This book provides conceptual tools to guide the reader through the complexities and consequences of electrostatic phenomena while covering exciting current topics such as energy scavenging from the environment, electrostatic based green production, energy-saving processes, electrochemistry at the solid-gas interface, therapeutic electrostatic treatments, applications in sanitation and pest control and control of atmospheric electricity and its use in climate engineering.
Modern electrostatics impact a diverse range of fields, from micromachines and microsystems to the development of protective clothing for the electronics manufacturing industry. Electrostatics 2003 provides coverage on applications of electrostatics in various areas of physics and technology. It also presents recent research and developments in electrostatics. The book provides an overview of the latest advances in electrostatics, covering areas such as new measurement, testing, and characterization techniques; instrumentation design; numerical modeling; electrostatics hazards; and the applications of electrostatics in the environment. This book is an authoritative reference for all scientists and engineers researching techniques and applications of electrostatics.
Recently, there has been a surge of activity to elucidate the behavior of highly charged soft matter and Coulomb fluids in general. Such systems are ubiquitous, especially in biological matter where the length scale and the strength of the interaction between highly charged biomolecules are governed by strong electrostatic effects. Several interesting limits have been discovered in the parameter space of highly charged many-particle Coulomb matter where analytical progress is possible and completely novel and unexpected results have been obtained. One of the challenges in highly charged matter is to correctly describe systems with finite coupling strength in the transition regime between weak and strong couplings. After studying the fluctuations of both, several theories have been developed that describe this experimentally highly relevant regime. At the same time, computer simulation algorithms and computing power have advanced to the level where all-ion simulations, including many-body and polarization effects, are possible; the new theories thus can be subjected to numerical confirmation. Another important question is the effect of the structural disorder on electrostatic interactions. It has recently been demonstrated, both theoretically and experimentally, that charge disorder can impose long-range interaction between charged or even uncharged surfaces. These interactions might become very significant in biological processes. Filling a void in the literature, this volume cross-pollinates different theoretical and simulation approaches with new experiments and ties together the low temperature, high coupling constant, and disorder parameters in a unified description of the electrostatic interactions, which largely determine the stability and conformations of most important biological macromolecules. With striking graphical illustrations, the book presents a unified view of the current advances in the field of Coulomb (bio)colloidal systems, building on previous literature that summarized the field over 20 years ago. Leading scientists in the field offer a detailed introduction to different modern methods in statistical physics of Coulomb systems. They detail various approaches to elucidate the behavior of strongly charged soft matter. They also provide experimental and theoretical descriptions of disorder effects in Coulomb systems, which have not been discussed in any other book.
"Provides detailed, comprehensive descriptions of electrostatic processes as well as their applications in areas such as rheology, atomization and spraying, industrial dust particle precipitation and filtering, biomedical engineering, gas treatments, atmospheric electricity, chemical reactors, and electronic devices. Summarizes electrostatic fundamentals and electrical phenomena in solids and fluids."
"This introductory, algebra-based, two-semester college physics book is grounded with real-world examples, illustrations, and explanations to help students grasp key, fundamental physics concepts. ... This online, fully editable and customizable title includes learning objectives, concept questions, links to labs and simulations, and ample practice opportunities to solve traditional physics application problems."--Website of book.