Fine Particle (2.5 microns) Emissions
Regulations, Measurement, and Control
1. Auflage September 2008
272 Seiten, Hardcover
Wiley & Sons Ltd
Kurzbeschreibung
Research has shown that inhaling fine particles is a greater health risk than breathing larger particles, and the EPA has recently established nationwide standards and regulations to monitor fine particles. Fine Particle (2.5 microns) Emissions: Regulations, Measurement, and Control combines practice, theory, and regulation with regulatory and technical insight. It covers legislative background, health studies, emission measurement methods, and also includes the fundamentals of particulate control.
Theory, practice, and regulation--all in one place!
Written by leading experts in the field of pollution control, this timely book brings together and carefully explains the latest information on particle control. Throughout the book, the emphasis is on fine particles, defined as those less than 2.5 microns.
Despite the fact that research indicates that fine particles pose a greater health risk than larger particles, the topic of fine particles is scarcely covered in the literature. Fortunately, professionals can now turn to this book for comprehensive coverage of fine particles, including:
* Results from the latest studies examining their deleterious health effects
* Methods for measuring their concentration in gas streams
* Methods and costs for removing them from gas streams
* The impact of collecting condensables
* An overview of the most recent legislation and regulation
Helping readers make the best choices based on their specific needs, the authors review the fundamentals as well as the advantages and disadvantages of particulate control devices. Readers learn the importance of and how to evaluate fine particle removal efficiency, operation and maintenance, capital and operating costs for traditional and emerging technologies, and control device selection. In addition, readers gain a solid understanding of the risks associated with guaranteeing the performance of control devices.
For all your questions regarding fine particulate control, including practice, theory, and regulation, this book is the ideal starting point. References in each chapter guide you to additional information on individual topics should you need it.
1.1 Overview of Particulate Matter (PM) Control.
1.2 PM.
1.3 PM10.
1.4 PM2.5.
1.5 The Scientifi c Basis for Ambient Air Quality Standards.
1.6 Primary Standards vs. Secondary Standards.
1.8 Who Is Most at Risk?
1.9 Current Legislation.
1.10 References.
2 HEALTH EFFECTS.
2.1 Results of Recent Studies.
2.2 EPA Position on Certain Health Effects.
2.3 References.
3 AIR MONITORING.
3.1 AMBIENT AIR MONITORING METHODS.
3.2 EMISSION MEASUREMENT METHODS.
4 EMISSION CONTROL METHODS.
4.1 FABRIC FILTER/BAGHOUSES.
4.2 ELECTROSTATIC PRECIPITATORS.
4.3 WET SCRUBBERS.
4.4 ENVIRONMENTAL TECHNOLOGY VERIFICATION AND BAGHOUSE FILTRATION PRODUCTS.
4.5 COST CONSIDERATIONS.
5 NANOPARTICULATES.
5.1 What Is a Nanoparticle?
5.2 What Is Nanotechnology?
5.3 What Is Nanotoxicology?
5.4 Health Concerns/Issues.
5.5 Ongoing Research.
5.6 Current Organizations/Research.
5.7 Diesel Nanoparticulate Matter.
5.8 Nanofi lters/Nanotechnology in the Fabric Filter Industry.
5.9 Additional Research Concerning Nanofi ber Filtration.
5.10 References.
Index.
James H. Turner, PhD, PE, is a chemical engineer with forty years of technical experience. The bulk of his career has been spent working with particles, particle control (especially fabric filtration), and control system costing, primarily as part of the regulatory process.
James P. McKenna Jr., BS, graduated from Manhattan College with a degree in chemical engineering. He has spent nearly a decade designing air pollution control equipment as well as performing field-testing of stack emissions.
