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Covers elements of pollution prevention programs, identifying pollution prevention options for chemical processes, selecting the best pollution prevention options, and pollution prevention case study modules with solved problems. Suitable for use in short courses, training sessions, and as a supplementary text in university-based engineering design courses. 50 charts and tables.
This book examines how chemistry, chemical processes, and transformations are used for pollution prevention and control. Pollution prevention reduces or eliminates pollution at the source, whereas pollution control involves destroying, reducing, or managing pollutants that cannot be eliminated at the source. Applications of environmental chemistry are further illustrated by nearly 150 figures, numerous example calculations, and several case studies designed to develop analytical and problem solving skills. The book presents a variety of practical applications and is unique in its integration of pollution prevention and control, as well as air, water, and solid waste management.
The environmental impact of industrial waste is one of the most serious challenges facing the chemical process industries. From a focus on end-of-pipe treatment in the 1970s, chemical manufacturers have increasinglyimplemented pollution prevention policies in which pollutants are mitigated at the source or separated and recovered and then reused or sold. This book is the first to present systematic techniques for cost-effective pollution prevention, altering what has been an art that depends on experience and subjective opinion into a science rooted in fundamental engineering principles and process integration. Step-by-step procedures are presented that are widely applicable to the chemical, petrochemical, petroleum, pharmaceutical, food, and metals industries. Various levels of sophistication ranging from graphical methods to algebraic procedures and mathematical optimization, numerous applications and case studies, and integrated software for optimizing waste recovery systems make Pollution Prevention through Process Integration: Systematic Design Tools a must read for a wide spectrum of practicing engineers, environmental scientists, plant managers, advanced undergraduate and graduate students, and researchers in the areas of pollution prevention andprocess integration. - Allows the reader to establish pollution-prevention targets for a process and then develop implementable, cost-effective solutions - Contains step-by-step procedures that can be applied to environmental problems in a wide variety of process industries - Integrates pollution prevention with other process objectives - Author is internationally recognized for pioneering work in developing mass integration science and technology
This book defines environmental reaction engineering principles, including reactor design, for the development of processes that provide an environmental benefit. With regard to pollution prevention, the focus is primarily on new reaction and reactor technologies that minimize the production of undesirable side-products (pollutants), but the use of reaction engineering as a means of treating wastes that are produced through other means is also considered.First is a section on environmentally benign combustion. The three papers discuss methods of reducing the formation of PAHs and NOx, as well as other environmentally sensitive combustion products. The next section contains a collection of contributions that involve the use of a catalyst to support the reaction. Following this is a section on the use of supercritical fluid solvents as environmentally friendly media for chemical reactions. Finally, a series of papers is presented in which novel reactor designs are utilized to obtain product yields not possible in conventional reactor systems. These include the use of reactor-absorber systems, reactive distillation, and reactive membranes. The book concludes with a chapter contributed by the editors which discusses the educational aspects of pollution prevention. It is necessary for future generations of engineers to be trained to design processes that are inherently environmentally benign. This chapter assembles resource materials for educators which will spark the creative instincts of the researchers using the materials contained within this book to develop new resources for pollution prevention education. The broad spectrum of topics included in this book indicates the diversity of this area, and the vibrant nature of the ongoing research. The possibilities of producing desirable products without the formation of waste byproducts are bounded only by the creativity of the reaction engineer.
As many industries are beginning to learn, pollution prevention technologies offer more than just a way to comply with regulations, or even to “do the right thing.” It also makes smart business sense. The authors of this book, both veterans of DuPont’s in-house waste reduction team, have put together a “how-to” guide for locating and implementing the best pollution prevention strategies for particular manufacturing processes. The book codifies elements of fundamental pollution prevention knowledge that are “easily understood and broadly applicable,” across a wide range of industries. At the heart of the book is what the authors call the “10-Step Method for Engineering Evaluations of Pollution Prevention Methods,” which breaks down the process to such simple steps as defining problems, setting goals, and identifying, defining, and evaluating alternative strategies.
A chemical engineer's guide to managing and minimizing environmental impact. Chemical processes are invaluable to modern society, yet they generate substantial quantities of wastes and emissions, and safely managing these wastes costs tens of millions of dollars annually. Green Engineering is a complete professional's guide to the cost-effective design, commercialization, and use of chemical processes in ways that minimize pollution at the source, and reduce impact on health and the environment. This book also offers powerful new insights into environmental risk-based considerations in design of processes and products. First conceived by the staff of the U.S. Environmental Protection Agency, Green Engineering draws on contributions from many leaders in the field and introduces advanced risk-based techniques including some currently in use at the EPA. Coverage includes: Engineering chemical processes, products, and systems to reduce environmental impacts Approaches for evaluating emissions and hazards of chemicals and processes Defining effective environmental performance targets Advanced approaches and tools for evaluating environmental fate Early-stage design and development techniques that minimize costs and environmental impacts In-depth coverage of unit operation and flowsheet analysis The economics of environmental improvement projects Integration of chemical processes with other material processing operations Lifecycle assessments: beyond the boundaries of the plant Increasingly, chemical engineers are faced with the challenge of integrating environmental objectives into design decisions. Green Engineering gives them the technical tools they need to do so.
Handbook of Chemical Technology and Pollution Control integrates industrial chemistry with pollution control and environmental chemistry. This unified approach provides practicing professionals and consultants with a concise yet authoritative handbook covering the Key Features, relative importance, and environmental impact of currently operating chemical processes. It also meets the critical needs of students training for industrial careers.Handbook of Chemical Technology and Pollution Control considers community, municipal, power generation, industrial, and transportation components of environmental impact. The book covers the major inorganic and organic commodity chemicals; aluminum, iron and steel, and copper prodution; pulp and paper; fermentation; petroleum production and refining. It also includes key topics and process details for major peterochemicals and large-scale consumer and engineering polymers. This single, convenient volume describes aspects of recycling at the industrial and post-consumer levels, and emphasizes a quantitative approach as used in the author's well-known lifecycle work with disposable and reusable cups.0-12-350811-8Key Features* Covers historical background and new developments in a single, authoritative handbook* Presents integrated treatment of chemical technology with emission control chemistry* Includes tables throughout that give current and trend data* Considers community, municipal, power generation, industrial, and transportation components of environmental impact* Provides many references to further reading* Contains review questions that offer working experience with the information and concepts
With growing global competition, the process industries must spare no effort in insuring continuous process improvement in terms of Increasing profitability; Conservation of resources and Prevention of pollution. The question is how can engineers achieve these goals for a given process with numerous units and streams? Until recently conventional approaches to process design and operation put emphasis only on individual units and parts of the process. A more powerful integrated approach was lacking. The new field of Process Integration looks towards the processing plant as a whole in its attempt to find solutions and improvements. Research over the past two decades has resulted in many techniques that allow engineers to better understand complex facilities and significantly enhance their performance. This textbook presents a comprehensive and authoritative treatment of the concepts, tools and applications of Process Integration. Emphasis is given to systematic ways of analyzing process performance. Graphical, algebraic and mathematical procedures are presented in detail. In addition to covering the fundamentals of the subject, the book also includes numerous case studies and examples that illustrate how Process Integration is solving actual industrial problems. - Systematic methodology for analyzing the process as an integrated system, identifying global insights of the process, and generating optimum strategies and solutions - Proper mix of fundamental principles, insightful tools, and industrial applications - Generic techniques that are applicable to a wide variety of processing facilities - Packed with case studies, practical tools, charts, tables, and performance criteria - Extensive bibliography to provide ready access to process integration literature - Excellent review of state-of-the-art technology, development trends, and future research directions
Handbook of Advanced Approaches towards Pollution Prevention and Control, Volume Two: Legislative Measures and Sustainability for Pollution Prevention and Control condenses all relevant information on pollution prevention and control in a single source. This handbook (Volume Two of Two) covers the principals of pollution prevention and control technologies, recent advances in pollution prevention, control technologies and their sustainability, modernization in pollution prevention and control technologies for future and next generation of pollution prevention and control technologies. The book is an indispensable resource for researchers and academic staff in chemical and process engineering, safety engineering, environmental engineering, biotechnology, and materials engineering. - Provides in-depth information on the principles and advances in pollution prevention and control practices - Discusses emerging technologies and processes for advanced pollution prevention and control - Presents developments on the use of the assessment models as tools to support the research and applications of different technologies and processes - Provides history, fundamentals, state-of-the-art, and future trends - Edited by expert team of world-class editors
Offers up-to-date technical information on current and potential pollution control and waste minimization practices, providing industry-specific case studies, techniques and models.