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A Handbook of Industrial Ecology
'The editors of this handbook have brought together 58 of the world's greatest environmental systems experts. These professionals have, in 46 specific topic headings, divided into six major sections, provided very insightful information and guidance as to what industrial ecology entails, how it can be implemented, and its benefits . . . a very valuable tool . . . This book provides essential information to mid- and top-level management that can enable industry to make more prudent business decisions regarding the manufacturing of its products.' - Robert John Klancko, Environmental Practice Industrial ecology is coming of age and this superb book brings together leading scholars to present a state-of-the-art overviews of the subject.
Industrial Ecology
To a significant degree, the first edition of this book defined the new field of industrial ecology, the restructuring of technological activity to incorporate environmental concerns. Important topics from that book are updated here, among them life-cycle assessment product design for the environment the incorporation of environmental considerations into product development integrating industrial ecology into corporations budgets and cycles In addition, the new edition includes entire chapters on topics that are becoming or have become newly important to the field: the biological model applied to industrial systems the status of resources the transition from products to services systems analysis Earth systems engineering and management While still serving as a practical guide to product designers and corporate managers, the new edition also provides guidance for the broader task of mapping a societal evolution to a more sustainable world, thus justifying industrial ecology's label as "the science and technology of sustainability."
Linkages of Sustainability
In this book, experts engage in an extended dialogue arguing for a comprehensive view of sustainability. They emphasize the constraints imposed by the relationships among the components, for example, how the need for clean, easily accessible water intersects with the need for the energy required to provide it. This book urges a transformation in the way we view sustainability, a transformation that is necessary if we are to plan responsibly for a more sustainable world.--[book jacket].
Industrial Ecology and Global Change
Discusses a different approach to addressing environmental problems, aimed at a broad interdisciplinary audience.
Atmospheric Corrosion
ATMOSPHERIC CORROSION Presents a comprehensive look at atmospheric corrosion, combining expertise in corrosion science and atmospheric chemistry Atmospheric corrosion has been a subject of engineering study, largely empirical, for nearly a century. Scientists came to the field rather later on and had considerable difficulty bringing their arsenal of tools to bear on the problem. Atmospheric corrosion was traditionally studied by specialists in corrosion having little knowledge of atmospheric chemistry, history, or prospects. Atmospheric Corrosion provides a combined approach bringing together experimental corrosion and atmospheric chemistry. The second edition expands on this approach by inc...
Greening the Industrial Facility
This textbook and reference fills a critical gap in literature on the comprehensive environmental impacts of industrial organizations. Nineteen chapters examine individual industrial sectors inherent "potential to pollute." The text goes on to analyze new technologies and practices for transforming environmentally degrading effects of industry, and shows how managers can navigate these changes and move their organizations towards long-term environmental sustainability.
Atmosphere, Climate, and Change
What's the reliability behind the claims and counterclaims of environmental doom resulting from the greenhouse effect, the global impact of pollution, and holes in the ozone layer? While many media reports focus on recent trends, such as variations in average temperature over a decade or two, these accounts tell us little or nothing about how changes in climate actually occur, or what long-term significance they may have. In Atmosphere, Climate and Change, world renowned experts on the chemistry of the atmosphere Thomas E. Graedel and Paul J. Crutsen take us behind the scenes of local climate change to reveal the workings of the atmosphere in its larger context, as a component of Earth as a system. By exploring the causes of long-term climate change and the sources and pitfalls of scientific prediction, they give us a new understanding of what changes are likely to occur in the future and what can be done about them.
Streamlined Life-cycle Assessment
This book examines the question of what makes one design environmentally preferable to another. Graedel discusses data and analyzes the streamlined life-cycle assessment process in the context of the goals of a particular process or product. FEATURES Discusses environmental objectives as the basis of life-cycle assessment. Focuses on streamlined LCAs, a technique common in industry today. Includes unique coverage of the assessment of societal infrastructures (Ch. 12). Ends with a hypothetical discussion of what an environmentally perfect product might look like. Includes useful checklists for performing SLCA.
Designing Regenerative Cultures
This is a ‘Whole Earth Catalog’ for the 21st century: an impressive and wide-ranging analysis of what’s wrong with our societies, organizations, ideologies, worldviews and cultures – and how to put them right. The book covers the finance system, agriculture, design, ecology, economy, sustainability, organizations and society at large.
Handbook of Green Chemistry and Technology
Sustainable development is now accepted as a necessary goal for achieving societal, economic and environmental objectives. Within this chemistry has a vital role to play. The chemical industry is successful but traditionally success has come at a heavy cost to the environment. The challenge for chemists and others is to develop new products, processes and services that achieve societal, economic and environmental benefits. This requires an approach that reduces the materials and energy intensity of chemical processes and products; minimises the dispersion of harmful chemicals in the environment; maximises the use of renewable resources and extends the durability and recyclability of products in a way that increases industrial competitiveness as well as improve its tarnished image.
