Hotter temperatures, less arctic ice, loss of habitat-every other day, it seems, global warming and environmental issues make headlines. Consumer-driven environmental awareness combined with stricter recycling regulations have put the pressure on companies to produce and dispose of products in an environmentally responsible manner. Redefining industrial ecology, while reconsidering the original definition, Environment-Conscious Manufacturing explores topics such as industrial metabolism, product design for the environment, design of reverse and closed-loop supply chains, and disassembly modeling, using case studies to support the discussion. After introducing basic concepts and the historical roots of environment conscious manufacturing (ECM), the text covers algorithms and heuristics; design for disassembly; the environment, recycling, and remanufacturing; disassembly process planning and scheduling; environmental impact assessment models; lifecycle assessment; logistic aspects; product reuse and recovery; and sustainable products. The chapter contributors discuss the selection of economical products, collection centers, recovery facilities, production facilities, second-hand markets and new products, the optimal transportation of goods, and the evaluation of a marketing strategy and futurity of used products. The book ends with an overview of the barriers to ECM and explores how to use integrative structural modeling to investigate, analyze, and overcome them. "Environmentally friendly" has evolved from reluctant compliance with required regulations to a mechanism for gaining the competitive advantage and an important part of strategic management. Expected benefits of this paradigm shift include safer and cleaner facilities, lower future costs for disposal and worker protection, reduced environmental and health risks, and improved product quality at lower cost and higher productivity. Describing the basic elements of ECM, this book gives you the tool

Industry has grown to recognize the value of disassembly processes across a wide range of products. Increasing legislation that may soon require mandatory recycling of many post-consumed goods and a desire to develop more environmentally benign end-of-life processes has fueled research into this concept. Traditionally, disassembly has been viewed as the reverse of assembly; however, a novel view considers just the opposite, leading to a more optimized disassembly process. Disassembly Modeling for Assembly, Maintenance, Reuse, and Recycling presents this approach in the context of the entire product life cycle. The book examines disassembly on the intermediate level, incorporating design for disassembly, concurrent design, and reverse logistics. In this first text to supply a comprehensive discussion of the theories and methodologies associated with this approach, the authors incorporate real world case examples to explore the three main areas of application of the theory: assembly optimization, maintenance and repair, and end-of-life processing. This is a timely resource for companies that wish to enact environmentally conscious systems efficiently. With an analysis of associated costs, system design requirements, advantages, and expected results, this is also an indispensable tool for researchers, mechanical and industrial engineers, and professionals involved in concurrent design.

Hotter temperatures, less arctic ice, loss of habitat-every other day, it seems, global warming and environmental issues make headlines. Consumer-driven environmental awareness combined with stricter recycling regulations have put the pressure on companies to produce and dispose of products in an environmentally responsible manner. Redefining industrial ecology, while reconsidering the original definition, Environment-Conscious Manufacturing explores topics such as industrial metabolism, product design for the environment, design of reverse and closed-loop supply chains, and disassembly modeling, using case studies to support the discussion. After introducing basic concepts and the historical roots of environment conscious manufacturing (ECM), the text covers algorithms and heuristics; design for disassembly; the environment, recycling, and remanufacturing; disassembly process planning and scheduling; environmental impact assessment models; lifecycle assessment; logistic aspects; product reuse and recovery; and sustainable products. The chapter contributors discuss the selection of economical products, collection centers, recovery facilities, production facilities, second-hand markets and new products, the optimal transportation of goods, and the evaluation of a marketing strategy and futurity of used products. The book ends with an overview of the barriers to ECM and explores how to use integrative structural modeling to investigate, analyze, and overcome them. "Environmentally friendly" has evolved from reluctant compliance with required regulations to a mechanism for gaining the competitive advantage and an important part of strategic management. Expected benefits of this paradigm shift include safer and cleaner facilities, lower future costs for disposal and worker protection, reduced environmental and health risks, and improved product quality at lower cost and higher productivity. Describing the basic elements of ECM, this book gives you the tool