Environment Conscious ManufacturingSurendra M. Gupta, A.J.D. (Fred) Lambert CRC Press, 2007/12/19 - 560 ページ 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 indus |
目次
1 | |
Product Design for the Environment The Life Cycle Perspective and a Methodological Framework for the Design Process | 33 |
Product Life Cycle Monitoring via Embedded Sensors | 91 |
Quantitative DecisionMaking Techniques for ReverseClosedLoop Supply Chain Design | 105 |
Proactive Yesterday Responsive Today Use of Information to Enhance Planning in ClosedLoop Supply Chains | 215 |
Disassembly Line Balancing | 235 |
Multikanban System for Disassembly Line | 311 |
Disassembly Sequencing Problem Resolving the Complexity by Random Search Techniques | 331 |
Planning Disassembly for RemanufacturetoOrder Systems | 387 |
Facility and Storage Space Design Issues in Remanufacturing | 413 |
Some Studies on Remanufacturing Activities in India | 445 |
Optimal Control Policy for EnvironmentConscious Manufacturing Systems | 473 |
Disassembly and Reverse Logistics The Case of the Computer Industry | 491 |
Evaluating EnvironmentConscious Manufacturing Barriers with Interpretive Structural Modeling | 509 |
525 | |
HumanintheLoop Disassembly Modeling and Planning | 363 |
多く使われている語句
algorithm analysis application approach aspects average balance calculated changes collection combinatorial optimization complete components computers condition considered constraints consumers contains core cost criteria cycle decision demand determine direction disassembly disassembly line disposal DLBP economic effective enable energy Engineering environment environmental Evaluation example exist facility factors Figure flows function fuzzy given Gupta heuristic impact implementation important industrial instance integrated International inventory issues Journal layout linguistic logistics materials matrix measure method needs normalized objective obtained operations optimal performance period phase planning possible problem programming recovery recycling References relative remanufacturing removal repair represents requirements Research respect returns reuse reverse selection sequence shows solution space Step strategies subassembly supply chain Table techniques Technology tion uncertainty unit variables waste weight workstation yield
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