Download Advances in Life Cycle Engineering for Sustainable by Shozo Takata, Yasushi Umeda PDF
By Shozo Takata, Yasushi Umeda
Lifestyles cycle engineering offers with applied sciences for transferring the from mass creation and mass intake paradigm to closed loop production paradigm, during which required features are supplied for purchasers with the minimal volume of construction. This topic is mentioned from a few of the points, corresponding to lifestyles cycle layout, layout for setting, reduce/reuse/recycle, existence cycle review, and sustainable enterprise models.
Advances in lifestyles Cycle Engineering for Sustainable production companies gathers jointly papers from the 14th CIRP existence Cycle Engineering convention. This convention is the longest working annual assembly within the box, within which papers are awarded concerning advancements of cutting edge applied sciences, proposals of recent ideas, and trendy case stories.
Read Online or Download Advances in Life Cycle Engineering for Sustainable Manufacturing Businesses: Proceedings of the 14th CIRP Conference on Life Cycle Engineering, Waseda University, Tokyo, Japan, June 11th-13th, 2007 PDF
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Extra resources for Advances in Life Cycle Engineering for Sustainable Manufacturing Businesses: Proceedings of the 14th CIRP Conference on Life Cycle Engineering, Waseda University, Tokyo, Japan, June 11th-13th, 2007
Designers are thus in the heart of the overall industrial changes: they are responsible of developing products that are clean and will fit the end-of-life (EoL) process. ) The major problem of bottom-up methods is that they can only be performed after the product is fully developed and therefore will only enable corrective actions. Top-down methodologies make it possible to integrate environmental thinking very soon, but independently from the product in development. Thus, a gap needs to be fulfilled by developing a method which allows taking decision related to the design of products but driven by an environmental justification: scientific environmental indicators need to be built in order to make the designers choices robust.
Keywords: Parts reuse, Conceptual design, End-of-life product 1 INTRODUCTION Environmental treatment strategy for End-of-life products, here called as EOL-Eco-Strategy, is being emphasized and implemented by governments, society, legislators, and manufacturers. Due to industrialization and mass production, a large number of products are produced and sold to customer everyday, and meanwhile, many products are discarded. g. the EU Directive of WEEE, certain disused products need to be taken back and recycled by their manufacturers or distributors, called as take-back responsibility.
Therefore, in order to measure the products performances, we have to compare the different alternatives taking into account many usage cycles. In a classical lifecycle, the performer knows exactly the system that is studied and usually can investigate some unlit points. During the design, not much information is available and strong assumptions have to be made, also because of the lack of 3R processes existing in the LCA databases. We have demonstrated it is worth the effort though. Indeed, formulating strong assumptions (such as considering the distribution channel as the same as the collect channel) guaranty a strong veracity in the conclusion that a recovery strategy can still be better than an end-of-pipe one.