用木材元素进行拆卸的设计:基于瑞士两个案例研究的策略

IF 2.2 Q2 CONSTRUCTION & BUILDING TECHNOLOGY
Cäsar Grüter, Matthew Gordon, Marcel Muster, Fabian Kastner, Philippe Grönquist, Andrea Frangi, Silke Langenberg, Catherine De Wolf
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引用次数: 0

摘要

当木结构建筑被拆解,其组成部分被燃烧或生物降解时,储存在木结构中的碳以二氧化碳的形式释放到大气中。木材元素的再利用防止了这一过程的发生,从而延缓了由温室气体排放引起的全球变暖。尽管瑞士的木材再利用有着悠久的历史传统,但目前木质建筑在拆卸后被再利用的比例很低。在本研究中,分析了促进木材元素循环使用的策略。重点在于设计过程,从两个角度进行调查:在建筑生命周期开始时的策略,使新的木材元素周期出现(设计为拆卸,或DforD),以及在建筑生命周期结束时的策略,以保持现有的木材元素周期关闭(设计从拆卸,或dfrommd)。从这两个角度分析了瑞士最近完成的多层木材混合建筑的两个案例研究。关于DforD,开发了一个评分系统,根据单个元素的拆卸和重用潜力来评估它们。关于DfromD,创建了一个建筑设计优化工具,该工具将建筑的尺寸设计公差作为输入,并提出了采购优化和结构安全的可重用元素安排,这些元素来自基于两个案例研究的库存。研究发现,钢筋混凝土和木材部件之间的连接在DforD方面起着至关重要的作用,并且根据所选择的优化变量,具有dfrommd元素的建筑布局可能会有很大的不同。总之,这两个应用程序都有可能扩大重用元素的竞争力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design for and from disassembly with timber elements: strategies based on two case studies from Switzerland
When a timber building gets disassembled and its elements either are burned or biodegrade, the carbon stored in the timber structure gets released to the atmosphere as CO 2 . Reusing timber elements prevents this process from happening and thus delays the global warming caused by greenhouse gas emissions. Even if there is a long historic tradition of timber reuse in Switzerland, currently a low fraction of a timber building’s elements is being reused after its disassembly. In this study, strategies that could facilitate circular use of timber elements are analyzed. The focus lies on the design process, which is investigated from two perspectives: strategies at the start-of-life of buildings to enable new timber element cycles to emerge (design for disassembly, or DforD), and strategies at the end-of-life of buildings to keep existing timber elements cycles closed (design from disassembly, or DfromD). Two case studies of recently completed multi-story timber-hybrid buildings in Switzerland were analyzed from both perspectives. Regarding DforD, a scoring system was developed that assesses single elements according to their disassembly and reuse potential. Regarding DfromD, a building design optimization tool was created that takes dimensional design tolerances of a building as an input and proposes a procurement-optimized and structurally safe arrangement of reused elements, which are taken from an inventory that is based on the two case studies. It was found that connections between reinforced concrete and timber parts play a crucial role in terms of DforD and that building layouts with DfromD elements may vary widely according to the chosen optimization variable. In conclusion, both applications have the potential to scale up the competitiveness of reused elements.
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来源期刊
Frontiers in Built Environment
Frontiers in Built Environment Social Sciences-Urban Studies
CiteScore
4.80
自引率
6.70%
发文量
266
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