Upcycling Space Structures

Q1 Arts and Humanities

International Journal of Space Structures Pub Date : 2021-12-01 DOI:10.1177/09560599211068076

C. Fivet, O. Baverel

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The structural designers’ toolset to tackle this multifaceted environmental challenge traditionally consists in (1) avoiding waste and new production by re-assessing and/or improving existing structures; (2) reducing newlyproduced material volumes by optimizing structural layouts and sizing; and (3) substituting classical materials with low-carbon alternatives – e.g. bio-based or recycled materials. While these three strategies are necessary, they are not satisfactory. The current special issue explores the potential of a fourth strategy, consisting in designing new structures, and in particular space structures, made of reused components. Contrary to recycling, the aim of component reuse is to avoid reprocessing material and to make the most of the geometrical features and mechanical capabilities of given products, while extending their lifespan. In other words, component reuse aims at designing structures that upcycle waste generated elsewhere. From sorting out the inherent variability of a reusable set of components, to dealing with the incomplete description of their predefined capabilities, the change of paradigm triggers a series of new design tasks that are yet to be supported by appropriate algorithms and computational tools. More importantly, a whole new world of design opportunities opens up. The papers in this special issue address these challenges and opportunities frontally. The first one explores the reuse of steel or timber bar members in spatial truss layouts. It is authored by J. Brütting from EPFL, and P.O. Ohlbrock, P. D’Acunto, and J. Hofer from ETHZ. The second one studies the reuse of non-standardized metal sheets for corrugated shell structures. It is authored by S.M. Moussavi, H. Svatoš-Ražnjević, A. Körner, Y. Tahouni, A. Menges, and J. Knippers from the University of Stuttgart. The third one deals with the reuse of small timber pieces for reciprocal floor systems. It is authored by D. Parigi and L. Damkilde from Aalborg University. The fourth one addresses the reuse of thin strips with rectangular sections – e.g. skis – in elastic geodesic gridshells. It is authored by C. Haskell, N. Montagne, C. Douthe, O. Baverel from ParisTech, and C. Fivet from EPFL. The fifth one considers the reuse of magazines to form structural membranes. It is authored by A. Le Pavec, S. Zerhouni, N. Leduc, K. Kuzmenko, and M. Brocato from the ENSA Paris-Malaquais. The idea of this special issue emerged during discussions within the Working-Group 18 on “Life-Cycle Design and Assessment of Shell and Spatial Structures”, hosted by the International Association for Shell and Spatial Structures (IASS), and chaired by the guest editors of this issue. We thank the IASS for their support and invite all interested readers of this IJSS issue to join Working-Group 18, as we will continue generating fascinating discussions on upcycling structures. Waste – whose etymological root *h1weh2means “to leave, abandon, give out”5 – is a transient state and must urgently be reclaimed by structural designers. Because of its ubiquity, diversity and historical marginalization, waste upcycling in structural applications is a source of yet untapped technological developments. By providing a ready-to-use, time-proven mechanical behavior, upcycled waste presents a one-of-a-kind industrial value. By exhibiting non-duplicable physical traces of its prior purpose or of wear and tear, upcycled waste can have more cultural or aesthetic value than any newly-manufactured materials. 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引用次数: 0

Abstract

The construction industry’s contribution to the deterioration of Earth’s ecosystem is huge. 11% of all anthropic greenhouse gas emissions worldwide are due to the construction, demolition, and transformation of buildings and infrastructure.1 Construction and demolition waste are the largest waste stream by volume and weight in the European Union making up about a third of all waste produced2 – other continents follow the same trend or are doomed to follow it in the near future. The construction industry contributes to both natural resource depletion and the degradation of ecosystem services.3 By 2050, 70% of the world’s population will live in urban areas4: growth and densification of cities will accelerate the obsolescence of buildings, leading to their premature partial or full demolition. The structural designers’ toolset to tackle this multifaceted environmental challenge traditionally consists in (1) avoiding waste and new production by re-assessing and/or improving existing structures; (2) reducing newlyproduced material volumes by optimizing structural layouts and sizing; and (3) substituting classical materials with low-carbon alternatives – e.g. bio-based or recycled materials. While these three strategies are necessary, they are not satisfactory. The current special issue explores the potential of a fourth strategy, consisting in designing new structures, and in particular space structures, made of reused components. Contrary to recycling, the aim of component reuse is to avoid reprocessing material and to make the most of the geometrical features and mechanical capabilities of given products, while extending their lifespan. In other words, component reuse aims at designing structures that upcycle waste generated elsewhere. From sorting out the inherent variability of a reusable set of components, to dealing with the incomplete description of their predefined capabilities, the change of paradigm triggers a series of new design tasks that are yet to be supported by appropriate algorithms and computational tools. More importantly, a whole new world of design opportunities opens up. The papers in this special issue address these challenges and opportunities frontally. The first one explores the reuse of steel or timber bar members in spatial truss layouts. It is authored by J. Brütting from EPFL, and P.O. Ohlbrock, P. D’Acunto, and J. Hofer from ETHZ. The second one studies the reuse of non-standardized metal sheets for corrugated shell structures. It is authored by S.M. Moussavi, H. Svatoš-Ražnjević, A. Körner, Y. Tahouni, A. Menges, and J. Knippers from the University of Stuttgart. The third one deals with the reuse of small timber pieces for reciprocal floor systems. It is authored by D. Parigi and L. Damkilde from Aalborg University. The fourth one addresses the reuse of thin strips with rectangular sections – e.g. skis – in elastic geodesic gridshells. It is authored by C. Haskell, N. Montagne, C. Douthe, O. Baverel from ParisTech, and C. Fivet from EPFL. The fifth one considers the reuse of magazines to form structural membranes. It is authored by A. Le Pavec, S. Zerhouni, N. Leduc, K. Kuzmenko, and M. Brocato from the ENSA Paris-Malaquais. The idea of this special issue emerged during discussions within the Working-Group 18 on “Life-Cycle Design and Assessment of Shell and Spatial Structures”, hosted by the International Association for Shell and Spatial Structures (IASS), and chaired by the guest editors of this issue. We thank the IASS for their support and invite all interested readers of this IJSS issue to join Working-Group 18, as we will continue generating fascinating discussions on upcycling structures. Waste – whose etymological root *h1weh2means “to leave, abandon, give out”5 – is a transient state and must urgently be reclaimed by structural designers. Because of its ubiquity, diversity and historical marginalization, waste upcycling in structural applications is a source of yet untapped technological developments. By providing a ready-to-use, time-proven mechanical behavior, upcycled waste presents a one-of-a-kind industrial value. By exhibiting non-duplicable physical traces of its prior purpose or of wear and tear, upcycled waste can have more cultural or aesthetic value than any newly-manufactured materials. By avoiding the production of new materials, upcycled waste Upcycling Space Structures 1068076 SPS0010.1177/09560599211068076International Journal of Space StructuresEditorial editorial2021

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向上循环空间结构

建筑业对地球生态系统恶化的贡献是巨大的。全球11%的人类温室气体排放源于建筑和基础设施的建设、拆除和改造。1建筑和拆除废物是欧盟体积和重量最大的废物流，约占产生的所有废物的三分之一2——其他大陆也遵循同样的趋势，或注定在不久的将来也会遵循这一趋势。建筑业导致自然资源枯竭和生态系统服务退化。3到2050年，世界70%的人口将生活在城市地区4：城市的增长和密集将加速建筑的过时，导致其过早地部分或全部拆除。结构设计师应对这一多方面环境挑战的工具集传统上包括：（1）通过重新评估和/或改进现有结构来避免浪费和新生产；（2）通过优化结构布局和尺寸来减少新生产的材料量；以及（3）用低碳替代品替代传统材料，例如生物基或回收材料。虽然这三种策略是必要的，但它们并不令人满意。目前的特刊探讨了第四种战略的潜力，包括设计新的结构，特别是由可重复使用的组件制成的空间结构。与回收相反，部件再利用的目的是避免对材料进行再加工，并充分利用给定产品的几何特征和机械性能，同时延长其使用寿命。换言之，组件再利用旨在设计能够回收其他地方产生的废物的结构。从整理可重用组件集的固有可变性，到处理其预定义功能的不完整描述，范式的变化触发了一系列新的设计任务，这些任务尚未得到适当算法和计算工具的支持。更重要的是，一个全新的设计机会世界打开了。本期特刊的论文正面探讨了这些挑战和机遇。第一部分探讨了空间特拉斯布局中钢筋或木材杆件的重复使用。该书由EPFL的J.Brütting和ETZ的P.O.Ohlbrock、P.D’Acunto和J.Hofer撰写。第二部分研究了非标准化金属板在波纹壳结构中的再利用。该书由斯图加特大学的S.M.Moussavi、H.Svatoš-Ražnjević、A.Körner、Y.Tahouni、A.Menges和J.Knippers撰写。第三个是关于相互地板系统中小木材的再利用。该书由奥尔堡大学的D.Parigi和L.Damkilde撰写。第四个问题是在弹性测地线网格壳中重复使用矩形截面的薄条，例如滑雪板。该书由ParisTech的C.Haskell、N.Montagne、C.Douthe、O.Baverel和EPFL的C.Fivet撰写。第五个考虑了弹匣的再利用以形成结构膜。该书由巴黎-马拉奎斯ENSA的A.Le Pavec、S.Zerhouni、N.Leduc、K.Kuzmenko和M.Brocato撰写。这一特刊的想法是在国际壳体和空间结构协会主办、本期客座编辑主持的关于“壳体和空间构筑物的生命周期设计和评估”的第18工作组讨论期间提出的。我们感谢IASS的支持，并邀请所有对IJSS问题感兴趣的读者加入第18工作组，因为我们将继续就升级循环结构进行引人入胜的讨论。废物——其词源词根*h1weh2的意思是“离开、抛弃、给予”5——是一种短暂的状态，必须由结构设计师紧急回收。由于其普遍性、多样性和历史边缘化，结构应用中的废物升级循环是尚未开发的技术发展的来源。通过提供现成的、经过时间验证的机械性能，回收废物具有独一无二的工业价值。通过展示其先前用途或磨损的不可复制的物理痕迹，回收废物可以比任何新制造的材料具有更大的文化或美学价值。通过避免生产新材料，回收废物回收空间结构1068076 SPS0010.1177/09560599211068076国际空间结构杂志编辑2021

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来源期刊

International Journal of Space Structures Arts and Humanities-Conservation

CiteScore

2.00

自引率

0.00%

发文量

期刊介绍： The aim of the journal is to provide an international forum for the interchange of information on all aspects of analysis, design and construction of space structures. The scope of the journal encompasses structures such as single-, double- and multi-layer grids, barrel vaults, domes, towers, folded plates, radar dishes, tensegrity structures, stressed skin assemblies, foldable structures, pneumatic systems and cable arrangements. No limitation on the type of material is imposed and the scope includes structures constructed in steel, aluminium, timber, concrete, plastics, paperboard and fabric.