Design of concrete buildings for disassembly: An explorative review

Wasim Salama
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引用次数: 49

Abstract

Due to various kinds of obsolescence, a large number of concrete buildings around the world are removed to give space for new buildings, however, the elements of these buildings in most cases have the ability to serve longer time, but the dominant demolition end-of-life scenario prevents from the reuse of these elements. It has been demonstrated that reuse of elements and materials is an environmentally responsible option that turns the current linear model of building materials and elements into a cyclic one, which pushes toward reconsidering the construction design of concrete buildings to support future disassembly, that facilitate reuse and adaptation. This study tends to explore and review the current issues related to concrete technologies and their role in building assembly and disassembly, as well as DfD “design for disassembly” aspects and theories that clarify and pave the way for future innovations, which move the construction design of concrete buildings to a higher degree of environmental responsibility. The study found out that despite the continuous developments in the field of concrete technologies, the link of these developments to the end-of-life phase is still missing. The study concluded that it is possible through the application of DfD criteria on precast concrete systems and elements to change the liner life-cycle model to a cyclic one.

可拆卸混凝土建筑的设计:一个探索性的回顾
由于各种各样的陈旧,世界各地大量的混凝土建筑被拆除,为新建筑腾出空间,然而,这些建筑的元素在大多数情况下都有能力使用更长的时间,但主要的拆除寿命结束场景阻止了这些元素的再利用。已经证明,元素和材料的再利用是一种对环境负责的选择,它将当前的建筑材料和元素的线性模型转变为循环模型,这推动了重新考虑混凝土建筑的结构设计,以支持未来的拆卸,从而促进再利用和适应。本研究旨在探讨和回顾当前与混凝土技术及其在建筑装配和拆卸中的作用相关的问题,以及DfD“拆卸设计”方面和理论,这些方面和理论澄清并为未来的创新铺平了道路,这些创新将混凝土建筑的施工设计推向更高的环境责任程度。研究发现,尽管混凝土技术领域不断发展,但这些发展与生命终结阶段的联系仍然缺失。研究表明,通过将DfD准则应用于预制混凝土体系和构件,可以将衬垫寿命周期模型转变为循环寿命周期模型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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