INNOVATIVE APPROACH TO SUSTAINABLE MATERIAL SOURCING AND ITS IMPACT ON BUILDING PERFORMANCE

Eco-Architecture VII: Harmonisation between Architecture and Nature Pub Date : 2018-10-02 DOI:10.2495/ARC180111

Jaideep Singh Rajpurohit, B. Ceranic, Derek Latham

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Abstract

In this paper, a novel use of building materials and their impact on the building performance and its climatic adaptability is explored, based on a complex case study of a unique low energy sustainable building project. In particular, an innovative use of sycamore and its suitability as a structural and constructional timber has been investigated and reported, given that the current codes of practice deem that is not appropriate for structural applications due to its durability. A research method of in-situ longitudinal study has been adopted, concentrating on the monitoring and assessment of its structural performance and conditions in which it might deteriorate. On the component level, the research reports on the methods and standards of sycamore grading and classification, service classes, resistance to decay, impact of the moisture movement and results of its laboratory and in situ testing. On the system level, the climatic adaptability of the building as a whole has been analysed via dynamic performance simulation and compared to the in situ measurements. This was important in order to develop a holistic building performance monitoring strategy, but in particular, to understand the impact of building microclimate on the sycamore frame and hempcrete components of the external load-bearing wall. So far research has concluded that sycamore can be used as structural and constructional material in building design, but due attention has to be paid to construction detailing and provision of a breathable, low humidity environment with an effective resistance to decay and insect attack. This includes measures that ensure a low equilibrium moisture content conditions, effective ventilation provision and appropriate service class uses. It is important to state however, given the single site locality of sycamore sourcing, that results can only be interpreted in the context of the given case study, i.e. they cannot be extrapolated to broader geographical extents.

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可持续材料采购的创新方法及其对建筑性能的影响

本文通过对一个独特的低能耗可持续建筑项目的复杂案例研究，探讨了建筑材料的新用途及其对建筑性能和气候适应性的影响。特别是，考虑到目前的实践规范认为由于其耐久性而不适合用于结构应用，对悬铃木的创新使用及其作为结构和建筑木材的适用性进行了调查和报告。采用原位纵向研究的方法，重点对其结构性能和可能发生劣化的条件进行监测和评价。在构件水平上，研究报告了梧桐分级和分类的方法和标准，服务等级，耐腐性，水分运动的影响以及实验室和现场测试的结果。在系统层面上，通过动态性能模拟分析了建筑整体的气候适应性，并与现场测量结果进行了比较。这对于制定一个整体的建筑性能监测策略非常重要，但特别是要了解建筑小气候对梧桐框架和外部承重墙的麻混凝土组件的影响。到目前为止，研究已经得出结论，梧桐可以用作建筑设计中的结构和建筑材料，但必须适当注意建筑细节和提供透气，低湿度的环境，并有效地抵抗腐烂和昆虫侵害。这包括确保低平衡水分含量条件的措施，有效的通风供应和适当的服务等级使用。然而，重要的是要说明，鉴于梧桐采购的单一地点，结果只能在给定案例研究的背景下解释，即它们不能外推到更广泛的地理范围。

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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Eco-Architecture VII: Harmonisation between Architecture and Nature

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