Circular, biomimicry-based, and energy-efficient façade development for renovating terraced dwellings in the Netherlands

Ana Luíza Binow Bitar, Ivar Bergmans, M. Ritzen
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Abstract

Many studies concerning lowering the Operational Energy (OE) of existing dwellings have been conducted. However, those studies barely cover its collateral Embodied Energy (EE). As the Circular Economy is gaining momentum and the balance between OE and EE is shifting, the Life Cycle Energy Performance (LCEP) is becoming increasingly relevant as an indicator. LCEP accounts for all the OE and EE a building consumes during its lifespan. However, clear insights into the LCEP are still to be investigated. This study focuses on developing a circular and energy-efficient renovation solution for a common terraced dwelling typology in the Netherlands. The energy-efficient renovation is based on three circular strategies: Biomimicry, Urban Mining, and Design for Disassembly (DfD), covering the aspects of EE and future reuse of building materials and components. The developed renovation solution reduces 82% of the LCEP compared to the existing scenario. With additional photovoltaic (PV) modules, the dwelling reduces 100% of the LCEP. Applying biomimicry, urban mining, and DfD-based renovation can significantly lower the overall LCEP and its collateral environmental impacts to achieve a Life Cycle Zero Energy circular renovation.
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荷兰用于翻新梯田式住宅的圆形、仿生和节能外墙开发
已经进行了许多关于降低现有住宅运行能量(OE)的研究。然而,这些研究几乎没有涵盖其附带的内含能量(EE)。随着循环经济的发展势头越来越大,OE和EE之间的平衡也在发生变化,生命周期能源绩效(LCEP)作为一个指标变得越来越重要。LCEP计算了建筑物在使用寿命内消耗的所有OE和EE。然而,对LCEP的明确见解仍有待研究。本研究的重点是为荷兰常见的梯田式住宅类型开发一种循环高效的翻新解决方案。节能改造基于三个循环策略:仿生、城市采矿和可拆卸设计(DfD),涵盖了EE和建筑材料和组件的未来再利用。与现有方案相比,开发的翻新解决方案减少了82%的LCEP。通过额外的光伏(PV)模块,住宅可减少100%的LCEP。应用仿生学、城市采矿和基于DfD的翻新可以显著降低整体LCEP及其附带的环境影响,以实现生命周期零能源循环翻新。
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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来源期刊
Journal of Facade Design and Engineering
Journal of Facade Design and Engineering Engineering-Architecture
CiteScore
1.90
自引率
0.00%
发文量
3
审稿时长
12 weeks
期刊介绍: The Journal of Facade Design and Engineering presents new research results and new proven practice in the field of facade design and engineering. The goal is to improve building technologies, as well as process management and architectural design. This journal is a valuable resource for professionals and academics involved in the design and engineering of building envelopes, including the following disciplines: Architecture Façade Engineering Climate Design Building Services Integration Building Physics Façade Design and Construction Management Novel Material Applications. The journal will be directed at the scientific community, but it will also feature papers that focus on the dissemination of science into practice and industrial innovations. In this way, readers explore the interaction between scientific developments, technical considerations and management issues.
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