基于数据和生命周期评估的模块化幕墙环境和循环评估框架

Luca Morganti, Peru Elguezabal Esnarrizaga, A. Pracucci, Theo Zaffagnini, Veronica Garcia Cortes, Andreas Rudenå, Birgit Brunklaus, Julen Astudillo Larraz
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引用次数: 0

摘要

为了帮助建筑行业实现可持续发展,设计师需要一些工具来说明最可行的设计方案。本文首先介绍了生命周期评估(LCA)方法和数字产品护照(DPP)工具在应用于幕墙定制模块时的机遇和局限性,然后提出了一个语义数据驱动框架,以促进低碳和循环幕墙模块的设计。该框架以文献和 H2020 项目 Basajaun 的实践成果为基础,整合了制造企业常用的计算机辅助技术,利用原始数据自动执行高效的可持续性评估流程。该解决方案创新了工业流程管理和建筑设计,支持创造更环保的产品。它还有助于输出支持报废方案的文件。开发方法包括调查所需的定量项目数据、环境因素和循环性信息,以及为生命周期清单定义流程图,为外墙模块的 DPP 扩展最佳实践。此外,该方法还涉及数据收集和信息技术的实施与组织。这可以通过定义本体来实现数字系统之间的互联。研究结果将有助于为定制预制外墙模块实施生命周期评估和设计方案评估实践,并提出进一步发展的领域。面临的挑战包括获取和共享有关环境影响和循环性的数据,但让利益相关者参与进来并解决技术限制问题可以提高可持续性。
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Data-driven and LCA-based Framework for environmental and circular assessment of Modular Curtain Walls
To assist the sustainable development of the building sector, designers require tools illustrating the most viable design options. This paper, starting by presenting the opportunities and limitations of the Life Cycle Assessment (LCA) methodology and Digital Product Passport (DPP) instrument when applied to Custom Modules for Curtain Walls, proposes a Semantic Data-driven Framework to facilitate the design of low-carbon and circular façade modules. Based on literature and the practical outcome of the H2020 project Basajaun, this framework integrates computer-aided technologies that manufacturing companies commonly employ to automate an efficient sustainability assessment process using primary data. This solution innovates industrial process management and architectural design and supports the creation of greener products. It also facilitates the output of documents supporting end-of-life scenarios. The development methodology involves investigating required quantitative project data, environmental factors, and circularity information, as well as the definition of flowcharts for the Life Cycle Inventory, extending a best practice for the façade module’s DPP. Furthermore, the methodology implicates data collection and IT implementation and organisation. This is through the definition of an ontology conceived for interconnection between digital systems. The findings shall contribute to implementing the LCA and DPP practices for custom prefabricated façade modules and suggest areas for further development. Challenges include obtaining and sharing data on environmental impacts and circularity, but involving stakeholders and addressing technical limitations can improve sustainability.
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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.
期刊最新文献
Data-driven and LCA-based Framework for environmental and circular assessment of Modular Curtain Walls Energy retrofit with prefabricated timber-based façade modules: pre- and post-comparison between two identical buildings Definition and design of a prefabricated and modular façade system to incorporate solar harvesting technologies Energy-saving potential of thermochromic coatings in transparent building envelope components Off-site prefabricated hybrid façade systems
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