计算bim对现有建筑围护结构进行绿色改造

Building Information Modelling (BIM) in Design, Construction and Operations III Pub Date : 2019-12-10 DOI:10.2495/bim190041

Y. Lim, Taki Eddine Seghier, Muhamad Farhin Harun, M. Ahmad, A. A. Samah, H. Majid

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引用次数: 3

摘要

绿色改造是将现有建筑转变为绿色建筑的关键，但其设计和分析过程依赖于许多互不相关的方法。为了优化建筑效率，需要做出各种决定，例如建筑材料的选择、开口尺寸和玻璃类型。因此，本研究探索了计算建筑信息模型(BIM)的应用，以自动化现有建筑围护结构绿色改造的设计决策过程。将BIM工具(Revit)、可视化编程工具(Dynamo)和多目标优化算法集成在一起，通过优化总热传递值(OTTV)和建筑投资成本，创建了基于BIM的建筑围护结构改造计算方法。通过实例验证了该模型的有效性;结果表明，优化后的设计实现了44.78%的otv降低，投资成本为rm369,182(马来西亚林吉特)。新提出的基于计算bim的方法可以提高绿色改造设计决策的自动化水平。

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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COMPUTATIONAL BIM FOR GREEN RETROFITTING OF THE EXISTING BUILDING ENVELOPE

Green retrofit is crucial to turning existing buildings into green buildings, but its design and analysis process is dependent on numerous disjointed methods. Various decisions are required to optimise the building efficiency, such as the choices of building materials, opening sizes, and glazing types. Therefore, this study explores the application of computational building information modelling (BIM) to automate the process of design decision-making for green retrofitting of the existing building envelope. A BIM tool (Revit), a visual programming tool (Dynamo) and multi-objective optimisation algorithm were integrated to create a computational BIM-based method for building envelope retrofitting by optimising overall thermal transfer value (OTTV) and construction investment cost. The proposed model was validated through a case study; the results showed that the optimised design achieved 44.78% reduction in OTTV with investment costs of RM (Malaysian ringgit) 369,182. The newly formulated computational BIM-based approach can improve the level of automation in green retrofitting design decision-making.

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Building Information Modelling (BIM) in Design, Construction and Operations III

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