Process Automation to Improve the Building Engineering Design Analysis of Non-Repetitive Façade Geometries

Q1 Engineering

Journal of Facade Design and Engineering Pub Date : 2022-12-20 DOI:10.47982/jfde.2022.1.05

Jacopo Montali

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引用次数: 0

Abstract

This paper evaluates how parts of the building engineering design processes can be automated using software automation, with a focus on the analysis of thermal bridges in façades. Reduced repetition in façade design requires the automation of routine tasks that would otherwise be performed manually. Because full software automation is seldom achievable, a preliminary decision-making process that considers both the effort to create automation and the benefit to exploit it is required. A methodology is presented to achieve beneficial trade-offs between effort and benefits, by using heuristic knowledge. The knowledge was gathered by interviews with façade professionals. The methodology was tested on two case studies based on the analysis of the expected thermal bridge heat loss of two large-scale and low-repetition buildings. The results of the automated process described in the methodology were compared against information obtained from traditional approach, where the engineer/consultant performs each individual task manually. The results shows that the introduction of automation leads to time savings of 44%, if compared to the manual approach.

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改进非重复表面几何结构的建筑工程设计分析的过程自动化

本文评估了如何使用软件自动化实现建筑工程设计过程的自动化，重点是分析外墙中的热桥。减少立面设计中的重复需要自动化日常任务，否则这些任务将手动执行。由于完全的软件自动化很少实现，因此需要一个初步的决策过程，既考虑创建自动化的努力，也考虑利用自动化的好处。提出了一种利用启发式知识在努力和收益之间实现有益权衡的方法。这些知识是通过对立面专业人士的采访而收集的。基于对两栋大型低重复建筑的预期热桥热损失的分析，在两个案例研究中对该方法进行了测试。将该方法中描述的自动化过程的结果与从传统方法中获得的信息进行比较，在传统方法中，工程师/顾问手动执行每个单独的任务。结果表明，与手动方法相比，自动化的引入节省了44%的时间。

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 Engineering-Architecture

CiteScore

1.90

自引率

0.00%

发文量

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.