Solar radiation-based method for early design stages to balance daylight and thermal comfort in office buildings

IF 3.1 1区 艺术学 0 ARCHITECTURE
Abel Sepúlveda , Seyed Shahabaldin Seyed Salehi , Francesco De Luca , Martin Thalfeldt
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引用次数: 2

Abstract

There is a lack of facade design methods for early design stages to balance thermal comfort and daylight provision that consider the obstruction angle as an independent variable without using modeling and simulations. This paper aims to develop easy-to use solar radiation-based prediction method for the design of office building facades (i.e., design parameters: room size, window-to-floor ratio, and glazing thermal/optical properties) located in urban canyons to balance daylight provision according to the European standard EN 17037:2018 and thermal comfort through specific cooling capacity. We used a simulation-based methodology that includes correlation analyses between building performance metrics and design parameters, the development of design workflows, accuracy analysis, and validation through the application of the workflows to a new development office building facades located in Tallinn, Estonia. The validation showed that the mean percentage of right/conservative predictions of thermal comfort classes is 98.8% whereas for daylight provision, it is higher than 75.6%. The use of the proposed prediction method can help designers to work more efficiently during early design stages and to obtain optimal performative solutions in much shorter time: window sizing in 73,152 room combinations in 80 s.

办公楼早期设计阶段平衡日光和热舒适性的基于太阳辐射的方法
早期设计阶段缺乏平衡热舒适性和日光供应的立面设计方法,将障碍角视为自变量,而不使用建模和模拟。本文旨在开发一种易于使用的基于太阳辐射的预测方法,用于位于城市峡谷中的办公楼立面设计(即设计参数:房间大小、窗地比和玻璃的热/光学特性),以根据欧洲标准EN 17037:2018平衡日光供应和通过特定制冷能力的热舒适性。我们使用了一种基于模拟的方法,包括建筑性能指标和设计参数之间的相关性分析、设计工作流程的开发、准确性分析,以及通过将工作流程应用于爱沙尼亚塔林的新开发办公楼外墙进行验证。验证表明,热舒适等级的正确/保守预测的平均百分比为98.8%,而对于日光供应,使用所提出的预测方法可以帮助设计师在早期设计阶段更有效地工作,并在更短的时间内获得最佳的性能解决方案:在80秒内确定73152个房间组合的窗户尺寸。
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来源期刊
CiteScore
6.20
自引率
2.90%
发文量
430
审稿时长
30 weeks
期刊介绍: Frontiers of Architectural Research is an international journal that publishes original research papers, review articles, and case studies to promote rapid communication and exchange among scholars, architects, and engineers. This journal introduces and reviews significant and pioneering achievements in the field of architecture research. Subject areas include the primary branches of architecture, such as architectural design and theory, architectural science and technology, urban planning, landscaping architecture, existing building renovation, and architectural heritage conservation. The journal encourages studies based on a rigorous scientific approach and state-of-the-art technology. All published papers reflect original research works and basic theories, models, computing, and design in architecture. High-quality papers addressing the social aspects of architecture are also welcome. This journal is strictly peer-reviewed and accepts only original manuscripts submitted in English.
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