MULTIOBJECTIVE OPTIMIZATION OF THE INTERGENERATIONAL RESIDENTIAL SPACE WITH THE GOAL OF DAYLIGHTING AND THERMAL COMFORT

IF 0.7 4区艺术学 0 ARCHITECTURE

Journal of Green Building Pub Date : 2023-03-01 DOI:10.3992/jgb.18.2.225

Jiehui Wang, Juanli Guo

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引用次数: 0

Abstract

(1) Background: An ageing population and two-child policy have led to the transformation of China’s family structure, and multigenerational residences account for an increasing proportion of mainstream family residences. Different generations of residents have great differences in behaviour patterns and health requirements, but existing residential buildings are not especially designed for health needs. (2) Methods: First, based on relevant codes and a questionnaire survey, the spatial needs and behaviour patterns of different generations of residents are obtained, and the benchmark model is established based on the Grasshopper (GH) parametric platform. Then, based on the GH platform and the building simulation plug-in, which are Ladybug Tools and a multiobjective optimization tool named Wallacei, daylight autonomy (DA), useful daylight illuminance (UDI), and the proportion of thermal discomfort hours (PDH) are taken as daylighting and thermal comfort indicators, and the bedroom location, orientation, bay size, depth to bay ratio, window form, window-to-wall ratio, and horizontal shading width are optimized. Finally, the Pareto front is analysed by the Technique for Order of Preference by Similarity to Ideal Solution (TOPSIS) comprehensive evaluation method, and the optimal solution is compared with existing multigenerational residences in Tianjin. (3) Results: First, the middle room, oriented south or south by east, large bay, small window-to-wall ratio, and bay window can effectively be improved for indoor thermal comfort, while rooms that are oriented south or south by east, small depth bay ratio, large window-to-wall ratio and balcony can effectively be improved for daylighting quality. Second, compared with existing buildings in Tianjin, the DA, UDI, and PDH of the adult bedroom with the ideal solution are increased by 33.7%, 3.5%, and 10.8%, respectively; the DA, UDI, and PDH of the child bedroom with the ideal solution are increased by 15.5%, 4.2%, and 4.9%, respectively; and the DA, UDI, and PDH of the elderly individual bedroom with the ideal solution are increased by 42.7%, 4.9%, and 1.7%, respectively. (4) Conclusions: The optimization scheme is substantially improved for the health of the indoor daylight and thermal environment of existing housing, and it provides a scientific and quantitative decision-making basis for the healthy design of multigenerational residences.

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以采光和热舒适为目标，对代际居住空间进行多目标优化

(1)背景:人口老龄化和二孩政策导致中国家庭结构发生转变，多代同堂住宅在主流家庭住宅中所占比例越来越大。不同世代的居民在行为模式和健康要求方面有很大差异，但现有的住宅建筑并非专为健康需求而设计。(2)方法:首先，基于相关规范和问卷调查，获取不同代际居民的空间需求和行为模式，并基于Grasshopper (GH)参数化平台建立基准模型;然后，基于GH平台和建筑仿真插件——Ladybug Tools和多目标优化工具Wallacei，以日光自主性(DA)、有效日照照度(UDI)和热不适时间比例(PDH)作为采光和热舒适指标，对卧室的位置、朝向、凸窗大小、深凸比、窗形、窗墙比、水平遮阳宽度进行优化。最后，采用TOPSIS综合评价法对Pareto前沿进行了分析，并与天津市现有多代同堂住宅进行了比较。(3)结果:第一，中间房间南或南偏东朝向、大凸窗、小窗壁比、凸窗可有效改善室内热舒适性，而南或南偏东朝向、小深凸窗比、大窗壁比、大阳台可有效改善采光质量。(2)与天津市既有建筑相比，理想溶液下成人卧室的DA、UDI和PDH分别提高了33.7%、3.5%和10.8%;采用理想溶液的儿童卧室DA、UDI和PDH分别提高15.5%、4.2%和4.9%;采用理想溶液的老年人单间DA、UDI、PDH分别提高42.7%、4.9%、1.7%。(4)结论:优化方案对既有住宅室内光热环境的健康性有较大改善，为多代住宅健康设计提供了科学、定量的决策依据。

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来源期刊

Journal of Green Building ARCHITECTURE-

CiteScore

2.30

自引率

7.10%

发文量

期刊介绍： The purpose of the Journal of Green Building is to present the very best peer-reviewed research in green building design, construction, engineering, technological innovation, facilities management, building information modeling, and community and urban planning. The Research section of the Journal of Green Building publishes peer-reviewed articles in the fields of engineering, architecture, construction, construction management, building science, facilities management, landscape architecture, interior design, urban and community planning, and all disciplines related to the built environment. In addition, the Journal of Green Building offers the following sections: Industry Corner that offers applied articles of successfully completed sustainable buildings and landscapes; New Directions in Teaching and Research that offers guidance from teachers and researchers on incorporating innovative sustainable learning into the curriculum or the likely directions of future research; and Campus Sustainability that offers articles from programs dedicated to greening the university campus.