亚热带气候下轻型房间绿色屋顶(GR)、双层屋面(DSR)和冷屋面(CR)夏季热性能的试验比较

IF 1.8 4区工程技术 Q3 CONSTRUCTION & BUILDING TECHNOLOGY

Journal of Building Physics Pub Date : 2021-09-19 DOI:10.1177/17442591211040545

Erlin Meng, Jiawang Yang, Ruonan Cai, Bo Zhou, Junqi Wang

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引用次数: 3

摘要

亚热带气候的特点是夏季太阳高度角大，使屋顶通过太阳辐射获得更多的热量。GR、DSR和CR均能降低屋顶的太阳辐射热增益。然而，对这三种屋面的热性能进行比较的研究很少，特别是在亚热带气候条件下。本研究采用GR、DSR、CR和普通屋顶(OR)分别建造4个房间。实验于7月23日至8月4日进行。结果表明，4个房间的室内温度稳定性为:DSR房间> GR房间> CR房间> OR房间。GR、CR和DSR在白天可使地表温度降低13.7℃、12.0℃和4.8℃，在夜间可使地表温度升高2.3℃、1.9℃和0.9℃。相关分析结果表明，GR和DSR的内表面热通量与天气因子呈负相关，OR和CR的内表面热通量与天气因子呈正相关。本研究可为GR、DSR和CR的选择提供支持。

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Experimental comparison of summer thermal performance of green roof (GR), double skin roof (DSR) and cool roof (CR) in lightweight rooms in subtropical climate

Subtropical climate is characterized by high solar altitude angle in summer which causes the roof get more heat through solar radiation. GR, DSR, and CR all can decrease solar radiation heat gain of the roof. However, few researches have been done to the comparison of the thermal performance of these three roofs, especially in subtropical climate. In this study, four rooms were built separately with GR, DSR, CR, and ordinary roof (OR). The experiment was done from July 23 to August 4. Results showed that stabilities of the indoor air temperature of the four rooms were: DSR room > GR room > CR room > OR room. The GR, CR, and DSR can reduce the external surface temperature by 13.7°C, 12.0°C, and 4.8°C during the day while bring a temperature rise of 2.3°C, 1.9°C, and 0.9°C at night. Correlation analysis results showed that the internal surface heat flux of GR and DSR were negative correlated with weather factors while internal surface heat flux of OR and CR were positive correlated with weather factors. This study can give support to the selection between GR, DSR, and CR.

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来源期刊

Journal of Building Physics 工程技术-结构与建筑技术

CiteScore

5.10

自引率

15.00%

发文量

审稿时长

5.3 months

期刊介绍： Journal of Building Physics (J. Bldg. Phys) is an international, peer-reviewed journal that publishes a high quality research and state of the art “integrated” papers to promote scientifically thorough advancement of all the areas of non-structural performance of a building and particularly in heat, air, moisture transfer.