Can the ASHRAE Standard 169 zoning method be applied to country-level energy-efficient building design in China?

In current building thermal climate design zones of China, the zoning indicators only include temperature elements without considering the regional difference of air humidity. Therefore, building thermal design strategies in continental climate zone with low relative humidity and marine climate zone...

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Veröffentlicht in:Building simulation 2023-07, Vol.16 (7), p.1041-1058
Hauptverfasser: Wang, Shangyu, Yang, Liu, Meng, Xiangxin, Lyu, Kailin, Cao, Qimeng, Liu, Yan
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Sprache:eng
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Zusammenfassung:In current building thermal climate design zones of China, the zoning indicators only include temperature elements without considering the regional difference of air humidity. Therefore, building thermal design strategies in continental climate zone with low relative humidity and marine climate zone with high relative humidity cannot be distinguished by the current building thermal zoning standards. ASHRAE Standard 169 proposes dual definitions for moisture and thermal climate zones, and this method can be extended to the world, including the so-called “China Climate Zones Map”. However, the moisture climate zoning criterion is unsuitable for China’s climate characteristics after climate analysis and building performance evaluation. In present work, a novel building moisture climate zoning method is proposed. The bioclimatic chart was utilized for extracting the outline of building climate through the Gaussian KDE method. Hence, the building moisture climate was classified, the zoning indicator was obtained, and a country-level climate zones map for China was established. The results indicated that the global information matrix served as a helpful guide and reference for planning at the national level. Annual precipitation could be used as a zoning indicator to accurately reflect the regional differences of building moisture climate in China. The approach can provide new thoughts for improving the climate zoning system in current energy-efficient building design standards of China to assist the ultra-low energy consumption target.
ISSN:1996-3599
1996-8744
DOI:10.1007/s12273-023-1017-1