A coupled analysis on human thermal comfort and the indoor non-uniform thermal environment through human exergy and CFD model

The importance of human thermal comfort evaluation lies of the development of healthy buildings as well as low-carbon buildings. In recent years, the applications of the second law of thermodynamics to thermal comfort offered a new perspective and this study, for the first time, an integrated human...

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Bibliographic Details
Published in:Journal of Building Engineering 2023-09, Vol.74, p.106845, Article 106845
Main Authors: Xu, Chen, Xie, Yiwei, Huang, Shangwen, Zhou, Shangjun, Zhang, Wenbo, Song, Yixiao, Luo, Yongqiang, Tian, Zhiyong
Format: Article
Language:English
Subjects:
CFD simulation
Human exergy model
Indoor thermal environment
Metabolism
Thermal comfort
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Summary:The importance of human thermal comfort evaluation lies of the development of healthy buildings as well as low-carbon buildings. In recent years, the applications of the second law of thermodynamics to thermal comfort offered a new perspective and this study, for the first time, an integrated human exergy model and the indoor CFD model for a coupled analysis is put forward, which supplements a critical link between human and building environment. In this paper, a predefined office model is investigated to improve the efficiency and thermal comfort of occupants. Based on the human exergy model, the parameters of metabolism, respiration, evaporation, convection, radiation, skin, and core heat storage terms are optimized. Additionally, the effects of gender, age, and clothing thermal resistance on the exergy model values are also separately explored. Finally, the optimized human exergy model is combined with computational fluid dynamics (CFD) to calculate, under different air supply conditions, the distribution of exergy consumption values in the predefined room model. The results show that the factors of gender, age, and thermal resistance of clothing have some influences on human exergy consumption, while the above factors do not have a significant enough influence on the model in the thermal comfort interval. Moreover, the combination of the human exergy model and CFD can offer some suitable air supply conditions for the development of indoor thermal comfort and work efficiency. This study presented a new tool that bridges human thermal sensation and indoor thermal environment. •An updated model is established for human exergy consumption.•The human exergy and indoor non-uniform environment are coupled.•Multiple factors for thermal comfort are analyzed from human exergy model.•Indoor human exergy consumption map is obtained.
ISSN:2352-7102
2352-7102
DOI:10.1016/j.jobe.2023.106845