A Comparative Study on the Distribution Models of Incident Solar Energy in Buildings with Glazing Facades

Lu, Shunyao; Huang, Xiaoqing; Chen, Tao; Wang, Zhengzhi

doi:10.3390/buildings13102659

Buildings

2023

DOI: 10.3390/buildings13102659

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A Comparative Study on the Distribution Models of Incident Solar Energy in Buildings with Glazing Facades

Shunyao Lu,

Xiaoqing Huang,

Tao Chen

et al.

Abstract: The accurate distribution of solar energy on indoor walls is the basis of simulating the indoor thermal environment, and its specific distribution changes all the time due to the influence of solar azimuth and altitude angle. By analyzing the assumptions of each model, the existing solar energy distribution models are eight kinds in all and are divided into three categories. The solar radiation models in TRNSYS, EnergyPlus, and Airpak software all use the absorption-weighted area ratio method, which assumes th… Show more

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2024

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Amended Calculation of Solar Heat Gain Coefficient Based on the Escape of Incident Solar Radiation

Lu,

Yang,

Huang

et al. 2024

Energies

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The solar heat gain is an important component of building cooling load, and its magnitude affects building energy consumption directly. In buildings with glass curtain walls, the window to wall rate is close to 1, so the amount of solar heat gain is huge, which directly determines the energy consumption level of a building’s air conditioning system. In fact, incident solar radiation can escape to the exterior through the transparent envelope, which cannot be ignored in buildings with glass curtain walls. This will cause changes in solar heat gain, so the solar heat gain coefficient (SHGC) needs to be corrected. In this paper, the heat transfer process of solar radiation in window shading systems is analyzed, and an amended calculation model for the SHGC is established. Multiple forms of windows and shading systems are selected and their SHGC-amended factor for rooms with different orientations under different standard calculation conditions in various countries is calculated. As the number of glass layers increases, the transmittance of the window gradually decreases, the reflectance and absorbance gradually increase, and the SHGC value decreases. The SHGC-amended factor decreases with an increasing escape rate, and the two can be approximated as a linear correlation. The weakening effect of shading on the solar heat gain of the buildings is overestimated. The SHGC-amended factor proposed in this paper can calculate building solar heat gain more accurately.

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Amended Calculation of Solar Heat Gain Coefficient Based on the Escape of Incident Solar Radiation

Lu,

Yang,

Huang

et al. 2024

Energies

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show abstract

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A Comparative Study on the Distribution Models of Incident Solar Energy in Buildings with Glazing Facades

Cited by 1 publication

References 20 publications

Amended Calculation of Solar Heat Gain Coefficient Based on the Escape of Incident Solar Radiation

Amended Calculation of Solar Heat Gain Coefficient Based on the Escape of Incident Solar Radiation

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