4.7 Article

A study on the model of solar radiation transfer in multi-layer glass facade with attached droplets

Journal

INTERNATIONAL JOURNAL OF THERMAL SCIENCES
Volume 197, Issue -, Pages -

Publisher

ELSEVIER FRANCE-EDITIONS SCIENTIFIQUES MEDICALES ELSEVIER
DOI: 10.1016/j.ijthermalsci.2023.108763

Keywords

Multi -layer glass facade system; Attached droplets; Solar radiation transfer model; Monte Carlo ray tracing method; Experiment validation

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A solar radiation transfer model for spray cooling double skin facade (SC-DSF) is proposed in this study. The model is validated by experimental results and various influence factors are analyzed. The effectiveness of adjusting droplet coverage rate and size is also evaluated.
To obtain the optical properties of the spray cooling double skin facade (SC-DSF), a solar radiation transfer model of the multi-layer glass system with attached droplets is proposed in this study. The solar radiation is segmented into direct and diffuse radiation, and the monte carlo ray tracing method and angle discretization method are used to obtain the optical properties of the single layer glass with attached droplets. And then, the energy balance equation of the multilayer glass system is established based on the net-radiation method, and the transmittance, reflectance and absorptance of the multilayer glass system are calculated. The effectiveness of the proposed method is verified by the experimental results, which shows the numerical results are in good agreement with the experimental data. In addition, some important influence factors are analyzed and discussed, including the solar incidence angle, the droplet contact angle, the droplet coverage rate, and the average droplet diameter. It is found that there is little influence on the system transmittance when the incidence angle is smaller than 40 degrees. However, the transmittance decreases with the increase of the incidence angle when the solar incidence angle is greater than 40 degrees. When the droplet contact angle is small (less than 40 degrees) or large (larger than 140 degrees), its influence on the transmittance of the system is negligible. Subsequently, with the increase in the droplet contact angle within 40-140 degrees, the transmittance firstly decreases and then increases. Adjusting the droplet coverage rate and droplet size is an effective measure to decrease transmittance and solar heat gain.

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