Affiliation:
1. Department of Chemical Engineering Université Laval Québec QC G1V 0A6 Canada
2. Department of Mechanical Engineering Lassonde School of Engineering York University Toronto Ontario M3J 1P3 Canada
3. Department of Mechanical Engineering Ferdowsi University of Mashhad Mashhad 9177948974 Iran
4. Department of Mechanical Engineering Centre of Computational Energy Hakim Sabzevari University Sabzevar 9617976487 Iran
5. Department of Mechanical Engineering Andong National University Andong 36729 South Korea
Abstract
Building cooling loads, which continue to increase with increasing global temperatures, are responsible for large quantities of greenhouse gas emissions. Radiative cooling (RC), whereby structures are cooled by emitting radiation in the atmospheric window, from 8–13 μm, to outer space, is a promising clean technology that can be used to meet ever‐increasing building cooling demands. However, the effects of using RC on the airflow velocity and temperature distributions within the occupied zone of buildings are yet to be investigated. Herein, computational fluid dynamics simulations are performed to study the transient airflow velocity and temperature distributions in buildings that are cooled using RC material on their rooftops. For idealized conditions when the thermal mass of the house is neglected, the results show that when the cooling power provided by the RC material is , and the average temperature of the occupied zone in the building is reduced from 295 K to about 293 and 289.7 K after two minutes, respectively. These rapid cooling rates were attained without exceeding head‐to‐ankle temperature differences of about 2.7 °C and with air flow velocities maintained below 19.0 cm s−1, which is consistent with a comfortable environment.
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