Numerical investigation of evaporative cooling strategies on the aero-thermal performance of courtyard buildings in hot-dry climates

Journal article


Sun, H., Zhong, H., Dik, A., Ding, K., Jimenez-Bescos, C. and Calautit, J.K. (2024). Numerical investigation of evaporative cooling strategies on the aero-thermal performance of courtyard buildings in hot-dry climates. Building and Environment. 258, p. 111588. https://doi.org/10.1016/j.buildenv.2024.111588
AuthorsSun, H., Zhong, H., Dik, A., Ding, K., Jimenez-Bescos, C. and Calautit, J.K.
Abstract

In hot and dry urban environments, courtyards help mitigate extreme heat and influence the urban microclimate. These structures not only provide light and private outdoor spaces but also aid in mitigating the urban heat island (UHI) effect through improved airflow and evapotranspiration. Courtyards, being central open-air areas enclosed by buildings, are crucial in creating opportunities for natural ventilation driven by wind and buoyancy-induced forces, thus serving as a microclimatic regulator. This study investigates the role of courtyards in modulating their microclimate and adjacent indoor areas by integrating evaporative cooling strategies to enhance cooling in these spaces. While numerous studies have been conducted on the role of water bodies in evaporative cooling, the aero-thermal impact on adjacent indoor spaces remains less understood. Addressing this gap, the present research explores the effect of an evaporative cooling system on the wind and thermal conditions within a courtyard and examines different natural ventilation modes, namely, single-sided and crossflow ventilation, in indoor spaces. A computational fluid dynamics (CFD) model, validated against wind tunnel experimental data, was employed to simulate various evaporative cooling water spray configurations. The results reveal complex courtyard microclimates with diverse cooling effects influenced by room orientation and floor level. Specifically, in single-sided ventilated courtyards, water sprays significantly improved the indoor thermal environment, with the average temperature across all rooms decreased by 2.06 °C, and humidity increased by 4.29 %. However, in cross-ventilated courtyards, water sprays' cooling and humidifying effects were relatively less effective. This research underscores the potential of evaporative cooling technology in improving the microclimate of courtyards, with practical applications extending to urban design and architecture. By tailoring cooling strategies to specific courtyard configurations, urban planners and architects significantly improve indoor comfort levels and energy efficiency.

KeywordsAero-thermal performance; CFD modelling; Single-sided ventilated courtyard; Cross-ventilated courtyard; Water sprayer; Evaporative cooling strategy
Year2024
JournalBuilding and Environment
Journal citation258, p. 111588
PublisherElsevier
ISSN0360-1323
Digital Object Identifier (DOI)https://doi.org/10.1016/j.buildenv.2024.111588
Web address (URL)https://www.sciencedirect.com/science/article/pii/S036013232400430X?via%3Dihub
Publication dates
Online01 May 2024
Publication process dates
Accepted27 Apr 2024
Deposited01 Aug 2024
Accepted author manuscript
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Open
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