Research on the wind environment in an enclosed courtyard: Effect of the opening position, size and wind angle

Abstract

With the urbanization process in China, outdoor thermal environments are drawing increasing attention, of which comfortable pedestrian height wind environments are crucial for urban outdoor spaces. Few studies have been conducted on the comfort wind zone ratio (CWZR)11Abbreviations: CFD, computational fluid dynamics; CWZR, comfort wind zone ratio; MWSR, mean wind speed ratio; SWZR, static wind zone ratio. models for openings in enclosed courtyards. We quantitatively analyzed the effects of different opening positions, sizes, and wind angles on the wind environment of campus enclosed courtyards via computational fluid dynamics (CFD) simulations, and CWZR models were established for different opening sizes and wind angles. The results are as follows: (1) The opening position, opening size and wind angle significantly affected the outdoor wind environment. (2) Under the dominant wind direction in summer, the cross-opening position better improved the courtyard wind environment than the symmetrical opening. The courtyard CWZR significantly increased with increasing inlet opening size and increased with decreasing outlet opening size. (3) A wind angle from 2° to 47° is the recommended angle for typical courtyard opening types, and the maximum courtyard CWZR occurred at a wind angle of 10°. The study results could guide courtyard building design and courtyard wind environment optimization and enrich the theoretical study of outdoor wind environments.