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Effects of urban ventilation patterns on the carbon monoxide concentration in a high-rise mega city

Luo, Zhiwen ORCID:, Li, Yuguo and Lu, Wei-Zhen 2011. Effects of urban ventilation patterns on the carbon monoxide concentration in a high-rise mega city. International Journal of Ventilation 10 (3) , pp. 239-250. 10.1080/14733315.2011.11683952

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Carbon monoxide (CO) concentration data from 1999–2006, monitored at 5 different pollution stations in a high-rise mega city (Hong Kong), were collected and investigated. The spatio-temporal characteristics of urban CO concentration profiles were obtained. A new approach was put forward to examine the relationship between urban CO concentration and different wind flow patterns. Rather than relying on the meteorological data from a single weather station, usually adopted in previous studies, four weather stations on the boundary of Hong Kong territory were used in the present study so as to identify 16 different wind flow patterns, among which a typical urban heat island circulation (UHIC) can be distinguished. Higher concentrations were observed to be associated with the flow pattern of an inflow from Lau Fau Shan (LFS) station which is located in the northwest of Hong Kong. This suggests that the ability of dilution for north-to-west wind is relatively weak due to the pollutants carried from outside Hong Kong. The effectiveness of wind speed on the alleviation of urban concentration is dependent on the initial concentration of the approaching wind. The increase of wind speed of north-to-west wind from 0 m/s to 6 m/s has little effect on the reduction of urban CO concentration, especially on the non-roadside stations. By contrast, for the southerly marine wind, pollution concentration decreases sharply with an increase in the wind speed. It was also found that urban heat island circulation (UHIC) is conducive of the accumulation of pollutants, especially at night. There exists a positive correlation between CO concentration and UHI intensity. This correlation is much stronger at night compared to during the day.

Item Type: Article
Date Type: Publication
Status: Published
Schools: Architecture
Publisher: Taylor and Francis Group
ISSN: 1473-3315
Last Modified: 10 Nov 2022 11:46

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