An assessment indicator for air ventilation and pollutant dispersion potential in an urban canopy with complex natural terrain and significant wind variations
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摘要In an urban planning context, an assessment indicator for evaluating a city's dispersion potential is beneficial, especially if the city has a complex natural terrain and significant wind variations. A study was conducted to implement an urban canopy drag indicator, taking site wind variation into account by involving both wind speed and direction in the calculations. Hong Kong (HK) was taken as an example due to its complicated natural topography and wind characteristics. A spatial distribution of an urban canopy drag over HK was determined based on wind data from 2004. The urban canopy drag values in three highly urbanized areas in HK, including Kowloon West, Kowloon East and Hong Kong Island North, were obtained and are discussed in detail. A fluid particle tracking program was developed and applied to identify the major wind paths in Kowloon West, with an area of approximately 5.5 x 6 km as an example. We analyzed the diurnal variation in the dispersion times and the major wind paths in the region during both summer and winter. Our results estimated that the horizontal dispersion times of Kowloon West during both winter and summer were approximately 20 min. By combining the wind paths from both seasons, we identified several major wind paths and critical ventilation areas in Kowloon West. This paper demonstrates the potential use of an urban canopy drag indicator for assessing air ventilation and pollutant dispersion in a city planning context. (C) 2014 Elsevier Ltd. All rights reserved.
著者Yim SHL, Fung JCH, Ng EYY
期刊名稱Atmospheric Environment
出版年份2014
月份9
日期1
卷號94
出版社Elsevier
頁次297 - 306
國際標準期刊號1352-2310
電子國際標準期刊號1873-2844
語言英式英語
關鍵詞Pollutant dispersion; Urban canopy drag; Urban ventilation
Web of Science 學科類別Environmental Sciences; ENVIRONMENTAL SCIENCES; Environmental Sciences & Ecology; Meteorology & Atmospheric Sciences; METEOROLOGY & ATMOSPHERIC SCIENCES

上次更新時間 2020-27-09 於 01:42