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A Study on Inversion at Leeward Side of High-rise Building in Winter  

Zheng, Hai-Yan (Department of Landscape Architecture, Sungkyunkwan University)
Jin, Wen-Cheng (Department of Landscape Architecture, Sungkyunkwan University)
Oh, Sung-Nam (Department of Landscape Architecture, Sungkyunkwan University)
Lee, Kyoo-Seock (Department of Landscape Architecture, Sungkyunkwan University)
Publication Information
Journal of Environmental Impact Assessment / v.19, no.6, 2010 , pp. 583-590 More about this Journal
Abstract
To determine nocturnal inversion characteristics at the leeward side of high-rise building, air temperature data were observed at 10 minute interval from February 22, 2010 to April 15, 2010. The observed data were compared, analyzed and examined to illustrate air temperature differences between the roof (XAR) and surface (XAG) of X apartment. The wind speed, wind direction and precipitation data were also observed at XAR and YJL (Yangjae Stream) sites at the same time. After the analysis, the maximum nocturnal inversion was observed by $4.0^{\circ}C$ at 3:40, 3:50, 4:10 on February 24th 2010, at that time the weather condition was clear and weak wind. Air temperature inversions at the leeward side of high-rise building were observed on whole day in wintertime and air temperature inversion intensity was also higher than other nearby area (SMG).
Keywords
air temperature inversion; high-rise building; leeward; winter;
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1 http://www.kasi.re.kr/Knowledge/sunmoon_map.aspx
2 Oke, T. R., 1987, Boundary Layer Climates, 2nd ed. Routledge, 264, 310-313.
3 Ologson, K. F. G., Andersson, P. U., Hallquist, M., Ljungstrom, E., Tang, L., Chen, D., and Pettersson, J. B. C., 2009, Urban aerosol evolution and particle formation during wintertime temperature inversion, Atmospheric Environment, 43(2), 340- 346.   DOI   ScienceOn
4 Whiteman, C. D., Kring, D. A., and Hoch, S. W., 2008, Diurnal evolution of atmospheric structure within Meteor Crater, Arizona: implications for microniches on mars, Lunar and Planetary Science XXXIX.
5 http://www.kma.go.kr/sfc/sfc_03_05.jsp
6 Bonacica, L. C. W., 1953, An estimation of the great London fog of 5-8 December 1952, Weather, 8, 333-334.   DOI
7 De Marrais, G. A., 1960, Vertical Temperature Difference Observed over an Urban Area, Bulletin American Meteorological Society, 42(8), 548-554.
8 Godowitch, J. M., Ching, J. K. S., and Clarke, J. F., 1985, Evolution of the Nocturnal Inversion Layer at an Urban and Nonurban Location, Journal of Applied Meteorology, 24(8), 791-804.   DOI
9 Landsberg, Helmut E., 1981, The urban climate, Academic press, 54, 111.
10 임윤규, 김유근, 오인보, 송상근, 2005, Tethersonde와 기상탑 관측 자료를 이용한 울산지역 야간 역전에 따른 대기오염도 변화와의 관계, 한국환경과학회지, 14(6), 555-563.   과학기술학회마을
11 정해연, 이규석, 2010, 동절기 도심지 기온역전에 관한 연구, 환경복원녹화, 13(1), 40-46.
12 Ahrens, D. C., 2008, Essentials of Meteorology. An Invitation to the Atmosphere 5th ed. Belmont. Thomson Learning Inc., 57, 70
13 Andre, J. C. and Mahrt, L., 1982, The nocturnal surface inversion and influence of clear-air radiative cooling, Journal of the Atmospheric Sciences, 39, 864-878.   DOI
14 이부용, 김두석, 문승의, 1994, 일본 쯔쿠바에서의 한후기 동안 기온역전의 특성에 관한 연구. 한국환경과학회지, 3(3), 217-228.
15 김연옥, 1987, 기후학 개론, 정익사, 118-119.
16 김재철, 이규석, 2007, 초고층건물 탁월풍 방향의 바람 특성에 관한 연구, 환경영향평가학회지, 16(6), 503-510.
17 김영덕, 1998, 빌딩바람에 의한 환경장해와 그 대책, 한국풍공학회지, 2(1), 23-27.
18 김종규, 2006, 기후학, 시그마프레스, 194
19 신지웅, 이용준, 김태연, 이경희, 2005, 보행자 영역의 빌딩풍해 저감 방안에 관한 연구, 대한건축학회지, 25(1), 147-150.