Browse > Article

The Prediction of Ambient Temperature and the Correlation Analysis for Carbon Dioxide, Carbon Monoxide and Relative Humidity in Gwangju  

Lee, Dae-Haeng (Department of Environment Research, Public Health and Environmental Institute of Gwangju)
Jeong, Won-Sam (Department of Environment Research, Public Health and Environmental Institute of Gwangju)
Lee, Se-Haeng (Department of Environment Research, Public Health and Environmental Institute of Gwangju)
Park, Kang-Soo (Department of Environment Research, Public Health and Environmental Institute of Gwangju)
Kim, Nan-Hee (Department of Environment Research, Public Health and Environmental Institute of Gwangju)
Kim, Do-Sool (Department of Environment Research, Public Health and Environmental Institute of Gwangju)
Paik, Ke-Jin (Department of Environment Research, Public Health and Environmental Institute of Gwangju)
Park, Jong-Tae (Department of Environment Research, Public Health and Environmental Institute of Gwangju)
Publication Information
Journal of Korean Society of Environmental Engineers / v.31, no.11, 2009 , pp. 1041-1050 More about this Journal
Abstract
The ambient temperature and concentration of carbon dioxide in Gwangju and the reducing method of temperature, air pollutants were investigated using the atmospheric data in Gwangju. Average ambient temperature ($T_{a-ave}$ was $13.5^{\circ}C$ during 1961 to 2008. The temperature was predicted as increasing of about $2.7^{\circ}C$ in 2108 after 100 years using the trend line of regression equation. Carbon dioxide was 370.7 and 391.4 ppm at Anmyundo, in 1999 and 2008, respectively, showing proportionally increased as ambient temperature. The temperature at Gwangju, $14.2^{\circ}C$ during 1997 to 2008, was a little higher than at neighboring counties as Naju, Damyang, Hwasoon, and Jangsung. In Gwangju, Spring will start in mid-January of 2108, Summer in mid-May, Autumn in mid-October, and Winter in last-December. The average relative humidity in the air ($RH_{a-ave}$) was gradually decreased as the temperature inversely increased. The average $CO_2$ was 457 ppm, which is 65.6 ppm higher than that in Anmyundo, korean background area of $CO_2$ in 2008. Carbon dioxide showed positive correlation, both of them, with carbon monoxide (0.87) and relative humidity (0.48).
Keywords
Ambient temperature; Carbon dioxide; Carbon monoxide; Relative humidity; Global warming;
Citations & Related Records
Times Cited By KSCI : 11  (Citation Analysis)
연도 인용수 순위
1 기상청, 기후변화 2007 과학적근거(2008)
2 Kwon, Y. A., Kwon, W. T., Boo, K. O., and Choi, Y. E.,“ Future Projections on Subtropical Climate Regions over South Korea using SRES A1B Data,”J. Korean Geographical Soci., 42(3), 355-367(2007)
3 김수봉, 정응호, 김기호“, 대구광역시 중구의 가로수 및 열섬 모자이크현황분석,”한국환경과학회지, 15(4), 325-332(2006)
4 김근기, 화석연료의 고갈과 지구온난화의 해결을 위한 대체에너지의 개발과 전망: 지속가능한 건물냉방 방안을 중심으로, 석사학위논문, 한국외국어대학교(2008)
5 안지숙, 김해동, 김상우“, 대구의 토지이용도 유형에 따른 여름철 도시열섬포텐셜 추정연구,”한국환경과학회지, 16(1), 65-71(2007)
6 기상청, 기상청 지구대기감시보고서, pp.1-17(2006)
7 Kwon, Y. A., Kwon, W. T., and Boo, K. O.,“ Future Projections on the Change of Onset Date and Duration of natural Seasons using SRES A1B Data in South Korea,”J. Korean Geographical Soc., 42(6), 835-850(2007)
8 도후조, 이정민, 나정화,“ 도시 지표면 온도분포 특성 및 열섬완화방안,”한국환경과학회지, 16(5), 611-622(2007)
9 Kwon, Y. A., Kwon, W. T., and Boo, K. O.,“ Future Projections on the Spatial Distribution of Onset Date and Duration of natural Seasons using SRES A1B Data in South Korea,”J. Korean Geographical Society, 43(1), 36-51(2008)
10 환경부, 한반도기후변화영향평가및적응프로그램마련: 기후변화로 인한 건강피해 가능성 조사 및 피해 저감정책 방향에 관한 연구(2003)
11 Kim, J. Y., Lee, D. G., Park, I. S., Choi, B. C., and Kim, J. S., “Influence of Heat Waves on Daily Mortality in South Korea,” Atmosphere, 16(4), 269-278(2006)
12 환경부, 한반도 및 동아시아 기후변화 추세분석 및 원인규명(2008)
13 이병설“, 우리나라의자연계절에관한연구,”지리학, 14(2), 1-11(1979)
14 차유미, 이효신, 문자연, 권원태, 부경온“, ECHO-G/S를 활용한 미래동아시아기후전망,”대기지, 17, 55-68(2007)
15 차재규, 정응호, 류지원, 김대욱“, 도시열섬완화를 위한 녹지네트워크 및 바람길 구축,”한국지리정보학회지, 10(1), 102-112(2007)
16 배현웅, 엑셀을 이용한 통계학의 기초와 활용 기법, 교우사, pp.273-278(2007)
17 국립기상연구소, 기후변화 협약 대응 지역기후시나리오 활용기술개발(I), 국립기상연구소연구보고서, MR050C03, 408(2005)
18 안지숙, 김해동“, 대구지역의 기상조건에 따른 도시열섬강도의 계절별변화특성,”한국환경과학회지, 15(6), 527-532(2006)
19 기상청, 기후변화 2007 종합보고서(2008)
20 기상청, 쉽게 이해하고 간편하게 활용하는 Climate Change Handbook, 22-23(2009)
21 국립기상연구소, 기후변화 협약 대응 지역기후시나리오 활용기술개발(II), 국립기상연구소연구보고서, MR060C42, 611(2006).
22 IPCC, Climate change 2001: The scientific basis, Contribution of working group 1 to the third assessment report of the intergovenmental panel on climate change WMO/UNEP, Published for IPCC, Houghton, J. T. et al, Cambridge university, UK(2001)
23 김수봉, 김해동“, 도시의 수목이 기온의 조절에 미치는 영향,”한국조경학회지, 30(3), 25-34(2002)
24 광주지방기상청, 광주지방의기후특성(2002)
25 국립기상연구소, 기후변화 협약 대응 지역기후시나리오 활용기술개발(III), 국립기상연구소연구보고서, MR070C70, 559(2007)
26 김규랑, 권태헌, 김연희, 구해정, 최병철“, 청계천 복원에 따른 온.습도의 시공간적 변화 관측,”기상학회, 국립기상연구소 응용기상연구팀, 1-2(2006)
27 Koo, G. S., Boo, K. O., and Kwon, W. T., “The Estimation of Urbanization Effect in Global Warming over Korea using Daily Maximum snd Minimum Temperatures,”Atmosphere, 17(2), 185-193(2007)
28 이정민, 도후조, 나정화, 김수봉, 정응호, 다항목 평가기법의 적용 을 통한 열섬효과의 평가, 한국환경과학회지, 14(11), 1005-1014(2005)