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http://dx.doi.org/10.7855/IJHE.2014.16.3.067

A Study on Countermeasures Against Heavy Snow on Road in Seoul : Focusing on Seocho 1-dong  

Won, Jong-Seok (The Seoul Institute, Dep't. of Safety and Environment Research)
Bae, Yoon-Shin (The Seoul Institute, Dep't. of Safety and Environment Research)
Kim, Sang-Gyoon (The Seoul Institute, Dep't. of Safety and Environment Research)
Publication Information
International Journal of Highway Engineering / v.16, no.3, 2014 , pp. 67-74 More about this Journal
Abstract
PURPOSES : This study is to investigate the countermeasures against heavy snow on road in Seoul: Focusing on Seocho 1-dong. METHODS : Since 2000, three cases of the top 10 in the highest snow fall depth in a day occurred in 2001(234mm, 156mm) and 2010(258mm) and the possibility of heavy snow is getting higher. 10 days after heavy snow fall when the snow thaws, socio-economic damages occurred often. For example, the insufficient snow removing, difficulty in patients transfer, crash accidents, injuries from a fall, the increasing cost of snow removing etc. RESULTS : For the effective deploying snow removing equipment and workers, it is necessary to understand emergency snow removing spots. Seocho 1-dong was tested because it contains mountains, hill and urban areas as well as various buildings and road types exposures. CONCLUSIONS : Based on the domestic and international heavy snow researches, the elements for vulnerability were analyzed and vulnerable areas to snow fall were derived.
Keywords
heavy snow; vulnerability analysis; GIS; snow removing equipment;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
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1 Koo, Y., et al., 2013. Selecting and Assessing Vulnerable Zones of Snow Damage in Urban Areas- the case of City of Busan, Journal of the Korean Society of Civil Engineers (구유성 이성호 정주철, 2013. 도심의 설해취약지역 선정 및 위험도 평가에 관한 연구-부산광역시 지형적 특성을 중심으로, Journal of the Korean Society of Civil Engineers)
2 Xing Peng Liu et al, 2011. Grid-based Multi-Attribute Risk Assessment of Snow Disasters in the Grassland of Xilingol, Inner Mongolia, Human and Ecological Risk Assessment: An International Journal
3 Xu Xiaoge and Wang Jing'ai, 2013. Vulnerability Assessment of Snow Disaster Based on Traffic System: A Case Study of Chenzhou City in Hunan Province, China, Chinese Journal of Population, Resources and Environment.
4 https://www.london.gov.uk/city-hall
5 IPCC, 2007. Managing the Risk of Extreme Events and Disasters to Advance Climate Change Adaptation
6 Ko, J., 2009. A Study on Vulnerability Assessment to Climate Change in Gyeonggi-Do. Gyeonggi Research Institute (고재경, 2009. 경기도 기후변화 취약성 평가 연구, 경기개발연구원)
7 Ministry of Korea Land, Infrastructure and Transportation, 2011. A study on building climate change adaptation city (국토해양부, 2013. 기후변화 적응도시 조성방안 연구)
8 Myeong, S., et al., 2009. A study on infrastructure vulnerability analysis and measures to strengthen climate change adaptation, Korea Environment Institute (명수정 이동규 신상희 조광우 이희선, 2009. 기후변화 적응 강화를 위한 사회기반시설의 취약성 분석 및 대응방안 연구, 한국환경정책평가연구원)
9 Seocho city office, 2012. Statistics annual report (서초구, 2012. 서초구통계연보)
10 Seoul Metropolitan Government, 2013. Road Statistics report (서울특별시, 2013. 도로통계)
11 Seoul Metropolitan Government, 2011. Disaster risk analysis and application in Seoul (서울특별시, 2011. 서울시 재난위험도 평가 및 활용방안)
12 You, G., Kim, I., 2008. Development and application of a climate change vulnerability index. Korea Environment Institute (유가영A김인애, 2008. 기후변화 취약성 평가지표의 개발 및 도입방안, 정책평가연구원)
13 UNDP, 2005. Adaptation policy frameworks for climate change
14 Central Emergency Medical Center, 2008-2012. Emergency annual report (중앙응급의료센터, 2008-2012, 응급의료연보)
15 Choi, S., et al., 2013. Vulnerability Assessment for Climbing Distress of Heavy Snow using Socio-economic Factors, Korean Institute of Forest Recreation (최솔이 이우균 곽한빈 김문일 남기준 유소민 정래 선, 2013. 사회 경제적 지표를 이용한 폭설에 의한 등산 조난 취약성평가, 한국산림휴양학회)
16 Korea Meteorological Office, 2003-2013. Statistics annual report (기상청, 2003?2012. 통계연보)