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http://dx.doi.org/10.7842/kigas.2020.24.2.22

A Study on the Risk Assessment of River Crossing Pipeline in Urban Area  

Park, Woo-Il (Institute of Gas safety R&D, Korea Gas Safety Corporation)
Yoo, Chul-Hee (Institute of Gas safety R&D, Korea Gas Safety Corporation)
Shin, Dong-Il (Dept. of Disaster and Safety, Myongji University)
Kim, Tae-Ok (Dept. of Disaster and Safety, Myongji University)
Lee, Hyo-Ryeol (Institute of Gas safety R&D, Korea Gas Safety Corporation)
Publication Information
Journal of the Korean Institute of Gas / v.24, no.2, 2020 , pp. 22-28 More about this Journal
Abstract
In this study, quantitative risk assessment was carried out for city gas high-pressure pipelines crossing through urban rivers. The risk assessment was performed based on actual city gas properties, traffic volume and population and weather data in the worst case scenario conditions. The results confirmed that the social and individual risks were located in conditionally acceptable areas. This can be judged to be safer considering that the risk mitigation effect of protecting the pipes or installing them in the protective structure at the time of the construction of the river buried pipe is not reflected in the result of the risk assessment. Also, SAFETI v8.22 was used to analyze the effects of wind speed and pasquil stability on the accident damage and dispersion distances caused by radiation. As a result of the risk assessment, the safety of the pipelines has been secured to date, but suggests ways to improve safety by preventing unexpected accidents including river bed changes through periodic inspections and monitoring.
Keywords
risk analysis; pipeline; SAFETI; leak frequency; consequence;
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  • Reference
1 Lee, D. H., Jo. Y. D., Choi, S. C., Bang, H. J., Gong, J. S., and Ma, Y. H., "A study on the depth of cover for river-crossing pipelines", Korea Institute of Gas, 2010(5), 159-162, (2010)
2 The Institution of Gas Engineers, "Steel and PE pipelines for gas distribution", IGE Code TD1, 4th ed., 1677, (2005)
3 Park, W. I., Jo. Y. D., Yu, C. H., and Ryou, Y. D., "Research and Analysis of International DOC (Depth of Cover) Standards for Installing City Gas Pipelines Crossing a River", Korea Institute of Gas, 2018(5), 106-106, (2018)
4 Ryou, Y. D., Chae, C. K., Kwak, C. S., Jo. Y. D., Yoon, Y. K., Lee, K. S., and Lee, S. K., "Comparison of Safety Measures to Installing High Pressure Pipelines in the Cities", Korea Institute of Gas, 2008(4), 316-322, (2008)
5 Yoon, Y. K., Oh, S. K., Seo, J. M., Lim, D. Y., and Yoon, E. S., "A Development of System for Efficient Quantitative Risk Assessment on Natural Gas Supply Facilities", Korea Institute of Gas, 2012(1), 39-45, (2012)
6 한국산업안전보건공단, KOSHA GUIDE P - 107 - 206 최악 및 대안의 누출 시나리오 선정에 관한 기술지침, (2016)
7 HSE, Guidance on 'as low as reasonably practicable'(ALARP) decisions in control of major accident hazards (COMAH), http://www.hse.gov.uk/ comah/circular/perm12.htm
8 한국가스안전공사, 2000-11 도시가스고압배관의 안전성평가 지침, (2008)
9 European Gas Pipeline Incident Data Grop, Gas Pipeline Incidents 10th Reaport 1970-2016, (2018)
10 P.A.M. Uijt de Haag and B.J.M. Ale, "Guideline for Quantitative Risk Assessment, 'Purple book' Exposure and Damage", (2005)
11 서울열린데이터광장, (2019)
12 기상청, (2019)
13 통계청, (2019)