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http://dx.doi.org/10.15683/kosdi.2022.12.31.861

Establishment of Complex Disaster Scenario on the Utility Tunnel Study for Digital Twin System Application  

Yon Ha Chung (Department of Research Planning Division, KIT Valley)
So Dam Kim (Department of Research Planning Division, KIT Valley)
Hyun Jeong Seo (Department of Research Planning Division, KIT Valley)
Hojun Lee (Department of Research Planning Division, KIT Valley)
Tae Jung Song (Department of Research Planning Division, KIT Valley)
Publication Information
Journal of the Society of Disaster Information / v.18, no.4, 2022 , pp. 861-872 More about this Journal
Abstract
The purpose of this study was to establish a complex disaster scenario that can comprehensively consider various disaster situations that may occur in the utility tunnel. Method: In order to comprehensively consider the correlation between disasters, a composite disaster scenario was derived from a combination of damage factors, respectively. A risk assessment was performed in order to derive the priorities of the scenarios. And based on the results, the priorities of complex disaster scenarios were set. Result: Based on the disaster cases in the utility tunnel, a plan was prepared for complex disaster scenarios centered on damage. A complex disaster scenario was specified using a semi-quantitative evaluation method for single and multiple disaster factors such as fire, flooding, and earthquake. Conclusion: The composite disaster scenario derived from this study can be used for the prevention and preparation of damage when the precursor symptoms of a disaster are detected. In addition, the results of this study are expected to be used as basic data for preparing strategic plans and preparing complex disaster response technologies to induce rapid response and recovery in case of emergency disasters.
Keywords
Utility Tunnel; Complex Disaster; Disaster Scenario; Cascading Effect; Preliminary Response; Damage Spread;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
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1 Cho, J.-Y., Song, J.-I., Jang, M.-Y., Jang, C.-R. (2020). "A study on the essential information to collect disaster sites for effective disaster management: Focused on Jecheon sports center fire case." Journal of the Society of Disaster Information, Vol. 16, No. 1, pp. 70-78.
2 Ishii, H., Kawamura, K., Ono, T., Megumi, H., Kikkawa, A. (1997). "A fire detection system using optical fibres for utility tunnels." Fire Safety Journal, Vol. 29, pp. 87-98.   DOI
3 Jung, W.-S., Oh, S.-H., Lee, Y.-T. (2019). "A study on the system implementation of Mega complex disaster damage evaluation and estimation using disaster bigdata." The Journal of Korean Institute of Communications and Information Sciences, Vol. 44, No. 7, pp. 1433-1442.   DOI
4 Kim, D.-H., Lim, Y., Chung, Y.H., Lee, H. (2021). "Hazard-consistent ground displacement estimation for seismic input of underground utility tunnels in Korea." Journal of the Korean Geotechnical Society, Vol. 37, No. 12, pp. 7-23.   DOI
5 Kim, J., Park, S., Hong, C., Park, S., Lee, J. (2022). "Development of AI detection model based on CCTV image for underground utility tunnel." Journal of the Society of Disaster Information, Vol. 18, No. 2, pp. 364-373.   DOI
6 Lee, J.I. (2010). "A study on the fire prevention activities and suppression measures of utility-pipe conduit." Journal of the Korean Society of Hazard Mitigation, Vol. 10, No. 4, pp. 63-68.
7 Mann, S. (2015). "Holborn fire: First pictures of underground damage caused by massive blaze beneath street." Evening Standard, https://www.standard.co.uk/news/london/holborn-fire-first-pictures-of-underground-damage-caused-by-massive-blaze-beneath-street-10292793.html
8 O'Rourke, T.D., Goh, S.H., Menkiti, C.O., Mair, R.J. (2001). "Highway tunnel performance during the 1999 Duzce Earthquake." Proceeding of the 15th International Conference on Soil Mechanics and Eotechnical Engineering, Istanbul, Turkey.
9 Owen, G.N., Scholl, R.E. (1981). Earthquake Engineering of Large Underground Structures. Prepared for the Federal Highway Administration, DPST-81-262, National Technical Information Service, US.
10 Park, J.K., Roh, S.K., Seo, Y.M. (2002). "A study on the risk assessment system of the underground space." Journal of Korean Institute of Fire Science and Engineering, Vol. 16, No. 2, pp. 70-74.
11 Rowe, R. (1992). "Tunnelling in seismic zones." Tunnels and Tunnelling, Vol. 24, No. 12, pp. 41-44.
12 Seo, H.J., Choi, H., Lee, M.C., Song, C.G. (2019). "Establishing a risk assessment scenario for fire prevention and safety management in underground urban utility tunnels." Journal of the Korean Society of Hazard Mitigation, Vol. 19, No. 1, pp. 241-248. doi: 10.9798/KOSHAM.2019.19.1.241.   DOI
13 Shin, D.S., Park, J.B., Shon, T.S., Jo, D.J. (2012). "Preventive measures assessment to prevent flooding complex underground space through Hydraulic model experiment." Journal of Korean Society of Hazard Mitigation, Vol. 12, No. 4, pp. 59-66.   DOI
14 Toda, K., Inoue, K., Oyagi, R., Nakai, T., Takemura, N. (2005). "Hydraulic model test of inundation water intrusion into complicated underground space." Journal of hydroscience and Hydraulic Engineering, Vol. 23, No. 2, pp. 13-25.
15 Ueng, T.S., Lin, M.L., Chen, M.H. (2001). "Some geotechnical aspects of 1999 Chi-Chi, Taiwan Earthquake." Proceeding of the 4th International Conference on Recent Advances in Geotechnical Earthquake Engineering and Soil Dynamics, Missouri, U.S.A.
16 Zhao, Y., Zhu, G., Gao, Y., Tao, H. (2018a). "Study on temperature field of fire smoke in utility tunnel with different cross sections." Procedia Engineering, Vol. 211, pp. 1043-1051.   DOI
17 Yu, H., Chen, J., Bobet, C., Yuan, Y. (2016). "Damage observation and assessment of the Longxi tunnel during the Wenchuan Earthquake." Tunnelling and Underground Space Technology, Vol. 54, pp. 102-116.   DOI
18 Zhang, X., Guan, Y., Fang, Z., Liao, Y. (2016). "Fire risk analysis and prevention of urban comprehensive pipeline corridor." Procedia Engineering, Vol. 135, pp. 463-468.   DOI
19 Zhao, Y., Zhu, G., Gao, Y. (2018b). "Experimental study on smoke temperature distribution under different power conditions in utility tunnel." Case Studies in Thermal Engineering, Vol. 12, pp. 69-76.   DOI
20 Zhou, R., Fang, W., Wu, J. (2020). "A risk assessment model of a sewer pipeline in an underground utility tunnel based on a Bayesian network." Tunnelling and Underground Space Technology, Vol. 103, e103473.