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http://dx.doi.org/10.12815/kits.2018.17.3.18

A Study on the Suitability Analysis of Tunnel Access Control for Hazardous Materials Transport Vehicles on the Expressway  

Hong, Jung Yeol (Dept. of Transportation Eng., Univ. of Seoul)
Choi, Yoon Hyuk (Dept. of Transportation Research, Korea Expressway Corporation Research Institute)
Park, Dong Joo (Dept. of Transportation Eng., Univ. of Seoul)
Publication Information
The Journal of The Korea Institute of Intelligent Transport Systems / v.17, no.3, 2018 , pp. 18-31 More about this Journal
Abstract
Since accidents of hazardous material transport vehicle on roadways cause severe damage in the form of disaster, foreign countries have long been engaged in systematic management and establishment of relevant laws and policies for the road safety. Recently, over 10-kilometer long tunnel, such as Inje-Yangyang Tunnel and Geumjeongsan Tunnel, has been opened on the expressway and the production of various hazardous materials is increasing with the development of chemical technology. However, road laws related to the safe operation of hazardous materials transport vehicles are still lacking, and policy measures for managing them have not been specified. It is an important task to recognize the risk of accidents of hazardous material transport vehicles and to secure road safety by establishing a management plan for road managers. Therefore, this study analyzed the feasibility of the traffic regulation of expressway tunnel in South Korea and suggested a direction for management. The results of this study can be utilized as the primary data for the revision of law related to hazardous materials transport vehicles on roadways and the derivation of optimal route of hazardous materials transport vehicles.
Keywords
Hazardous materials transportation; Tunnel; Expressway; Enforcement; Safety;
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  • Reference
1 Batta R. and Chiu S.(1988), "Optimal Obnoxious Paths on a Network: Transportation of Hazardous Materials," Opns. Res., vol. 36, pp.84-92.   DOI
2 Bekiaris E., Gemou M. and Margaritis D.(2007), Scenarios of use and dangerous goods ontological framework, CERTH/HIT, Thessaloniki.
3 Dangerous Goods & transport training and consultancy, http://www.roadsafeeurope.com, 2017.
4 Department of Public Safety, https://www.colorado.gov/pacific/csp/hazmat-routing-map, 2017.9.2.
5 El-Basyouny K. and Sayed T.(2014), "A framework for an on-demand dangerous goods routing support system for the metro Vancouver area," Journal of Engineering Research, vol. 2, no. 3.
6 Erhan E. and Vedat V.(1998), "Modeling of transport risk for hazardous materials," Operations Research, vol. 46, no. 5, pp.625-642.   DOI
7 Gemou M. and Bekiaris Ε.(2012), Dangerous Goods Transportation: A European cooperative system for routing, monitoring, re-routing, enforcement and driver support, for dangerous goods vehicles, Hellenic Institute of Transport/Centre for Research & Technology Hellas.
8 Kim Y. and Kim S.(2015), "Development of Real-time Safety Management System for Incident Prevention by Hazard Material Transport," Journal of the Korean Safety Management and Science, vol. 17, no. 3, pp.105-113.
9 Korea Expressway Corporation Research Institute(2016), A Study on Transport Behavior of Hazardous Materials Transportation on Expressways, pp.235-238.
10 Kwon K.(2009), "The Study on the Regulation of Classification of Hazardous Materials for the Safety of Rail Transportation," Journal of the Korean Institute of Gas, vol. 13, no. 3, pp.7-14.
11 Lee B. W., Chung S., Kim S. and Choi D.(2013), "A Study for Safety Management on Road Transportation of Dangerous Goods," Journal of the Korean Institute of Gas, vol. 17, no. 6, pp.73-82.   DOI
12 Lieggio Junior M., Granemann S. R. and Souza O. A. D.(2012), "Applicability of multicriteria analysis to decision problems in road transport of dangerous goods: a theoretical perspective," Journal of Transport Literature, vol. 6, no. 2, pp.197-217.   DOI
13 Ministry of Environment Chemical Data Reporting opening system, http://icis.me.go.kr/CDRopen.
14 Ministry of Land, Infrastructure and Transport (2016), National transportation statistical year book, p.663.
15 Ministry of Land, Infrastructure and Transport, Framework act on logistics policies, http://elaw.klri.re.kr, 2018. 3.20.
16 Ministry of Transportation and Communications, http://www.motc.gov.tw/en, 2017.8.10.
17 Mitrovich S., Valenti G. and Mancini M.(2006), "A decision support system (DSS) for traffic incident management in roadway tunnel infrastructure," In Proceedings of the 34 th European Transport Conference. European Transport Conference (ETC), Strasbourg, France, p.240.
18 Saccomanno F. and Haastrup P.(2002), "Influence of safety measures on the risks of transporting dangerous goods through road tunnels," Risk Analysis, vol. 22, no. 6, pp.1059-1069.   DOI
19 Park D., Chung S. and Oh J.(2011), "An Algorithm for Searching Pareto Optimal Paths of HAZMAT Transportation: Efficient Vector Labeling Approach," The Journal of the Korean Society of Hazard Mitigation, vol. 11, no. 3, pp.49-56.   DOI
20 Roh H.(2012), A Plan for the National Dangerous Goods Transportation Information System in Korea, Korea Transportation Institute, p.273.
21 Singapore Civil Defence Force(2014), Requirements on Road Transportation of Hazardous Materials, pp.1-14.
22 Son E. and Bea S. H.(2010), "Applying the Analytic Hierarchy Process to Select the Optimal Route for Hazardous Material Transport," Journal of the Korean Association of Geographic Information Studies, vol. 13, no. 4, pp.67-77.
23 The Office of the Federal Register National Archives and Records Administration(2012), Code of Federal Regulations Title 49 Transportation Parts 100 to 177, p.907.
24 U.S. Department of Commerce(1996), Truck Inventory and Use Survey, Bureau of the Census, Washington, DC.
25 United Nations(2017), European Agreement concerning the International Carriage Dangerous Goods by Road, p.614.