Probable Hazards and Threats on Urban Tunnels during Operation

Authors

1 Assistant Professor, Faculty of Civil Engineering‌, Babol Noshirvani University of Technology, Babol, Iran

2 Ph.D., Grad., P. Eng., Hatch Ltd., Vancouver, British Columbia, Canada

Abstract

Nowadays in megacities, subways and urban tunnels are recognized as one of the most important key components of urban transportation network and its infrastructure. Construction of these infrastructures in developed countries and gaining efficient results as an outcome of their application in reducing urban transportation issues necessitates the requisiteness of attention on their widespread utilization in developing countries. However, the design and construction of such massive projects in the country which, remarkable costs are spent for, might always be involved with the occurrence of any hazard or threat. These issues are ever considered as one of the main challenges of tunneling during all three phases of design, construction, and operation, and in order to lead to the advancement and sustainable development of these underground structures in terms of construction and maintenance, the investigation of safety and risk assessment against these hazards and threats must be seriously taken into account. In this regard, the first step is the identification of hazards and threats and the investigation of the consequence of their occurrence on urban tunnels. In the operation phase, the study of various hazards and threats on urban tunnels shows that hazards including unintentional fire, collision of vehicles, entrance of surface water and flood into the tunnel, occurrence of earthquake, and negligence in maintenance and repair of tunnel, as well as threats such as explosion, emission of chemical, biological and radioactive agents, cyber-attacks, intentional fire, and subversive operations must be considered in the risk management and safety provision of urban tunnels.
 

Keywords

References

- پژوهشکده حمل و نقل (1382)، "آلودگی ناشی از دی‌اکسید نیتروژن در تونل‌های راه" ، وزارت راه، مسکن و شهرسازی.
- قیاسوند، ص.، (1386)، "تونلسازی در زمین‌های گازدار (مسائل زمین شناسی - مخاطرات مهندسی)"، پنجمین همایش زمین‌شناسی مهندسی و محیط زیست ایران، پژوهشکده سوانح طبیعی انجمن زمین شناسی مهندسی ایران، تهران.
- API 521 (1999), "Guide for Pressure-Relieving and Depressuring Systems", Washington, DC: American Petroleum Institute.
- ASCE (1974), "Earthquake damage evaluation and design considerations for underground structures", American Society of Civil Engineers, Los Angeles Section, pp. 174.
- Baji H., Li C.Q., Scicluna S., and Dauth J. (2017), "Risk-cost optimised maintenance strategy for tunnel structures", Tunnelling and Underground Space Technology, Vol. 69,
pp. 72-84.
 
- Bari S., and Naser J. (2010), "Simulation of airflow and pollution levels caused by severe traffic jam in a road tunnel", Tunnelling and Underground Space Technology, Vol. 25,
pp. 70-77.
- Bubbico R., Cave S.D., Mazzarotta B., and Silvetti B. (2009), "Preliminary study on the transport of hazardous materials through tunnels", Accident Analysis & Prevention, Vol. 41, pp. 1199-1205.
- Crowl, D.A. (2003), "Understanding Explosions", CCPS Publication, p. 214.
- DMRB (1995), "Inspection and Records for Road Tunnels", Design Manual for Roads and Bridges, Vol. 3, Sec. 1.
- Fabozzi S., V.Licata V., Autuori S., Bilotta E., Russo G. and Silvestr F. (2017), "Prediction of the seismic behavior of an underground railway station and a tunnel in Napoli (Italy)", Underground Space, Vol. 2, pp. 88-105.
- FIT (2001a), "Fire in Tunnels: Design Fire Scenarios", European Thematic Network Fire in Tunnels, WTCB, Brussel, Belgium, pp. 161.
- FIT (2001b), "Fire in Tunnels: General report", European Thematic Network Fire in Tunnels, WTCB, Brussel, Belgium, pp. 76.
- FTA- U.S. Department of Transportation and Federal Transit Administration (2003), "The Public Transportation System Security and Emergency Preparedness Planning Guide", FTA Final Report.
- Hashash Y.M.A., Hook J.J., Schmidt B. and Yao J.I.C. (2001), "Seismic design and analysis of underground structures", Tunnelling and Underground Space Technology, Vol. 16, pp.247-293.
- Jin T. (1978), "Visibility through fire smoke, Journal of Fire and Flammability", Vol. 9, pp.135-155.
- JSCE (1988), "Earthquake Resistant Design for Civil Engineering Structures in Japan", Japanese Society of Civil Engineers, Tokyo.
- Lonnermark A. (2005), "On the Characteristics of Fires in Tunnels", PhD Thesis, Lund University, pp.122.
- Muller C.P., Kampmann J., Tonnesen M. and Kroon I.B. (2008), "Design of the Busan Geoje immersed tunnel for accidental events and extreme loads", World Tunnel Congress - Underground Facilities for Better Environment and Safety, India, pp. 374-382.
- Nakamura S., Yoshida N., Iwatate T.(1996), "Damage to DaikaiSubway Station during the 1995 Hyogoken-Nambu Earthquakeand Its Investigation", Japan Society of Civil Engineers, Committeeof Earthquake Engineering,
pp. 287-295.
- Nathanail E.G., Zaharis S., Vagiokas N. and Prevedouros P.D. (2009), "Risk Assessment for the Transportation of Hazardous Materials through Tunnels", the 89th Annual Meeting of TRB and publication in the Transportation Research Record, p. 21.
-NCHRP (2008), "Transportation Security: Making Transportation Tunnels Safe and Secure ", National Cooperative Highway Research Program Report 525, p. 167.
-OECD and PIARC (1997), "Transport of dangerous goods through road tunnels: Current National and Internationl Regulations (Report 1 and 2)", http://www.oecd.ord/dsti/sti/transpor/road/ index.html.
-PIARC (2001), "Safety in Tunnels: Transportation of Dangerous goods through road tunnels", OECD,http://www.oecd.org/document/9/0,3343,en_2649_34351_2071369_1_1_1_1,00.html.
 
-PIARC (2007), "Integrated approach to road tunnel safety", PIARC Technical Committee C3.3 Road tunnel operation, p. 86.
- Power M.S., Rosidi D., Kaneshiro J. (1996), "Vol. III Strawman: screening, evaluation, and retrofit design of tunnels", Report Draft, National Center for Earthquake Engineering Research, Buffalo, New York.
- Purser D.A. (2002), "Toxicity Assessment of combustion products", In: P.J. DiNenno (Ed) SFPE Handbook of Fire Protection Engineering, National Fire Protection Association, Quincy M.A., 2-83-2-171.
- Sharma S., Judd W.R., (1991), "Underground opening damage from earthquakes", Eng. Geol. 30, pp. 263-276.
- St. John C.M., Zahrah T.F. (1987), "A seismic design of underground structures", Tunneling Underground Space Technology, Vol. 2 (2),
pp. 165-197.
- Sturm P., Beyer M. and Rafiei M., (2017), "On the problem of ventilation control in case of a tunnel fire event", Case Studies in Fire Safety, Vol. 7, pp. 36-43.
- Tao D., Dong Y., Shini P., Yimin X., and Fan Z., (2014), "Longitudinal Ventilation for Smoke Control of Urban Traffic Link Tunnel: Hybrid Field-network Simulation", Procedia Engineering, Vol. 84, pp. 586-594.
- Uenishi K., Sakurai S. (2000), "Characteristics of the vertical seismic waves associated with the 1995 Hyogo-Ken Nanbu (Kobe), Japan earthquake estimated from the failure of the Daikai underground station", Earthquake Engineering and Structural Dynamics, Vol. 29 (6), pp. 813-821.
- Vaitkevicius A., Colella F., and Carvel R., (2016), "Investigating the Throttling Effect in Tunnel Fires", Fire Technology, Vol. 52, 
pp. 1619–1628.
- Vollmann G., Thewes M. and Kleen E. (2015), "Development of a highly ductile sprayed concrete as a counter-measure for explosion and fire impacts on underground structures", ITA WTC 2015 Congress and 41st General Assembly, Dubrovnik, Croatia
- Vrouwenvelder A.C.W.M., Krom A.H.M. (2004), "Hazards and the Consequences for Tunnel Structures and Human Life", First International Symposium of Safe & Reliable Tunnels, Innovative European Achievements, Prague, pp. 23-32.
- Wannick, H.P. (2006), "The Code of Practice for Risk Management of Tunnel Works: Future Tunneling Insurance from the Insurers’Point of View", ITA Conference, Seoul, South Korea.
- Yuan Y., Bai Y., and Liu J. (2012), "Assessment service state of tunnel structure", Tunnelling and Underground Space TechnologyVol. 27,pp. 72-85.

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