References
Ayrault, N., Bolvin, C., 2004. Analyse des risques et prévention des accidents majeurs—Rapport partiel d’opération f: Guide pour la prise en compte du risque inundation, INERIS Report DRA-2004-Ava-P46054 (in French).
Busini V, Marzo E, Callioni A, Rota R. Definition of a short-cut methodology for assessing earthquake-related Na-Tech risk. J. Hazard. Mater. 2011;192:329.
CalARP, 2013. Guidance for California Accidental Release Prevention (CalARP) Program Seismic Assessments, CalARP Program Seismic Guidance Committee, December 2013.
Cruz AM, Okada N. Methodology for preliminary assessment of Natech risk in urban areas. Nat. Hazards. 2008;46:199.
Cruz, A.M., Krausmann, E., 2008. Results of the workshop: Assessing and managing Natechs (natural-hazard triggered technological accidents), JRC Scientific and Technical Report EUR 23288 EN, European Communities.
Cruz, A.M., Suda, H., 2015. Assessment of Natech risk for evacuation planning in areas subject to natural hazards. In: Proceedings of Seventh European Meeting on Chemical Industry and Environment, Tarragona, Spain, June 10–12.
El Hajj C, Piatyszek E, Tardy A, Laforest V. Development of generic bow-tie diagrams of accidental scenarios triggered by flooding of industrial facilities (Natech). J. Loss Prevent. Process Ind. 2015;36:72.
FEMA, 2003. Multi-Hazard Loss Estimation Methodology, Earthquake Model, HAZUS®MH MR4, Technical Manual. US Federal Emergency Management Agency, Washington, DC.
Girgin, S., 2012. RAPID-N: Rapid Natech risk assessment tool—User manual version 1.0, JRC Technical Report EUR 25164 EN, European Union.
Girgin S, Krausmann E. RAPID-N: rapid Natech risk assessment and mapping framework. J. Loss Prevent. Process Ind. 2013;26:949.
IDMC, 2016. (Guidelines for Earthquake Risk Management at Industrial Parks located in Coastal Areas). Institute for Disaster Mitigation of Industrial Complexes, Waseda University, Tokyo, April (in Japanese).
IPCC, 2007. Climate Change 2007: Impacts, Adaptation and Vulnerability, Fourth Assessment Report. Cambridge University Press.
Kiremidjian, A., Ortiz, K., Nielsen, R., Safavi, B., 1985. Seismic Risk to Industrial Facilities, Report No. 72. The John A. Blume Earthquake Engineering Center, Stanford University.
Köppke, K.E., Sterger, O., Stock, M., 2012. Hinweise und Erläuterungen zur TRAS 310 Vorkehrungen und Maßnahmen wegen der Gefahrenquellen Niederschläge und Hochwasser. Umweltbundesamt, Dessau-Roßlau, April 2012, http://www.kas-bmu.de/publikationen/tras/370849300_TRAS310_Endbericht_1.pdf (in German).
Krätzig, W.B., Andres, M., Niemann, H.-J., Köppke, K.E., Stock, M., 2015. Hinweise und Erläuterungen zur TRAS 320 - Vorkehrungen und Maßnahmen wegen der Gefahrenquellen Wind, Schnee- und Eislasten, Umweltbundesamt, Dessau-Roßlau, October 2015, http://www.kas-bmu.de/publikationen/tras/TRAS320_Hinweise_Erlaeuterungen.pdf (in German).
Krausmann E, Baranzini D. Natech risk reduction in the European Union. J. Risk Res. 2012;15:1027.
Reitherman, R.K., 1982. Earthquake-caused hazardous materials releases. In: Proceedings of Hazardous Materials Spills Conference, Milwaukee, WI, April 19–22.
Seligson, H.A., Eguchi, R.T., Tierney, K.J., Richmond, K., 1996. Chemical Hazards, Mitigation and Preparedness in Areas of High Seismic Risk: A Methodology for Estimating the Risk of Post-Earthquake Hazardous Materials Releases, Technical Report NCEER-96-0013. National Center for Earthquake Engineering Research, State University of New York at Buffalo.
Tierney, K.J., Eguchi, R.T., 1989. A methodology for estimating the risk of post-earthquake hazardous materials releases. In: Proceedings of HAZMACON 89, Santa Clara, California, April 18–20, 1989.
TRAS 310, 2012a. Technische Regel für Anlagensicherheit: Vorkehrungen und Maßnahmen wegen der Gefahrenquellen Niederschläge und Hochwasser, Bundesanzeiger, February 24, 2012, Supplement 32a, non-official version: http://www.kas-bmu.de/publikationen/tras/TRAS310_nicht_offizielle_Version.pdf (in German).
TRAS 310, 2012b. Technical Rule on Installation Safety: Precautions and Measures Due to Precipitation and Floods, May 2012, non-official short version: http://www.kas-bmu.de/publikationen/tras/TRAS_310_GB_shortversion.pdf
TRAS 320, 2015a. Technische Regel für Anlagensicherheit: Vorkehrungen und Maßnahmen wegen der Gefahrenquellen Wind sowie Schnee-und Eislasten, Bundesanzeiger, July 16, 2015, non-official version: http://www.kas-bmu.de/publikationen/tras/tras_320.pdf (in German).
TRAS 320, 2015b. Precautions and Measures Against the Hazard Sources Wind, Snow Loads and Ice Loads, June 15, 2015, translation into English: http://www.kas-bmu.de/publikationen/tras/TRAS_320_en.pdf (in English).
US EPA, 1999. Risk Management Program Guidance for Offsite Consequence Analysis, US Environmental Protection Agency, Chemical Emergency Preparedness and Prevention Office, USA.
Werner, S.D., Boutwell, S.H., Varner, T.R., 1989. Identification and mitigation of potential earthquake-induced hazardous material incidents in Silicon Valley facilities. In: Proceedings of HAZMACON 89, Santa Clara, California, April 18–20.