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Flooding of Underground Facilities in Urban Regions… …after malfunction of flood protection measures 4 th International Symposium on Flood Defense Managing Flood Risk, Reliability and Vulnerability Toronto, Ontario, Canada, May 6-8, 2008. Dr.-Ing. Mario Oertel Postdoctoral Researcher
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Flooding of Underground Facilities in Urban Regions… …after malfunction of flood protection measures 4th International Symposium on Flood Defense Managing Flood Risk, Reliability and Vulnerability Toronto, Ontario, Canada, May 6-8, 2008 Dr.-Ing. Mario OertelPostdoctoral Researcher Hydraulic Engineering Section Civil Engineering Department Bergische University of Wuppertal GERMANY
Contents Introduction and motivation, Physical model and flood wave propagation, Hazards in underground facilities, Flood-types and modeling result, RoFUF, Summary and Conclusion.
Introduction and Motivation • Flood protection measures: • Flood area management, • Technical flood protection, • Flood prevention. • Flood risk management: • Flood protection measures, • Coping measures (operational flood protection, flood defense, rebuilding, financial help, …). • Main prevention component: • Transparent discussion about existence risks and hazards! Introduction and motivation Physical model and flood wave propagation Hazards in underground facilities Flood-types and modeling results RoFUF Summary and Conclusion Source: DKKV (2003)
Introduction and Motivation • Flooding processes of underground facilities (underground parking areas, underground stations, underground malls) after malfunction of flood protection measures are not explored respectively human hazards, • current events show the basic necessity of detailed analyses to determine various hazard classes, • only some investigations in Japan deal with underground facilities in matters of possible infrastructural damage. Introduction and motivation Physical model and flood wave propagation Hazards in underground facilities Flood-types and modeling results RoFUF Summary and Conclusion Source: Fukuoka Pref., Yasuda & Hiriashi(2003)
Physical Model and Flood Wave Propagation • Scale 1:20 (1:13), • geometrical BC: • flume 0.66 m, • Propagation area 4.0 x 5.6 m, • breach 0.5 m, • entries to underground facilities 0.1 and 0.2 m, • underground volume 0.072 m3, • hydraulic BC: • discharge 28 and 50 l/s, • initial water depth in flume 12.5 and 19.0 cm. Introduction and motivation Physical model and flood wave propagation Hazards in underground facilities Flood-types and modeling results RoFUF Summary and Conclusion
Physical Model and Flood Wave Propagation Introduction and motivation Physical model and flood wave propagation Hazards in underground facilities Flood-types and modeling results RoFUF Summary and Conclusion wave deflection 3 to 6 ° Arrival time offlood wave in [s] h0 = 19,0 cm h0 = 12,5 cm h0 = 19.0 cm h0 = 12.5 cm
Hazards in Underground Facilities • Fall-limit in entry area: • so called fall-number SN gives information about existence hazard, • possible resilience of adult human between SN = 0.65 and 1.25 m2/s (Abt et al., 1989; RESCDAM, 2000), • high injury potential. Introduction and motivation Physical model and flood wave propagation Hazards in underground facilities Flood-types and modeling results RoFUF Summary and Conclusion Fall-limit (Abt et al., 1989; RESCDAM, 2000)
Hazards in Underground Facilities • Increasing water level inside underground building: • hkrit = 1.5 m, • tkrit depending on inflow Qfill and ground space of underground facility Aub, • drowning possible. Introduction and motivation Physical model and flood wave propagation Hazards in underground facilities Flood-types and modeling results RoFUF Summary and Conclusion
Flood-Types and Modeling Results • 3 flood-types can be detected: • Direct, active flooding (dynamic flood), • Sidewise, active flooding (dynamic flood), • Indirect, passive flooding (static flood). Introduction and motivation Physical model and flood wave propagation Hazards in underground facilities Flood-types and modeling results RoFUF Summary and Conclusion
Flood-Types and Modeling Results • Flood-type 1: Introduction and motivation Physical model and flood wave propagation Hazards in underground facilities Flood-types and modeling results RoFUF Summary and Conclusion
Flood-Types and Modeling Results • Flood-type 2: Introduction and motivation Physical model and flood wave propagation Hazards in underground facilities Flood-types and modeling results RoFUF Summary and Conclusion where:
Flood-Types and Modeling Results • Flood-type 3: Introduction and motivation Physical model and flood wave propagation Hazards in underground facilities Flood-types and modeling results RoFUF Summary and Conclusion
RoFUF • RoFUF = Risk of Flooding Underground Facilities, • implements modeling results in Decision-Support-System, • free download: http://www.rofuf.de • NOGREEN markers! Introduction and motivation Physical model and flood wave propagation Hazards in underground facilities Flood-types and modeling results RoFUF Summary and Conclusion symbol to include in flood risk maps
Summary and Conclusion • People in flood areas next to rivers are – highly – at risk in matters of flooding underground facilities after malfunction of flood protection measures, • with physical and numerical models as well as theoretical investigations the existence hazards could be identified and quantified in detail, • main hazards occur in entry areas and inside underground facilities depending on three various flood-types, • all results of the research project are implemented in RoFUF – a Decision-Support-System – which allows the identification of hazard classes in underground facilities after Switzerland standards. • Thank you for your kind attention. • Dr.-Ing. Mario Oertel • Hydraulic Engineering Section • Bergische University of Wuppertal • Fon: +49 (0) 202 439 4133 • E-Mail: maoertel@uni-wuppertal.de Introduction and motivation Physical model and flood wave propagation Hazards in underground facilities Flood-types and modeling results RoFUF Summary and Conclusion