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Seismic Probabilistic Risk Assessment of Weir Structures considering the Earthquake Hazard in the Korean Peninsula

 Seismic Probabilistic Risk Assessment of Weir Structures considering the Earthquake Hazard in the Korean Peninsula
Auteur(s): , ,
Présenté pendant IABSE Symposium: Tomorrow’s Megastructures, Nantes, France, 19-21 September 2018, publié dans , pp. S22-29
DOI: 10.2749/nantes.2018.s22-43
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Seismic safety evaluation of weir structure is significant considering the catastrophic economical consequence of operational disruption. In recent years, the seismic probabilistic risk assessment ...
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Détails bibliographiques

Auteur(s): (Rural research Institute, 870, Haean-ro Sangnok-gu, Ansan-si Gyeonggi-do, 15634, Republic of Korea)
(Civil and Environmental Engineering, Kunsan National University 558 Daehak-ro, Gunsan-si 54150, Republic of Korea)
(Civil and Environmental Engineering, Kunsan National University 558 Daehak-ro, Gunsan-si 54150, Republic of Korea)
Médium: papier de conférence
Langue(s): anglais
Conférence: IABSE Symposium: Tomorrow’s Megastructures, Nantes, France, 19-21 September 2018
Publié dans:
Page(s): S22-29 Nombre total de pages (du PDF): 8
Page(s): S22-29
Nombre total de pages (du PDF): 8
DOI: 10.2749/nantes.2018.s22-43
Abstrait:

Seismic safety evaluation of weir structure is significant considering the catastrophic economical consequence of operational disruption. In recent years, the seismic probabilistic risk assessment (SPRA) has been issued as a key area of research for the hydraulic system to mitigate and manage the risk. The aim of this paper is to assess the seismic probabilistic risk of weir structures employing the seismic hazard and the structural fragility in Korea. At the first stage, probabilistic seismic hazard analysis (PSHA) approach is performed to extract the hazard curve at the weir site using the seismic and geological data. Thereafter, the seismic fragility that defines the probability of structural collapse is evaluated by using the incremental dynamic analysis (IDA) method in accordance with the four different design limit states as failure identification criteria. Consequently, by combining the seismic hazard and fragility results, the seismic risk curves are developed that contain helpful information for risk management of hydraulic structures. The tensile stress of the mass concrete is found to be more vulnerable than other design criteria. The hazard deaggregation illustrates that moderate size and far source earthquakes are the most likely scenario for the site. In addition, the annual loss curves for two different hazard source models corresponding to design limit states are extracted