Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Seismic Fragility Study of Displacement Demand on Fire Sprinkler Piping Systems
Seismic damage to fire sprinkler piping systems is not only caused by inertial forces or interstory drifts, but also by impact with surrounding objects. The collision of constituents of piping systems with nearby objects increases the chance of damage to the piping itself and to adjacent objects. In this study, the probability of seismic damage to fire sprinkler systems due to impact is quantified by obtaining seismic fragility parameters for large diameter pipes passing through walls and floors, as well as small diameter pipes that typically interact with suspended ceilings. The results of two shaking table experiments conducted at the University of Nevada, Reno and E-Defense test facility, and a high-fidelity numerical model of a hospital piping system are used to evaluate the displacement demands. Piping interaction fragility curves are generated based on clearances between adjacent objects and pipes. The probability of piping interactions and damage to piping systems subjected to different levels of peak floor acceleration is compared for different clearances. It is found that the probability of damage due to impact is comparable with the probability of exceeding other limit states, like the leakage in fittings, when a 1 in or 2 in gap is provided around large and small diameter pipes, respectively.
Seismic Fragility Study of Displacement Demand on Fire Sprinkler Piping Systems
Seismic damage to fire sprinkler piping systems is not only caused by inertial forces or interstory drifts, but also by impact with surrounding objects. The collision of constituents of piping systems with nearby objects increases the chance of damage to the piping itself and to adjacent objects. In this study, the probability of seismic damage to fire sprinkler systems due to impact is quantified by obtaining seismic fragility parameters for large diameter pipes passing through walls and floors, as well as small diameter pipes that typically interact with suspended ceilings. The results of two shaking table experiments conducted at the University of Nevada, Reno and E-Defense test facility, and a high-fidelity numerical model of a hospital piping system are used to evaluate the displacement demands. Piping interaction fragility curves are generated based on clearances between adjacent objects and pipes. The probability of piping interactions and damage to piping systems subjected to different levels of peak floor acceleration is compared for different clearances. It is found that the probability of damage due to impact is comparable with the probability of exceeding other limit states, like the leakage in fittings, when a 1 in or 2 in gap is provided around large and small diameter pipes, respectively.
Seismic Fragility Study of Displacement Demand on Fire Sprinkler Piping Systems
Soroushian, Siavash (Autor:in) / Zaghi, Arash E. (Autor:in) / Maragakis, E. “Manos” (Autor:in) / Echevarria, Alicia (Autor:in)
Journal of Earthquake Engineering ; 18 ; 1129-1150
03.10.2014
22 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Seismic Fragility Study of Displacement Demand on Fire Sprinkler Piping Systems
| Online Contents | 2014
Seismic Fragility Study of Fire Sprinkler Piping Systems
| British Library Conference Proceedings | 2013
Seismic Fragility Study of Fire Sprinkler Piping Systems
| ASCE | 2013