Water distribution networks are critical for the recovery of an urban area struck by a moderate to strong earthquake. In the paper a refined computational procedure is presented able to assess the post-seismic response of a water distribution system. The procedure permits to deal either a scenario analysis (when the earthquake that is going to hit the urban area is known in its essential features) or a full probabilistic analysis. In the latter case in input it is required to specify the basic parameters able to describe the seismotectonic framework around the area of interest. Other sources of uncertainty are due to network geometry and mechanical response to seismic action. The reliability computation is based on the Monte Carlo method: each simulation caries out the generation of an earthquake (location and magnitude), the propagation of seismic effect at network nodes, the simulation of possible leaks and breaks over the pipes and finally the flow analysis on the damaged network. The method is applied and discussed using a real case network.
RELIABILITY ANALYSIS OF URBAN WATER SYSTEMS UNDER SEISMIC ACTION
Alessandro Rasulo
2017-01-01
Abstract
Water distribution networks are critical for the recovery of an urban area struck by a moderate to strong earthquake. In the paper a refined computational procedure is presented able to assess the post-seismic response of a water distribution system. The procedure permits to deal either a scenario analysis (when the earthquake that is going to hit the urban area is known in its essential features) or a full probabilistic analysis. In the latter case in input it is required to specify the basic parameters able to describe the seismotectonic framework around the area of interest. Other sources of uncertainty are due to network geometry and mechanical response to seismic action. The reliability computation is based on the Monte Carlo method: each simulation caries out the generation of an earthquake (location and magnitude), the propagation of seismic effect at network nodes, the simulation of possible leaks and breaks over the pipes and finally the flow analysis on the damaged network. The method is applied and discussed using a real case network.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.