A SOFTWARE FRAMEWORK FOR ASSESSING THE RESILIENCE OF DRINKING WATER SYSTEMS TO DISASTERS WITH AN EXAMPLE EARTHQUAKE CASE STUDY

Overview

Journal Environ Model Softw

Date 2018 Dec 4

PMID 30505210

Citations 10

Authors

Katherine A Klise

Michael Bynum

Dylan Moriarty

Regan Murray

Affiliations

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Abstract

Water utilities are vulnerable to a wide variety of human-caused and natural disasters. The Water Network Tool for Resilience (WNTR) is a new open source Python™ package designed to help water utilities investigate resilience of water distribution systems to hazards and evaluate resilience-enhancing actions. In this paper, the WNTR modeling framework is presented and a case study is described that uses WNTR to simulate the effects of an earthquake on a water distribution system. The case study illustrates that the severity of damage is not only a function of system integrity and earthquake magnitude, but also of the available resources and repair strategies used to return the system to normal operating conditions. While earthquakes are particularly concerning since buried water distribution pipelines are highly susceptible to damage, the software framework can be applied to other types of hazards, including power outages and contamination incidents.

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Pressure dependent analysis in premise plumbing system modeling.

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Resilience Analysis of Potable Water Service after Power Outages in the U.S. Virgin Islands.

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References

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