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Extending the Application of Connectivity Metrics for Characterizing the Dynamic Behavior of Water Distribution Networks

Valentina Marsili, Stefano Alvisi, Filomena Maietta, Caterina Capponi, Silvia Meniconi, Bruno Brunone, Marco Franchini

2023Water Resources Research15 citationsDOIOpen Access PDF

Abstract

Abstract Water distribution networks (WDNs) are complex combinations of nodes and links, and the current tendency is to modify their topological structure through the closure of isolation valves for monitoring and water quality reasons. For their analysis, several approaches based on graph theory have recently been proposed, mainly considering steady‐state flow conditions. However, in their real functioning, WDNs are continuously subjected to pressure transients generated by maneuvers on regulation devices or by users' activity. This study investigates the application of some metrics from graph theory, already used in the context of steady‐state analysis, for assessing the effects of changes in the topological structure of a network—due for example, to sectorization or branching operations—on its transient response when subjected to maneuvers on devices such as hydrants, pumps, etc. or users' activity. The analysis shows that some connectivity metrics can effectively reflect the dynamic pressure behavior of the network and, thus, provide useful indications for design and management operations taking into account unsteady flow features.

Topics & Concepts

Computer scienceTransient (computer programming)GraphClosure (psychology)Context (archaeology)Topology (electrical circuits)Flow (mathematics)Complex networkDistributed computingEngineeringTheoretical computer scienceMathematicsGeologyGeometryMarket economyEconomicsWorld Wide WebElectrical engineeringOperating systemPaleontologyWater Systems and OptimizationUnderwater Vehicles and Communication SystemsWater Treatment and Disinfection
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