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Systematic generation of virtual networks for water supply
Author(s) -
Möderl Michael,
Sitzenfrei Robert,
Fetz Thomas,
Fleischhacker Ernst,
Rauch Wolfgang
Publication year - 2011
Publication title -
water resources research
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.863
H-Index - 217
eISSN - 1944-7973
pISSN - 0043-1397
DOI - 10.1029/2009wr008951
Subject(s) - modular design , computer science , bridge (graph theory) , range (aeronautics) , virtual water , graph theory , set (abstract data type) , graph , network analysis , mathematical optimization , data mining , industrial engineering , theoretical computer science , topology (electrical circuits) , mathematics , engineering , water resources , medicine , ecology , water scarcity , combinatorics , biology , programming language , aerospace engineering , operating system , electrical engineering
Building theories from case studies is a common research approach that can also be applied to the analysis of networks. Although case studies of real systems bridge the gap between theory and practice, they are nevertheless investigations of a subset of cases, each with specific characteristics. To tackle this problem, a multitude of networks with diverging characteristics are generated using the graph‐theory‐based Modular Design System (MDS). In this paper the application of this MDS is demonstrated by generating a set of 2280 virtual Water Supply Systems. The layout and the properties of these systems are representative of typical examples encountered in practice. Scatterplots, density, and cumulative distribution functions are used to characterize several network parameters. A comparison of the virtual set with three real‐world case studies shows similar characteristics. Finally, the potential of the methodology is demonstrated by analyzing the impact of increased water demand on hydraulic performance. It can be shown that the allowed maximum and minimum diameters envelop a range of impacts on mean values for nodal pressure.