An Approach for a Decision Support Systems to optimize Water Tanks in Water Supply Systems by combining Network Reduction, Optimization and Simulation
Hallmann, Corinna
ddc:040
Since the last two decades, the water consumption in Germany is decreasing, which causes the water tanks and pipes in a water supply system to work inefficiently. This paper proposes an approach for a decision support system, which helps to decide how to plan new water tanks and resize existing tanks in water supply systems. The approach uses a combination of network reduction, mathematical optimization and hydraulic simulation. The mathematical optimization model is a nonconvex Mixed Integer Quadratically Constrained Program (MIQCP), which is solved by a piecewise linearization. As this may lead to many binary variables and therefore high computational times, the size of the water supply system model is reduced before building the optimization model. By applying several network reduction techniques there may occur some hydraulic differences between the original network model and the reduced network model. To make sure that the solution obtained in the optimization process is feasible in the original water supply system, the solution is verified by a hydraulic simulation tool.
Universität Paderborn
2013
info:eu-repo/semantics/report
doc-type:report
text
https://ris.uni-paderborn.de/record/557
Hallmann C. <i>An Approach for a Decision Support Systems to Optimize Water Tanks in Water Supply Systems by Combining Network Reduction, Optimization and Simulation</i>. Universität Paderborn; 2013.
info:eu-repo/semantics/closedAccess