WaterROUTE: A model for cost optimization of industrial water supply networks when using water resources with varying salinity
Willet, Joeri; Wetser, Koen; Dykstra, Jouke E.; Bianchi, Alessio Belmondo; Oude Essink, Gualbert; Rijnaarts, Huub H.M.
(2021) Water Research, volume 202, pp. 1 - 13
(Article)
Abstract
Water users can reduce their impact on scarce freshwater resources by using more abundant regional brackish or saline groundwater resources. Decentralized water supply networks (WSN) can connect these regional groundwater resources with water users. Here, we present WaterROUTE (Water Route Optimization Utility Tool & Evaluation), a model which optimizes water
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supply network configurations based on infrastructure investment costs while considering the water quality (salinity) requirements of the user. We present an example simulation in which we determine the optimal WSN for different values of the maximum allowed salinity at the demand location while supplying 2.5 million m3 year-1 with regional groundwater. The example simulation is based on data from Zeeuws-Vlaanderen, the Netherlands. The optimal WSN configurations for the years 2030, 2045 and 2110 are generated based on the simulated salinity of the regional groundwater resources. The simulation results show that small changes in the maximum salinity at the demand location have significant effects on the WSN configuration and therefore on regional planning. For the example simulation, the WSN costs can differ by up to 68% based on the required salinity at the demand site. WaterROUTE can be used to design water supply networks which incorporate alternative water supply sources such as local brackish groundwater (this study), effluent, or rainwater.
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Keywords: Alternative water sources, Groundwater, Industrial water use, Network optimization, Regional planning, Salinity, Water supply network, Environmental Engineering, Civil and Structural Engineering, Ecological Modelling, Water Science and Technology, Waste Management and Disposal, Pollution
ISSN: 0043-1354
Publisher: Elsevier
Note: Funding Information: This research is financed by the Netherlands organization for Scientific Research (NWO), which is partly funded by the Ministry of Economic Affairs and Climate Policy , and co-financed by the Netherlands Ministry of Infrastructure and Water Management and partners of the Dutch Water Nexus consortium. The regional partners: DOW Benelux, Evides, KWR, and Shell contributed to this project by providing the context for the example simulation, providing data on regional water demand, and practical expertise on the water supply system. Funding Information: This research is financed by the Netherlands organization for Scientific Research (NWO), which is partly funded by the Ministry of Economic Affairs and Climate Policy, and co-financed by the Netherlands Ministry of Infrastructure and Water Management and partners of the Dutch Water Nexus consortium. The regional partners: DOW Benelux, Evides, KWR, and Shell contributed to this project by providing the context for the example simulation, providing data on regional water demand, and practical expertise on the water supply system. Publisher Copyright: © 2021
(Peer reviewed)