Water supply network model for sustainable industrial resource use a case study of Zeeuws-Vlaanderen in the Netherlands

“…The groundwater in the example simulation comes from several well clusters identified based on the fresh-salt groundwater interface as well as the transmissivity, which affects the possibility to extract water, of the groundwater system in the region (see Willet et al, 2020). The regional groundwater system has been extensively monitored, mapped and modelled in the past and shows the WaterROUTE: a model for cost optimization of industrial water supply networks when using water resources with varying salinity presence of fresh groundwater resources on top of groundwater with a higher salinity .…”

“…In this study, the 3D groundwater model simulates the effect of multiple brackish groundwater extractions (used as the alternative water supply source) over the well clusters on the groundwater salinity over time and the piezometric heads in the vicinity of well clusters. In Willet et al (2020), analytical equations were used to estimate the upconing of the interface between fresh and saline groundwater ) and the drawdown of the phreatic groundwater level . The numerical 3D groundwater model incorporates hydro(geo)logical details of the local setting (the heterogeneous salinity distribution, interaction with the surface water system, geology), includes changes The surface water boundary is modelled with a fixed salinity concentration and does not change over the entire simulation period.…”

“…The preliminary network layout in this study represents a water supply network which still needs to be built but the same methodology can be applied for an existing (to be expanded) water supply network. The preliminary network for the Zeeuws-Vlaanderen region was generated following the steps as outlined in Willet et al (2020), using lowest cost route methods with GIS software. The main steps to generate the preliminary network layout are:…”

“…(1) Creating a cost of passage surface based on local land-use types in collaboration with water supply experts (see Willet et al, 2020). A cost of passage surface is needed to include the local spatial data in the network optimization problem.…”

“…In this study we present WaterROUTE (Water Route Optimization Utility Tool & Evaluation), a model that adds new functionality to the previously developed WSN model (Willet et al, 2020). The original WSN model generates regional water supply networks only based on water quantity requirements.…”

Alternative water resources for industry : Designing environmentally compatible regional supply networks

“…The groundwater in the example simulation comes from several well clusters identified based on the fresh-salt groundwater interface as well as the transmissivity, which affects the possibility to extract water, of the groundwater system in the region (see Willet et al, 2020). The regional groundwater system has been extensively monitored, mapped and modelled in the past and shows the WaterROUTE: a model for cost optimization of industrial water supply networks when using water resources with varying salinity presence of fresh groundwater resources on top of groundwater with a higher salinity .…”

“…In this study, the 3D groundwater model simulates the effect of multiple brackish groundwater extractions (used as the alternative water supply source) over the well clusters on the groundwater salinity over time and the piezometric heads in the vicinity of well clusters. In Willet et al (2020), analytical equations were used to estimate the upconing of the interface between fresh and saline groundwater ) and the drawdown of the phreatic groundwater level . The numerical 3D groundwater model incorporates hydro(geo)logical details of the local setting (the heterogeneous salinity distribution, interaction with the surface water system, geology), includes changes The surface water boundary is modelled with a fixed salinity concentration and does not change over the entire simulation period.…”

“…The preliminary network layout in this study represents a water supply network which still needs to be built but the same methodology can be applied for an existing (to be expanded) water supply network. The preliminary network for the Zeeuws-Vlaanderen region was generated following the steps as outlined in Willet et al (2020), using lowest cost route methods with GIS software. The main steps to generate the preliminary network layout are:…”

“…(1) Creating a cost of passage surface based on local land-use types in collaboration with water supply experts (see Willet et al, 2020). A cost of passage surface is needed to include the local spatial data in the network optimization problem.…”

“…In this study we present WaterROUTE (Water Route Optimization Utility Tool & Evaluation), a model that adds new functionality to the previously developed WSN model (Willet et al, 2020). The original WSN model generates regional water supply networks only based on water quantity requirements.…”

Alternative water resources for industry : Designing environmentally compatible regional supply networks

Future Water Use Planning by Water Evaluation and Planning System Model

A Scenario-based Interval Multi-objective Mixed-integer Programming Model for a Water Supply Problem: An Integrated AHP Technique