Add to ORKGAbstract: A general decision model for sustainable groundwater management is described through the identification of the decision variables, and the formalization of the objective function and the constraints. The objectives of the decision problem represent the goals that are pursued by the management strategies, according to the specific exigencies of the decision makers, while the constraints represent limits to be respected, exigencies to be fulfilled, and can also be used to take into account the various aspects of the problem. The decision model is applied to the coastal freatic aquifer of the Cervia city that is polluted by salt water. Copyright © 2005 IFA
Determining the sustainable rates of groundwater extraction from coastal aquifers is a challenging g...
Management models are developed and solved that are based on the advective-dispersive density-depend...
A conventional simulation-optimization model with constraint on drawdown at an area of interest is u...
A general decision model for sustainable groundwater management is described through the identificat...
Water is essential for human life and its protection and sustainable exploitation are crucial tasks....
A number of nonlinear optimization-based multiple-objective management models for sustainable utiliz...
A number of nonlinear optimization-based multiple-objective management models for sustainable utiliz...
In this work, an optimisation model has been developed for planning and managing saltwater-intruded ...
Proper management of coastal wells is important in order to satisfy demand, minimize costs, control ...
Decentralized groundwater management applications are continually evolving to reflect shifts in wate...
Determining the sustainable rates of groundwater extraction from coastal aquifers is a challenging g...
An interactive decision support program is presented for the rapid modification of optimal regional ...
An interactive decision support program is presented for the rapid modification of optimal regional ...
Saltwater intrusion and upconing phenomena affect coastal aquifers worldwide. These phenomena can be...
Management models are developed and solved that are based on the advective-dispersive density-depend...
Determining the sustainable rates of groundwater extraction from coastal aquifers is a challenging g...
Management models are developed and solved that are based on the advective-dispersive density-depend...
A conventional simulation-optimization model with constraint on drawdown at an area of interest is u...
A general decision model for sustainable groundwater management is described through the identificat...
Water is essential for human life and its protection and sustainable exploitation are crucial tasks....
A number of nonlinear optimization-based multiple-objective management models for sustainable utiliz...
A number of nonlinear optimization-based multiple-objective management models for sustainable utiliz...
In this work, an optimisation model has been developed for planning and managing saltwater-intruded ...
Proper management of coastal wells is important in order to satisfy demand, minimize costs, control ...
Decentralized groundwater management applications are continually evolving to reflect shifts in wate...
Determining the sustainable rates of groundwater extraction from coastal aquifers is a challenging g...
An interactive decision support program is presented for the rapid modification of optimal regional ...
An interactive decision support program is presented for the rapid modification of optimal regional ...
Saltwater intrusion and upconing phenomena affect coastal aquifers worldwide. These phenomena can be...
Management models are developed and solved that are based on the advective-dispersive density-depend...
Determining the sustainable rates of groundwater extraction from coastal aquifers is a challenging g...
Management models are developed and solved that are based on the advective-dispersive density-depend...
A conventional simulation-optimization model with constraint on drawdown at an area of interest is u...