A computer model is developed to assess optimal ground water pumping rates in a coastal region. A sharp interface model is used to simulate the freshwater and salt water flows. A genetic algorithm is used to identify the optimal solution. The optimization problem is formulated to maximize the total freshwater pumping. Constraints applied are salt water encroachment, drawdown in ground water table and salt water concentration in pumping well
A two part optimisation study using the computer search technique of Genetic Algorithm optimisation ...
PublishedThis is the author accepted manuscript. The final version is available from Springer via th...
Excessive withdrawal of groundwater resources poses significant challenges to the management of salt...
Summarization: In the past optimization techniques have been combined with simulation models to dete...
Saltwater intrusion, which is commonly associated with extensive groundwater extraction, is an impor...
Determining the sustainable rates of groundwater extraction from coastal aquifers is a challenging g...
In the past optimization techniques have been combined with simulation models to determine cost-eff...
This study develops a methodology based on simulation-optimization to derive optimal combined operat...
The present study utilizes a coupled simulation-optimization (S-O) methodology to develop a multi-ob...
Abstract: Saltwater intrusion and upconing phenomena affect coastal aquifers worldwide. Over-exploit...
Seawater intrusion is one of the most serious environmental problems in many coastal regions all ove...
AbstractA genetic algorithm (GA) model for water distribution system (WDS) operation has been develo...
In this work, an optimisation model has been developed for planning and managing saltwater-intruded ...
schemes for agro-ecological salinity management have been set to lower the shallow groundwater to he...
Seawater intrusion is one of the major threats to freshwater resources in coastal areas, often exace...
A two part optimisation study using the computer search technique of Genetic Algorithm optimisation ...
PublishedThis is the author accepted manuscript. The final version is available from Springer via th...
Excessive withdrawal of groundwater resources poses significant challenges to the management of salt...
Summarization: In the past optimization techniques have been combined with simulation models to dete...
Saltwater intrusion, which is commonly associated with extensive groundwater extraction, is an impor...
Determining the sustainable rates of groundwater extraction from coastal aquifers is a challenging g...
In the past optimization techniques have been combined with simulation models to determine cost-eff...
This study develops a methodology based on simulation-optimization to derive optimal combined operat...
The present study utilizes a coupled simulation-optimization (S-O) methodology to develop a multi-ob...
Abstract: Saltwater intrusion and upconing phenomena affect coastal aquifers worldwide. Over-exploit...
Seawater intrusion is one of the most serious environmental problems in many coastal regions all ove...
AbstractA genetic algorithm (GA) model for water distribution system (WDS) operation has been develo...
In this work, an optimisation model has been developed for planning and managing saltwater-intruded ...
schemes for agro-ecological salinity management have been set to lower the shallow groundwater to he...
Seawater intrusion is one of the major threats to freshwater resources in coastal areas, often exace...
A two part optimisation study using the computer search technique of Genetic Algorithm optimisation ...
PublishedThis is the author accepted manuscript. The final version is available from Springer via th...
Excessive withdrawal of groundwater resources poses significant challenges to the management of salt...