[HTML][HTML] Controlling eutrophication by means of water recirculation: An optimal control perspective
FJ Fernández, A Martínez… - Journal of Computational …, 2023 - Elsevier
In this work, the artificial recirculation of water is presented and analyzed, from the
perspective of the optimal control of partial differential equations, as a tool to prevent
eutrophication effects in large waterbodies. A novel formulation of the environmental
problem, based on the coupling of nonlinear models for hydrodynamics, water temperature
and concentrations of the different species involved in the eutrophication processes, is
introduced. After a complete and rigorous analysis of the existence of optimal solutions, a full …
perspective of the optimal control of partial differential equations, as a tool to prevent
eutrophication effects in large waterbodies. A novel formulation of the environmental
problem, based on the coupling of nonlinear models for hydrodynamics, water temperature
and concentrations of the different species involved in the eutrophication processes, is
introduced. After a complete and rigorous analysis of the existence of optimal solutions, a full …
Controlling eutrophication by means of water recirculation: An optimal control perspective
FJ Fernández Fernández, ÁM Martínez Varela… - 2022 - minerva.usc.es
In this work, the artificial recirculation of water is presented and analyzed, from the
perspective of the optimal control of partial differential equations, as a tool to prevent
eutrophication effects in large waterbodies. A novel formulation of the environmental
problem, based on the coupling of nonlinear models for hydrodynamics, water temperature
and concentrations of the different species involved in the eutrophication processes, is
introduced. After a complete and rigorous analysis of the existence of optimal solutions, a full …
perspective of the optimal control of partial differential equations, as a tool to prevent
eutrophication effects in large waterbodies. A novel formulation of the environmental
problem, based on the coupling of nonlinear models for hydrodynamics, water temperature
and concentrations of the different species involved in the eutrophication processes, is
introduced. After a complete and rigorous analysis of the existence of optimal solutions, a full …
Showing the best results for this search. See all results