Evaluation of the Dynamic Modeling and Discharge Performance of a Magnesium Battery Activated by Seawater

Abstract: This study focuses on an evaluation of the dynamic modeling and discharge performance of magnesium battery activated by sea water. Modeling is important to determine the optimum condition of battery discharge operation. The modeling was performed by modifying the Shepherd model approach by combining an Rint equivalent circuit model to avoid the looping algorithm problem. Initial parameters were obtained from battery discharge manufacturing data on open operating systems. The battery anode used magnesium foil, … Show more

“…The model was used to evaluate the maximum and minimum state of charge (SOC). 15 To further enhance the cyclicity of magnesium sulfur batteries, Wang et al,2018 introduced a new electrolyte (PhMgCl) 2 −AlCl 3 /tetrahydrofuran-based, a nucleophilic electrolyte. The cathode was sulfur impregnated in mesoporous carbon matrix type (S@MC).…”

Review—Carbon Electrodes in Magnesium Sulphur Batteries: Performance Comparison of Electrodes and Future Directions

“…The model was used to evaluate the maximum and minimum state of charge (SOC). 15 To further enhance the cyclicity of magnesium sulfur batteries, Wang et al,2018 introduced a new electrolyte (PhMgCl) 2 −AlCl 3 /tetrahydrofuran-based, a nucleophilic electrolyte. The cathode was sulfur impregnated in mesoporous carbon matrix type (S@MC).…”

Review—Carbon Electrodes in Magnesium Sulphur Batteries: Performance Comparison of Electrodes and Future Directions

Modeling and simulation of discharge behavior of Mg-H2O seawater battery