A Hydrogen-Bromate Flow Battery as a Rechargeable Chemical Power Source

Abstract: The hydrogen-bromate flow battery represents one of the promising variants for hybrid power sources. Its membrane-electrode assembly (MEA) combines a hydrogen gas diffusion anode and a porous flow-through cathode where bromate reduction takes place from its acidized aqueous solution: BrO3− + 6 H+ + 6 e− = Br− + 3 H2O (*). The process of electric current generation occurs on the basis of the overall reaction: 3 H2 + BrO3− = Br− + 3 H2O (**), which has been studied in previous publications. Until this work, it h… Show more

“…These issues have stimulated further search for new types of power sources with the use of hydrogen fuel [21,22]. One such device is a hydrogen-bromate battery, which represents the combination of a hydrogen gas-diffusion anode with a cathode where the acidized aqueous solution of a salt of the bromic acid passes through the porous carbon material [23][24][25][26][27]. During the discharge of the device, the bromate anion is reduced by hydrogen to the corresponding bromide according to the global equation:…”

Evolution of the Bromate Electrolyte Composition in the Course of Its Electroreduction inside a Membrane–Electrode Assembly with a Proton-Exchange Membrane

“…These issues have stimulated further search for new types of power sources with the use of hydrogen fuel [21,22]. One such device is a hydrogen-bromate battery, which represents the combination of a hydrogen gas-diffusion anode with a cathode where the acidized aqueous solution of a salt of the bromic acid passes through the porous carbon material [23][24][25][26][27]. During the discharge of the device, the bromate anion is reduced by hydrogen to the corresponding bromide according to the global equation:…”

Evolution of the Bromate Electrolyte Composition in the Course of Its Electroreduction inside a Membrane–Electrode Assembly with a Proton-Exchange Membrane