••Flow battery based on the neutralization of an acid and a base by reverse electrodialysis with bipolar membrane
Keywords: flow battery, energy storage, bipolar membrane, reverse electrodialysis, bipolar membrane electrodialysis, water dissociation 1. Introduction The awareness of climate change
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The increasing share of renewables in electric grids nowadays causes a growing daily and seasonal mismatch between electricity generation and demand. In this regard, novel energy
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Aqueous redox flow batteries that employ organic molecules as redox couples hold great promise for mitigating the intermittency of renewable electricity through efficient, low-cost diurnal storage. However, low cell
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Neutralization of acid and base to produce electricity in the process of reverse electrodialysis with bipolar membranes (REDBP) presents an interesting but until now fairly overlooked flow
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Neutralization of acid and base to produce electricity in the process of reverse electrodialysis with bipolar membranes (REDBP) presents an interesting but until now fairly overlooked flow battery concept. Previously,
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May 28, 2021 · Aqueous redox flow batteries that employ organic molecules as redox couples hold great promise for mitigating the intermittency of renewable electricity through efficient, low
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Issues plaguing flow batteries are low energy density, high overall cost, poor stability of electrolytes, shifting of solvent from anolyte to catholyte while using cation exchange membrane, reverse flow with anion exchange
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Nov 19, 2019 · Neutralization of acid and base to produce electricity in the process of reverse electrodialysis with bipolar membranes (REDBP) presents an interesting but until now fairly
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Feb 12, 2020 · Neutralization of acid and base to produce electricity in the process of reverse electrodialysis with bipolar membranes (REDBP) presents an interesting but until now fairly
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Jan 11, 2020 · Neutralization of acid and base to produce electricity in the process of reverse electrodialysis with bipolar membranes (REDBP) presents an interesting but until now fairly
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Apr 30, 2023 · Despite the advantages of this concept, their performance metrics are still quite modest for industrial applications. To fulfill this gap, in previous work, the authors presented a
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Despite the advantages of this concept, their performance metrics are still quite modest for industrial applications. To fulfill this gap, in previous work, the authors presented a new two
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Nov 1, 2018 · In addition to traditional electrical energy storage devices, flow batteries have become a subject of intensive research and development activities. This publication is
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A flow battery based on the neutralization of acids and bases in an electrodialysis process with bipolar membranes is an interesting alternative to the redox battery. The main advantage of this concept is that the electrolytes to be used in the process such as HCl, NaOH and NaCl are abundant and inexpensive.
Conclusions The decisive element of the flow battery concept presented is the bipolar membrane, where a conversion between electrical and chemical energy takes place. This is the main difference from most other flow batteries, where the chemical energy is transformed in the electrode reactions.
The reversal of this process represents the discharge of the battery with the generation of electricity from the electrodialytical neutralization of acid and base in the bipolar membrane (upper half of Fig. 1 ). Fig. 1.
Issues plaguing flow batteries are low energy density, high overall cost, poor stability of electrolytes, shifting of solvent from anolyte to catholyte while using cation exchange membrane, reverse flow with anion exchange membrane, and corrosion of graphite felt in the catholyte side.
In general, these batteries offer no mechanical means for preventing the reversal of one or more cells. For these systems, a designer must ensure that any flow of reverse current is low enough to avoid damaging the circuit or the battery. A variety of circuits can provide this assurance.
A variety of circuits can provide this assurance. The simplest form of battery-reversal protection is a diode in series with the positive supply line (Figure 1a). The diode allows current from a correctly installed battery to flow to the load and blocks current flow to a backward-installed battery.
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