Energy efficiency of a concentration gradient flow battery at elevated temperatures

Fast growth of intermittent renewable energy generation introduces a need for large scale electricity storage. The Concentration Gradient Flow Battery (CGFB) is an emerging technology which combines Electrodialysis with Reverse Electrodialysis into a flow battery which is able to safely store very large amounts of energy in environmental friendly NaCl solutions. In this work, (dis)charge efficiency, energy density and power density are both theoretically and experimentally investigated. Fifteen constant current experiments (−47.5 to +37.5 A m−2) are performed at 40 °C and two experiments (−32.5 and 15 A m−2) at 10 and 25 °C. The magnitudes of the three main energy dissipation sources (internal resistance, water transport and co-ion transport) are measured and mitigation strategies are proposed. The effect of current density, state of charge and temperature on the dissipation sources is analysed. Water transport is shown to cause hysteresis, lower (dis)charge efficiencies and lower energy capacity. At constant current and with increasing temperature, internal resistance is reduced but unwanted water transport is increased. This study reports charge efficiencies up to 58% and discharge efficiencies up to 72%. Full charge or discharge of the battery is shown inefficient. The optimal operating range is therefore introduced and identified (concentration difference Δm > 0.5 and energy efficiency η > 0.4).

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Bibliographic Details
Main Authors: van Egmond, W.J., Starke, U.K., Saakes, M., Buisman, C.J.N., Hamelers, H.V.M.
Format: Article/Letter to editor biblioteca
Language:English
Subjects:Aqueous electrolyte, Charge/discharge efficiency, Concentration gradient flow battery, Large scale electricity energy storage, Reverse electrodialysis, Stationary batteries,
Online Access:https://research.wur.nl/en/publications/energy-efficiency-of-a-concentration-gradient-flow-battery-at-ele
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