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Novel redox flow battery paves way for low-cost storage - pv magazine Australia

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US researchers have facilitated the decoupling of power from energy design by incorporating a conducting carbon slurry in the negative electrolyte of an all-iron flow battery. In a new study, they describe the design considerations for slurry iron redox flow battery scalability.

From pv magazine Global

Redox flow batteries are one of the most attractive technologies for large-scale stationary storage applications due to their low capital cost, excellent safety, and environmental credentials. Their most unique feature is the independent scalability of energy and power. However, the latter is normally not possible in hybrid flow battery systems.

Now, researchers at Case Western Reserve University (CWRU) in Cleveland, Ohio, have come up with a concept for a slurry iron redox flow battery. It offers the potential for very low-cost, large-scale energy storage with safe and sustainable materials. By incorporating a conducting carbon slurry into the negative electrolyte of an all-iron flow battery, the researchers have ensured that the iron plating reaction occurs in such a way that makes the decoupling of power from energy possible for their hybrid flow battery system.

“Our iron slurry battery has advantages over the hybrid iron flow battery, where metal is plated into the electrochemical cell,” Nicholas Sinclair, research engineer at the CWRU Department of Chemical and Biomolecular Engineering, told pv magazine.

The slurry electrode allows for the plated metal to be directed into tanks for long-duration energy storage, Sinclair said. The hybrid system is limited in how much energy they can store by how much metal fits into the cell.

“In the slurry system, you can simply add more electrolyte and make the tanks bigger without changing the size of the electrochemical cell, which determines the power output,” Sinclair said.

The researchers described the scalability of the novel redox flow battery in “A perspective on the design and scale up of a novel redox flow battery” which was recently published in MRS Energy and Sustainability. They said that while the scaling of flow batteries is simple due to their modular nature, it becomes complicated when making large-scale increases in a single step. Nonetheless, their  proposed battery technology is now edging toward commercialisation.

“The battery technology was developed under an ARPA-E program for several years. During that project the technology matured to a point where commercial scale units are now being designed and tested by a company who licensed the technology from us,” said Sinclair. “We have follow-on funding for developing the technology further and expanding it to other battery chemistries as well.”

While the final price tag of the novel battery could change when it is commercialised, cost estimates calculated under the ARPA-E project stand at around USD 50/kWh ($78/kWh).

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