Materials availability and supply chain considerations for vanadium in grid-scale redox flow batteries

Redox flow batteries (RFBs) are a promising electrochemical storage solution for power sector decarbonization, particularly emerging long-duration needs. While the battery architecture can host many different redox chemistries, the vanadium RFB (VRFB) represents the current state-of-the-art due to its favorable combination of performance and longevity. However, the relatively high and volatile price of vanadium has hindered VRFB financing and deployment opportunities. Here we evaluate the vanadium supply chain to understand how it enables or constrains VRFB advancement and assess opportunities for accelerated growth. We find that - while vanadium may not be scarce - its abundance is confounded by highly concentrated production coupled with the disperse nature of sources suitable for potential supply increase. These factors challenge rapid growth, limiting deployment rate and magnitude. We estimate gigawatt-hour deployment scales are feasible over the next decade, which would represent marked expansion of the RFB industry and drive down system costs substantially, though this would require growth rates to vanadium production above historical averages. Accordingly, we review opportunities to accelerate supply chain growth and economic strategies to stabilize the market. Finally, we posit terawatt-hour deployment scales will be challenged by vanadium market conditions and resource availability, motivating the continued efforts developing next-generation RFB chemistries.

Automated summary

Redox flow batteries (RFBs), particularly vanadium RFBs (VRFBs), are a promising solution for decarbonization in the power sector. However, the high and volatile price of vanadium hinders VRFB financing and deployment opportunities. This study evaluates the vanadium supply chain and identifies challenges to rapid growth. Accelerated growth is possible with increased vanadium production rates, but terawatt-hour deployment may be challenged by market conditions and resource availability, motivating the development of next-generation RFB chemistries.