Vanadium: A Key Driver in Energy StorageBy Richard Spencer, President & CEO, U3O8 Corp.Cost:
The up-front cost of a VRB is higher than a pack of lithium-ion batteries of equivalent power storage capacity, but taking into account the battery’s lifespan, VRBs are more capital- efficient. VRBs can also be scaled up to almost any size, a feature that gives them enormous flexibility. The largest battery in the world, under construction in Dalian, China, is a 200 mega- watt / 800 megawatt-hour unit that could power 100,000 western homes for a night. The Dalian battery is a VRB.
VRBs are poised to play a crucial role in the electrification of transport: not so much in the car industry as the batteries are too big, but they should start to come into their niche in the trucking industry. An opportunity that dwarfs the trucking industry is shipping. Shipping is the biggest polluter in the transport industry – and sails quietly under the radar, to the point that maritime shipping was conspicuously absent from the Paris Climate Accord. Ships burn bunker oil and the 15 biggest ships spew more sulphur into the air than the world’s entire fleet of cars and trucks. There are over 50,000 ships plying the seas, so, if we’re serious about reducing greenhouse gas emissions, maritime transport must be tackled.
Norway is leading the charge in the electrification of its fleet of ferries and is finding that operating costs have fallen 80% because the electric motors need so little attention. Carbon dioxide emissions have fallen 95% on its electric ferries. More importantly, China is working on electrification – it launched a 230-foot all-electric cargo ship last year to probe its cost-effectiveness.
Electrification of ships could centre on massive VRBs that could form part of the ballast. Charging time could be reduced by pumping the spent liquid out of the battery tanks to be replaced by charged fluid, or the tanks could be charged in situ. To go a step further, Russia has just launched the world’s first ship-mounted nuclear reactor – technology that could be the future mid-ocean charging stations for electric shipping.
Vanadium prices have rallied strongly from a low of $3.50 per pound in late 2015 to $33 per pound in November 2018. Though demand is growing, supply is limited. Most of the world’s vanadium is produced as a by-product of iron mining – and this massive industry won’t easily be able to increase vanadium production as a result of the increased vanadium demand. There are only a few pureplay vanadium producers, with the majority of the world’s vanadium coming from China, Russia, South Africa and Brazil.
However, another means of producing this vital metal is in uranium deposits, as there is a ripe vanadium resource in some deposits. The two metals occur in the same mineral in these deposits, so in producing uranium, the vanadium is taken into solution and represents a potential by- or co-product. With the uranium market showing signs of having bottomed, there is likely to be increased vanadium production from these deposits. The companies that have these uranium-vanadium deposits fall squarely in the clean energy space with emission-free power coming from uranium in nuclear reactors, as well as vanadium having such an exciting niche in the energy storage industry.