With global lithium reserves predicted to be exhausted in less than 20 years, Aqualithium, in partnership with the Department of Chemical Engineering at the University of Bath, has succeeded in extracting lithium from seawater in a laboratory environment.
Demand for lithium is rising as the world moves from fossil fuel-powered vehicles and energy to battery-powered technology. However, reserves are limited and current extraction methods are environmentally damaging.
The team at the University of Bath is led by Professor Semali Perera, a leading expert in the field of adsorption and membrane filtration, whose breakthrough is the first time lithium has been extracted in such a way using new sustainable, disruptive technology. This method of harvesting lithium from seawater is scalable and so a potentially commercially viable method of extraction unlike any other previous process.
Land-based reserves of lithium are estimated to be just 14 million tonnes whereas ocean-based reserves of the soft, silvery white alkali metal are believed to be 230 billion tonnes.
Net zero carbon reduction targets are pushing the rapid transition from petrol and diesel fuelled vehicles to electric ones and the annual global demand for lithium is predicted to be one million tonnes by 2026. Aqualithium is now applying for a major Government grant to enable it to continue its research and progress toward the goal of finding a commercially viable and sustainable means of extracting lithium from seawater using its innovative process which is environmentally friendly.
Aqualithium founder Tom Black said: “This is a major milestone for Aqualithium on our journey to find a new and sustainable source of lithium. The real value in having a partnership between business and academia is the advantage it gives us in commercialising our process.”
Prof Perera added: “Adsorption and membrane technology combination is very effective in recovering lithium, which is critical to battery technology – but land-based stocks are limited. The key challenge we face is in recovering it in large quantities, so we are very excited to work with Aqualithium.”