Bacteria – yes, bacteria – could be the key to recycling EV batteries
Here’s what you need to know about ‘bioleaching’
The recycling economy
The largest lithium-ion battery recyclers arebased in China. While recycling is often treated as an obligation that companies should be paid to do in North America and Europe, competition is so intense for dead batteries in China that recyclers are willing to pay to get their hands on them.
Most ofthe batteries that do get recycled are melted and their metals extracted. This is often done in large commercial facilities which use lots of energy and so emit lots of carbon. These plants are expensive to build and operate, and require sophisticated equipment to treat the harmful emissions generated by the smelting process. Despite the high costs, these plants rarely recover all valuable battery materials.
The value of the global market for metal recycling is expected to grow from US$52 billion (£37 billion) in 2020 toUS$76 billion by 2025. Without less energy-intensive recycling methods, this emerging industry will only exacerbate environmental problems. But there is a natural process for extracting precious metals from waste that’s been used for decades.
Bugs for batteries
Bioleaching, also called biomining, employs microbes which can oxidise metal as part of their metabolism. It has been widely used in the mining industry, where microorganisms are used to extract valuable metals from ores. More recently, this technique has beenused toclean up and recover materials from electronic waste, particularly the printedcircuit boardsof computers, solar panels,contaminated waterand evenuranium dumps.
My colleagues and I in the Bioleaching Research Group at Coventry University have found that all metals present in EV batteries can be recovered using bioleaching. Bacteria likeAcidithiobacillus ferrooxidansand other non-toxic species target and recover the metals individually without the need for high temperatures or toxic chemicals. These purified metals constitute chemical elements, and so can be recycled indefinitely into multiple supply chains.
Scaling up bioleaching involves growing bacteria in incubators at 37°C, often using carbon dioxide. Not a lot of energy is needed, so the process has a much smaller carbon footprint than typical recycling plants, while also contributing less pollution. While reducing EV battery waste, bioleaching facilities mean manufacturers can recover these precious metals locally, and rely less on the few producer countries.
Academics working on bioleaching to stop once they’ve removed all the precious metals from the electronic waste and they’re floating in solution. This is not enough for industry. We combine bioleaching with electro-chemical methods that can fish out these metals and make them useful for supply chains. Unfortunately, existing methods in metal recycling which involve lots of energy and toxic chemicals have been used for decades. Industries can’t always afford to innovate, so it’s up to the government to mandate changes and invest in cleaner alternatives.
EV batteries are a technology still in their infancy. The reuse of their components should be considered as part of their design. Rather than remaining an afterthought, recycling can become both the beginning and end of an EV battery’s life cycle with bioleaching, producing high-quality raw materials for new batteries at low environmental cost.
Most ofthe batteries that do get recycled are melted and their metals extracted. This is often done in large commercial facilities which use lots of energy and so emit lots of carbon. These plants are expensive to build and operate, and require sophisticated equip
This article bySebastien Farnaud, Professorof Bio-innovation and Enterprise,Coventry University,is republished fromThe Conversationunder a Creative Commons license. Read theoriginal article.
Story byThe Conversation
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