Growing demand for electric vehicles is important to help cut transport emissions, but it will also lead to new mining. Without a careful approach, we could create new environmental damage while trying to solve an environmental problem.
Like solar panels, wind turbines and battery storage technologies, electric vehicles require a complex mix of metals, many of which have only been previously mined in small amounts.
These include cobalt, nickel and lithium for batteries used for electric vehicles and storage; rare earth metals for permanent magnets in electric vehicles and some wind turbines; and silver for solar panels.
Our new research at the Institute of Sustainable Futures found that under a 100% renewable energy scenario, demand for metals for electric vehicles and renewable energy technologies could exceed reserves for cobalt, lithium and nickel.
To ensure the transition to renewables does not increase the already significant environmental and human impacts of mining, greater rates of recycling and responsible sourcing are essential.
Recycling can offset demand for new mining
Electric vehicles are only a very small share of the global vehicle market, but their uptake is expected to accelerate rapidly as costs reduce. This global shift is the main driver of demand for lithium, cobalt and rare earths, which all have a big effect on the environment.
Although electric vehicles clearly help us by reducing transport emissions, the electric vehicle and battery industries face the urgent challenge of improving the environmental effects of their supply chains.
Our research shows recycling metals can significantly reduce primary demand for electric vehicle batteries. If 90% of cobalt from electric vehicle and energy storage batteries was recycled, for instance, the cumulative demand for cobalt would reduce by half by 2050.
So what happens to the supply when recycling can’t fully meet the demand? New mining is inevitable, particularly in the short term.
In fact, we are already seeing new mines linked to the increasing demand for renewable technologies.
Clean energy is not so clean
Without responsible management, greater clean energy uptake has the potential to create new environmental and social problems. Heavy metals, for instance, could contaminate water and agricultural soils, leading to health issues for surrounding communities and workers.
Rare earths processing requires large amounts of harmful chemicals and produces large volumes of solid waste, gas and wastewater, which have contaminated villages in China.
Copper mining has led to pollution of large areas through tailings dam failures, including in the US and Canada. A tailings dam is typically an earth-filled embankment dam used to store mining byproducts.
When supply cannot be met by recycling, we argue companies should responsibly source these metals through verified certification schemes, such as the IRMA Standard for Responsible Mining.
What would a sustainable electric vehicle system look like?
A sustainable renewable energy and transport system would focus on improving practices for recycling and responsible sourcing.
Many electric vehicle and battery manufacturers have been proactively establishing recycling initiatives and investigating new options, such as reusing electric vehicle batteries as energy storage once they are no longer efficient enough for vehicles.
But there is still potential to improve recycling rates. Not all types of metals are currently being recovered in the recycling process. For example, often only higher value cobalt and nickel are recovered, whereas lithium and manganese are not.
And while electric vehicle manufacturers are beginning to engage in responsible sourcing, many are concerned about the ability to secure enough supply from responsibly sourced mines.
If the auto industry makes public commitments to responsible sourcing, it will have a flow-on effect. More mines would be encouraged to engage with responsible practices and certification schemes.
These responsible sourcing practices need to ensure they do not lead to unintended negative consequences, such as increasing poverty, by avoiding sourcing from countries with poorer governance.
Focusing on supporting responsible operations in these countries will have a better long-term impact than avoiding those nations altogether.
This could help to close the loop on battery materials and create more employment within the sector.
Human rights must not be sidelined
The renewable energy transition will only be sustainable if human rights are made a top priority in the communities where mining takes place and along the supply chain.
The makers of electric cars have the opportunity to lead these industries, driving change up the supply chain, and influence their suppliers to adopt responsible practices.
Governments and industry must also urgently invest in recycling and reuse schemes to ensure the valuable metals used in these technologies are recovered, so only what is necessary is mined.
Elsa Dominish receives research funding from various government and non-government organisations. In 2018-19 this includes the federal and NSW governments, the European Climate Foundation, Stewart Investors and Greenpeace Foundation. The research for this article was commissioned and funded by Earthworks.
Nick Florin receives funding from various government and non-government organisations. Recently this has included NSW, QLD and ACT governments, the Australian Battery Recycling Initiative (ABRI), and the Australian Packaging Covenant Organisation (APCO).
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