Australia Eyeing Mammoth 1.6 Million Tonnes of EV Battery Waste by 2050

Australia Eyeing Mammoth 1.6 Million Tonnes of EV Battery Waste by 2050
An EV charging car space in Calamvale of Brisbane, Australia, on Jan. 29, 2023. (Daniel Teng/The Epoch Times)
Daniel Y. Teng
6/1/2023
Updated:
6/6/2023

Australians will need to find a way to dispose of 1.6 million tonnes of used electric vehicle (EV) batteries by 2050 as part of the nation’s goal of net-zero.

The Battery Stewardship Council, along with its research partners, estimates that based on current trends, the volume of EV waste will expand exponentially to 30,000 tonnes by 2030 before accelerating toward the 1.6 million mark.

The Council, along with the Federal Chamber of Automotive Industries and the Motor Trades Association of Australia, are calling for a stewardship program to be established, where the consumer pays extra to foot the bill for safely disposing of EV batteries.

“Investment in EV battery stewardship and recycling infrastructure is immediately needed for the industry to avoid costly solutions in the future and miss out on the financial opportunities offered by the recycling of used batteries,” said Libby Chaplin, CEO of the Council.

“The EV industry is facing a golden opportunity to take the lead in designing a scheme that is cost-effective, fit for purpose, and avoids the mistakes and costly fall-out of inaction as seen recently by the solar panel industry by prioritising the discussion of end-of-life processes today.”

The body says it has established a program for smaller batteries and needs assistance in creating the infrastructure to handle EV batteries.

A technician manipulates an apparatus with which Nickel and lithium are separated in a laboratory after being collected from recycled electric car batteries, at the Eramet mining group headquarters, in the Paris suburb of Trappes, on March 16, 2023. (Photo by Emmanuel Dunand/AFP via Getty Images)
A technician manipulates an apparatus with which Nickel and lithium are separated in a laboratory after being collected from recycled electric car batteries, at the Eramet mining group headquarters, in the Paris suburb of Trappes, on March 16, 2023. (Photo by Emmanuel Dunand/AFP via Getty Images)

The Challenge of Net-Zero

The Council is grappling with a problem that is also challenging the wind turbine and solar panel industries—how to dispose of the tonnes of waste that will result from years of “going green” and net-zero.

Batteries, wind turbines, and solar panels are, by nature of their design, difficult and costly to recycle.

For example, according to some estimates, only 30 percent of a wind turbine blade is actually recycled, with the rest disposed of in landfills.

Last year, the University of South Australia said the country could be left to deal with “tens of thousands” of blades by 2030—most wind turbines have a lifespan of around 20 to 25 years before the structural integrity starts to weaken.

The reflection of a worker is seen at the production line of lithium-ion batteries for electric vehicles (EV) at a factory in Huzhou, Zhejiang Province, China, on Aug. 28, 2018. (Stringer/Reuters)
The reflection of a worker is seen at the production line of lithium-ion batteries for electric vehicles (EV) at a factory in Huzhou, Zhejiang Province, China, on Aug. 28, 2018. (Stringer/Reuters)
Despite these difficulties, wind turbine blades are only getting larger.

Meanwhile, solar panels also have a low level of recycling, with the CSIRO estimating around two percent of panel waste is actually reused.

Take-up of solar panels in Australia has been extensive with over 30 percent of homes having a rooftop solar PV system, and like EV batteries, the disposal process can be challenging and too costly for businesses to do profitably.

EV batteries, for example, cannot be thrown into landfills. Due to their chemical makeup, lithium batteries can catch fire and smoulder for years releasing toxic fumes.

The China Question

On top of the waste disposal conundrum, the purchase and import of renewable energy technology will likely bolster Australia’s trading relations with China.

Currently, China is the world’s largest producer of solar panels and EV batteries, while some of the largest wind turbine producers are Chinese companies.

This supply chain issue raises questions over Chinese human rights abuses with the persecuted Uyghur minority found to be involved in forced labour production of raw materials for solar panels.
Sheffield Hallam University in the United Kingdom found that Xinjiang Province in China’s west was responsible for producing 45 percent of the world’s polysilicon—95 percent of solar modules need this material.

These are the considerations facing the Australian Labor government, who like their counterparts in the developed world, continue pushing to revolutionise the country’s energy grid in a bid to reach net zero by 2050.

The federal government has set an ambitious mid-term target of reducing current emissions by 43 percent by 2030, despite the country relying on coal-fired generation for over 64 percent of its needs.