RECYCLING AND REPURPOSING OF EV BATTERIES
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Abstract
It is a fact that electric vehicles (EVs) are beneficial for climate protection. However, the current challenge is to decide
on whether to reuse an EV battery or to recycle it after its first use. This paper theoretically investigates these areas i.e., recycle
and reuse. It was found that there are several commercially used recycling processes and also some are under research to regain
maximum possible materials and quantity. The concept of reusing (second life) of the battery is promising because, at the end of
the first life, batteries from EVs can be used in several applications such as storing energy generated from renewable sources to
support the government grid.We built a system dynamics model to capture the decision factors for repurposing or recycling end
of-life EV batteries. Our findings reveal that the EV battery regulation is effective when it comes to building the required
recycling capacities. Our simulations highlight that the current recycling capacities are insufficient to meet the growing demand,
thereby highlighting the need for investors to expand the current facilities. On the other hand, the EV battery regulation, which
promotes recycling with mandatory recycling shares, leads to a considerable dropping of shares in the emerging repurposing
market. Our study concludes that, to achieve a circular economy for EV batteries, balanced support for recycling and
repurposing is needed. We call for a complementary policy framework that ensures that repurposing is an integral part of the
closed-loop system.