Toyota just got a $4.5 million boost from the US Department of Energy (DOE) to make EV batteries more sustainable.
The funding comes from ARPA-Eβs CIRCULAR program, which focuses on creating a sustainable, domestic supply chain for EV batteries.
The project, led by Toyota Research Institute of North America (TRINA), aims to tackle one of the EV industryβs biggest challenges: What do we do with old batteries?
Right now, disassembling battery packs and figuring out which parts can be reused or recycled is a slow, manual, and costly process. Toyota, teaming up with Oak Ridge National Laboratory (ORNL), the National Renewable Energy Laboratory (NREL), and Baker Hughesβ Waygate Technologies, is working to change that.
Building the battery recycling center of the future
The project will focus on resolving the primary bottlenecks in the battery supply chain cycle, which are automating battery pack disassembly, data-driven battery classification, and addressing cell degradation. Think of it as a high-tech recycling center where every part of a used battery is carefully evaluated.
This approach could extend the life of valuable battery materials, reducing waste and the need to mine new resources. The ultimate goal? A blueprint for what Toyota calls a β3R facility of the futureβ β a place to reduce, reuse, and recycle batteries on an industrial scale.
Nik Singh, principal scientist at TRINA and principal investigator on this project, says the project could reshape how the industry approaches battery recycling:
This project and program will highlight avenues for everyone to rethink their approach to battery circularity, and help prioritize the extension of battery life, facilitate battery reuse, and reduce battery waste.
Tech innovations to close the loop
The teamβs plan includes:
- Automated battery pack disassembly to speed up the recycling process.
- Advanced diagnostic tools to assess the condition of battery cells and modules.
- Refabrication methods to turn old cells into new energy systems.
The payoff? Batteries that are reused and refurbished first β recycling becomes the last resort.
Marm Dixit, leading ORNLβs contributions, points out the environmental benefits. βBy extending the life of the battery components, we reduce their total emissions per mile. Thatβs a big deal for the role EVs can play in the energy transition,β Dixit said.
NRELβs role will involve cutting-edge tech like machine learning and imaging using nano computed tomography to analyze the health and lifespan of batteries quickly. Baker Hughesβ Waygate Technologies will bring its expertise in non-destructive testing with advanced imaging systems.
Toyotaβs Battery Lifecycle Solutions (BLS) team plans to take these innovations from the lab to real-world applications. βBy applying the innovations established from this project, we aim to create a framework that not only reduces battery waste but also enhances the circularity of our battery supply chain,β said Sarah Kennedy, BLS manager, who is leading the technology to market deployment.
Read more: EV batteries may last up to 40% longer than expected β Stanford
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