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Tuesday, November 5, 2024

Machine learning aids prediction & prevention of EV battery fires

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Desiree Reed-Francois Vice President and Director of Athletics | Arizona Wildcats Website

Desiree Reed-Francois Vice President and Director of Athletics | Arizona Wildcats Website

One of the most critical safety concerns for electric vehicles is keeping their batteries cool, as temperature spikes can lead to dangerous consequences.

New research led by a University of Arizona doctoral student proposes a way to predict and prevent temperature spikes in the lithium-ion batteries commonly used to power such vehicles.

The paper "Advancing Battery Safety," led by College of Engineering doctoral student Basab Goswami, is published in the Journal of Power Sources.

With the support of $599,808 from the Department of Defense's Defense Established Program to Stimulate Competitive Research, Goswami and his adviser, aerospace and mechanical engineering professor and project principal investigator Vitaliy Yurkiv, developed a framework that uses multiphysics and machine learning models to sense, predict and identify lithium-ion battery overheating, known as thermal runaway.

In the future, this framework could be integrated into an electric vehicle's battery management system to stop a battery from overheating, thereby protecting drivers and passengers, Goswami said.

"We need to move to green energy," Goswami said. "But there are safety concerns associated with lithium-ion batteries."

Thermal runaway can be extremely dangerous and difficult to predict.

"The temperature in a battery will escalate in an exponential manner and it will cause fire," Goswami said.

An electric vehicle battery pack is comprised of closely connected battery cells. Today's electric vehicles can have more than 1,000 cells in each battery pack.

If thermal runaway occurs in one cell, nearby cells are highly likely to heat too, creating a domino effect. If that happens, the entire battery pack of the electric vehicle could explode, Goswami said.

To prevent this, the researchers propose using thermal sensors wrapped around battery cells that feed historical temperature data into a machine learning algorithm to predict future temperatures. The algorithm predicts when and where a runaway event is likely to start.

"If we know the location of the hotspot (the beginning of thermal runaway), we can have some solutions to stop the battery before it reaches that critical stage," Goswami said.

Yurkiv said he was impressed by the accuracy of Goswami's algorithm. Prior to his research, machine learning models had not been used to predict thermal runaway.

"We didn't expect that machine learning would be so superior at predicting thermocouple temperature and location of hotspots so precisely," Yurkiv said. "No human would ever be able to do that."

The research builds on a paper Goswami and Yurkiv published in January investigating the use of thermal imaging to predict runaway events which would require heavy imaging equipment constantly taking photos for review.

The solution identified in their latest paper is lighter and more cost-effective.

Goswami's research was published at an important point in American car manufacturing history. In July 2024, when the paper was published, the Biden administration announced a $1.7 billion investment in electric vehicle manufacturing across eight states. In 2023 global electric vehicle sales increased 35% from 2022.

As demand rises safety measures are essential for the electric vehicle movement Goswami said

"Many people are still hesitant to embrace batteries due to various safety concerns," he said. "To gain widespread acceptance it's crucial for the public to know that ongoing research is actively addressing these critical safety issues."

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