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Existing EV batteries may last significantly longer under real-world conditions
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Existing EV batteries may last significantly longer under real-world conditions
by Clarence Oxford
Los Angeles CA (SPX) Dec 13, 2024

Electric vehicle (EV) batteries subjected to typical real-world driving scenarios-such as heavy traffic, urban commutes, and long highway trips-could last up to 40% longer than previously projected, according to new research from the SLAC-Stanford Battery Center, a collaboration between Stanford University's Precourt Institute for Energy and SLAC National Accelerator Laboratory. This finding suggests EV owners may delay the costly replacement of battery packs or the purchase of new vehicles for several more years than expected.

Traditionally, battery scientists have tested EV batteries in labs using a constant charge-discharge cycle. While effective for quick evaluations of new designs, this method does not accurately reflect the varied usage patterns of everyday drivers, the study published in *Nature Energy* on Dec. 9 reveals.

Although battery costs have fallen by approximately 90% over the past 15 years, they still represent about one-third of an EV's price. This research could provide reassurance to current and prospective EV owners about the longevity of their vehicle's batteries.

"We've not been testing EV batteries the right way," said Simona Onori, the study's senior author and an associate professor at Stanford's Doerr School of Sustainability. "To our surprise, real driving with frequent acceleration, braking, stopping for errands, and extended rest periods helps batteries last longer than previously thought based on industry-standard tests."

Real-World Driving Profiles Improve Battery Lifespan

The researchers developed four distinct EV discharge profiles, ranging from constant discharge to dynamic patterns based on actual driving data. Testing 92 commercial lithium-ion batteries over two years, they found that batteries subjected to realistic driving scenarios demonstrated significantly improved longevity.

Machine learning algorithms were crucial in analyzing the extensive data, revealing that certain driving behaviors, like sharp accelerations, slowed battery degradation. This contradicted prior assumptions that acceleration peaks harm EV batteries. "Pressing the pedal hard does not speed up aging. If anything, it slows it down," explained Alexis Geslin, one of the study's lead authors and a PhD candidate in materials science and computer science at Stanford.

Aging from Use vs. Time

The study differentiated between battery aging caused by charge-discharge cycles and aging from time alone. While frequent cycling dominates battery aging for commercial vehicles like buses or delivery vans, time-induced aging becomes a larger factor for personal EVs, which are often parked and idle.

"We battery engineers have assumed that cycle aging is much more important than time-induced aging," said Geslin. "For consumers using their EVs for daily errands but leaving them unused most of the time, time becomes the predominant aging factor."

The researchers identified an optimal discharge rate balancing both time and cycle aging for the batteries tested, which aligns with typical consumer driving habits. Manufacturers could update battery management software to incorporate these findings, potentially extending battery lifespan under normal conditions.

Implications for the Future

Evaluating new battery chemistries and designs under realistic conditions is critical for future advancements, said Le Xu, a postdoctoral scholar in energy science and engineering. "Researchers can now revisit presumed aging mechanisms at the chemistry, materials, and cell levels to deepen their understanding," Xu added.

The study's principles could apply beyond EV batteries to other energy storage systems, plastics, solar cells, and biomaterials where aging is a key concern. "This work highlights the power of integrating multiple areas of expertise-from materials science and modeling to machine learning-to drive innovation," Onori concluded.

Research Report:Dynamic cycling enhances battery lifetime

Related Links
SLAC-Stanford Battery
Powering The World in the 21st Century at Energy-Daily.com

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