With a degradation rate of just 1.8% per year, the vast majority of EV batteries will outlast the usable life of the vehicle. Geotab, a global market leader in connected transportation solutions, has released new data that indicates how electric vehicle (EV) batteries will now last 20 years or more. 

The company analysed the battery health of almost 5,000 fleet and private EVs, representing nearly 1.5 million days of telematics data, to explore how the latest battery technology holds up to the rigours of daily use. The data highlighted how batteries degrade, on average, by 1.8% per year – compared to 2.3% when Geotab last performed a wholesale analysis of EV battery health in 2019, and generally more slowly than internal combustion engine (ICE) drivetrain components.

“With these higher levels of sustained health, batteries in the latest EV models will comfortably outlast the usable life of the vehicle and will likely never need to be replaced,” said David Savage, Vice President for the UK and Ireland at Geotab.

“However, we still see battery reliability being used as a stick to beat EVs with. Hopefully, data like ours can finally put these myths to bed. The fact is that a 1.8% decline in battery health is unlikely to have a significant impact on most driver’s daily vehicle needs, and this number will only come down further with new EV models and improved battery technology. People should feel confident that many current EVs are suitable and cost-effective to replace a range of light, medium and heavy-duty ICE vehicles.”

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A Geotab report from earlier this year found that two-thirds of vehicles (cars and vans) operated by private and public sector organisations in the UK are ready to go electric. The ‘Taking Charge: On the Road to an EV Future’ report analysed driver data from 1.3 million vehicles across seven countries over 12 months, and also suggested that fleets could save an average of £13,279 per vehicle over seven years when replacing ICE vehicles with EVs.

Battery degradation explained 

Battery degradation is a natural process that permanently reduces the amount of energy a battery can store or the amount of power it can deliver. The batteries in EVs can generally deliver more power than the powertrain components can handle. As a result, power degradation is rarely observable in EVs and only the loss of the battery’s ability to store energy matters. An EV battery’s condition is called its state of health (SOH). Batteries start their life with 100% SOH and over time they deteriorate. For example, a 60 kWh battery with 90% SOH would effectively act like a 54 kWh battery.

The best-performing EV models in the updated Geotab analysis posted a battery degradation rate of just 1.0%. Potential contributors to why some vehicle models, on average, degrade faster than others are battery chemistry and thermal management of the battery pack. While current EVs mostly use lithium-ion batteries, there are many different variations of lithium-ion chemistries and this will influence how it responds to stress. In addition to cell chemistry, temperature control techniques differ across vehicle models. A major distinction is whether the battery pack is cooled and/or heated by air or liquid.

One potentially surprising insight from the Geotab research is that high-use electric vehicles did not show significantly higher battery degradation than others. This should be welcome news to fleet operators in particular since EVs offer better value the more they are driven.

Pay attention to EV battery data

Accurate state-of-health information, made possible by comprehensive telematics data, is key to helping people make the best use of electric vehicles. Telematics data insights, which can be found in Geotab’s EV Battery Health report, allows fleets to know the real battery capacity of their EVs, understand the rate of degradation and get the most value throughout their life-cycle.

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