Dieser Fehler killt deinen LFP-Akku! Brandneue Erkenntnisse!

Tom Bötticher

25 Aug 202409:42

Summary

TLDRThis script discusses optimal battery care for electric vehicles and home storage systems, focusing on two common chemistries: Lithium-Nickel-Manganese-Cobalt-Oxide (NMC) and Lithium-Iron-Phosphate (LFP). It highlights a study from Jeff Dahn's lab that contradicts previous assumptions, showing LFP batteries degrade fastest when consistently charged between 75% to 100%. The summary advises to avoid high average charge levels for LFP batteries, suggesting charging to 100% occasionally for calibration but maintaining lower charge levels for longevity. It also promotes a learning platform, 'Battery Essentials,' for deeper understanding.

Takeaways

🔋 The longevity of batteries in electric vehicles (EVs) and home storage systems depends on the type of battery chemistry used, such as Lithium-Nickel-Manganese-Cobalt-Oxide (NMC) or Lithium-Iron-Phosphate (LFP).
📊 A recent study provides new insights into the aging process of LFP batteries and suggests ways to slow down their degradation, contrary to previous assumptions in science, automotive manufacturing, and among EV drivers.
🚗 NMC batteries are commonly used in most European EVs, especially in high-performance models, while LFP batteries are used in smaller electric vehicles, mid-range models, and PV home storage systems due to their lower cost.
🔌 For NMC batteries, it is advised not to charge them frequently above 80% to prevent rapid aging, as high voltages at full charge can lead to harmful side reactions that reduce capacity over time.
📚 The speaker recommends their 'Battery Essentials' learning platform for those interested in understanding the mechanisms behind battery aging and how batteries function.
🌡 For LFP batteries, it is recommended to occasionally charge them to 100% to allow the EV or home storage system to accurately gauge the battery charge level, despite the flat voltage curve over a large charging range.
📉 A new study from Jeff Dahn's renowned laboratory, which collaborates exclusively with Tesla, shows that LFP batteries degrade fastest when consistently operated between 75% and 100% charge.
⚠️ The study emphasizes that maintaining a high average charge level is detrimental to the lifespan of both NMC and LFP batteries, with the average charge level having a significant impact on aging.
🔄 The misconception that frequent charging and discharging is inherently bad for batteries is clarified; it's the stress on the battery from high charge/discharge cycles, deep discharges, and extreme temperatures that are harmful.
🛠️ Practical advice for LFP battery maintenance includes avoiding high temperatures and, if possible, operating the batteries at relatively low charge levels, such as keeping the car battery at around 50% when parked for a long time.
🚀 The study's findings are relevant for everyday use, helping EV owners decide at what charge level to leave their cars, especially when parked for extended periods or used for short daily commutes, and for optimizing the lifespan of large energy storage parks.