We look at carbon emissions of electric, hybrid, and combustion engine vehicles through an analysis of their life cycle emissions.
We look at carbon emissions of electric, hybrid, and combustion engine vehicles through an analysis of their life cycle emissions.
@SmolderingSauna Sorry, I’m coming from a PhD in chemistry, and that’s BS. There is more than one process to recycle the the metals in batteries, and they’re all >98% recovery. Atoms are atoms. They’re not alchemically trasmuted into other elements.
The reason that they’re being used is because they’re still good. When they’re no longer good, they can be recycled. It’s just going to take another decade before we have a substantial need for recycling them. That’s not a bad thing.
@Tigbitties
@Nessussus that’s great insight. I recall reading a paper about using magnetic fields to enhance performance of some EV battery cells.
https://www.sciencedirect.com/science/article/abs/pii/S2211285521009538
There is so much research into new, innovative ways, to build a better battery and increase performance. I have no doubt that the total carbon footprint of EVs will continue to decrease. Smaller batteries, lighter weight, increased range, faster charging. All good things.
Can you recommend any relevant papers about EV battery recycling? I’d be interested to learn more about that process.