- cross-posted to:
- futurology@futurology.today
- cross-posted to:
- futurology@futurology.today
Honda says making cheap electric vehicles is too hard, ends deal with GM::The platform was to use GM’s Ultium batteries.
Honda says making cheap electric vehicles is too hard, ends deal with GM::The platform was to use GM’s Ultium batteries.
What?
Show me a battery that goes 200k - 300k.
Just because the average consumer is an idiot and replaces cars long before then doesn’t mean the vehicles can’t go that far.
Every car my family has owned for the last 30 years has gone at least 200k, some 300k+. My current 2005 vehicle is at 270k, and I expect many more years from it, barring an accident. Our newest vehicle is from 2016, and is approaching 100k. An electric vehicle would be needing a battery soon, while all mine needs is an oil change, and perhaps a timing belt for $50 (to be fair, I’ll probably spend $250 and replace the water pump, idlers, and primary belt while I’m there. Last time was 100k miles ago).
I can keep you updated on my own EV ownership if you’d like. I bought a '22 Chevy Bolt brand new for $27k a hair over 12 months ago and so far it’s got 51,000 miles on the odometer and the battery has lost only 10 miles of range compared to the 240 it came with, which is such a small loss it might actually be due to the wind or temps on my test since I do my range tests on the freeway during road trips. Despite driving on average more than 137 miles every single day in this EV during the summer, rain, winter, and multiple snow storms (yay Midwest -_-), the battery seems to be holding up pretty well. My plan is to drive the car for at least 5 years before considering a replacement, at which point I should have between 230-270k on the odometer. The only maintenance items on the car are tires every 50-60k, new coolant in the coolant loops every 150k, brakes every 100k or whenever they wear out (which varies wildly based on how an EV is driven), and wipers + wiper fluid as needed.
My goal here isn’t to put you on blast or call you a liar because skepticism is fair. I’m just sharing my own experience so far with a car that runs on EV tech last updated in 2015. I was pretty worried the “abuse” I’d be putting it through with my driving would cause it to have problems or perform worse than it should, but so far it’s doing great and the battery isn’t any worse for wear than other Bolts who have published their numbers online.
Personally I’m really looking forward to finding out how well the 2022+ Tesla Model 3s do with the new LFP battery because supposedly they’ll be a big improvement over the NCM batteries they have been using (which my car also uses) when it comes to longevity and being left alone for really long periods of time (months, years).
The next Chevy bolt will also have LFP batteries, so they should have similar performance. I think the benefits of LFP outweigh the NCM and that they have a higher life expectancy, can charge to a higher rate with less degradation, although they don’t like really cold weather.
And if Chevy actually gives drivers the option to manually precondition the battery, your last point would be much less of a negative.
My M3 with LFP battery had almost no range loss in its first winter last year, although last year was milder than normal in the NE USA
EV batteries are lasting longer than expected.
Also, when accounting for maintenance over, EV’s can be cheaper over time even with a battery replacement. They don’t need oil, engine coolest, or transmission fluid. There’s a whole life support system for ICE cars that EVs just don’t have, and what replaces it tends to last indefinitely if there are no manufacturing defects or have an abusive owner. Brake maintenance is also reduced; they need the fluid changed, but regen braking tends to reduce the need to replace pads. Manufactures were already seeing pads and rotors on hybrids last nearly the life of the vehicle.
It all adds up, and while the $10k battery cost years down the line scares people as one big number, it often ends up being less than what you would have spent on maintenance over the same time period.
Finally, the batteries may not be worthless at the end of that time. Putting them in houses for backup power is often still feasible. You’re just not getting the same range out of them anymore.
Aside from the Leaf, which does not have any sort of battery temperature management, I wouldn’t expect an EV to need a battery so soon.
Teslas can easily make it to 200k miles at while retaining >80% of peak capacity, according to .
Most of the other brands don’t have enough vehicles approaching that milestone that I could find data on.
Yeah, I don’t know why you think this, but there are plenty of EV taxis out there with 200k miles on them.
And they don’t need oil changes, timing belts, spark plugs, idlers, water pumps or primary belts. And their brakes last easily twice as long thanks to regenerative braking.
So, after about 300k miles, you recycle your battery pack and get a 3rd party one installed for $5k-$10k and go for another 200k miles.
My 2008 Prius has ticked over 200k with the original battery pack. Sure it’s only a hybrid instead of a full on EV, but it’s going strong.
My longest lived ICE car was my Delta 88. 261k before the second shitty GM transmission gave out. The first one died at 180k and was slippy from 120k.
EVs in the US generally come with an 8 year/100k mile battery warranty.
That being said, most of the failed batteries are with early gen Nissan Leafs.
Battery degradation is by and large a non-issue, and newer battery chemistries will easily allow 1 million miles with ~70% battery health.