this post was submitted on 11 Nov 2024
6 points (87.5% liked)
UK Rail and Trains
234 readers
1 users here now
Talk about the UK rail network.
founded 1 year ago
MODERATORS
you are viewing a single comment's thread
view the rest of the comments
view the rest of the comments
I've not found stats on how hard it is to put on when compared. I'm sure it significantly more, but 100 seams way too much. Tank of fuel burns well. It's got more energy than the battery.
PS don't get me wrong. I am in no way opposed to EVs. I just know a fair bit about li batts having had to build my own for my boat.
My comment was a comparison between trained train engineers maintaining batts on a train.
And home mechanics trying to fix cars at home. The risk levels involved. Not the advantages of ice vs ev.
It is just very important for folks to know EV bats and modern lion batts are very different to the tech we know. And need electronic protection to prevent charging fires. But can start runaway reactions when damaged in a crash.
There is a lot of anti-EV FUD out there.
I work a bit with EVs and we are an all EV family. A colleague of mine built a house battery out of two crash hybrid batteries. I'm a big believer in right to repair (and open source). I don't think EV should be different. Car manufacturers are always looking for excuses to lock out independent repairs.
Agreed. It was a comparison of risk. Running trains maintained by professionals with these batteries is safer than allowing home repair.
It was not a suggestion that home repair should not happen. Just that the risks need to be understood. And trying to argue against Electric trains when we already have folks repairing their own cars is sorta dumb.
FUD exists. But there is also genuine danger in the batteries if charging protection is removed (or not fitted with homemade or some Chinese scooters etc). Or the batteries get punchered in an accident.
I don't think we are really disagreeing. I agree people have to take batteries seriously. Same with anything with a lot of energy in a small space.
Most fire extinguishing involves starving the fire of oxygen and or fuel.
Given the batteries have both able to self sustain.
Consider instead how you would actually put a fire out. How do you starve it.
Remember top gear. When Hammond crashed the ev supper car. Took 2 days to stop it burning.
If the batts catch most fire brigades clear rather then try to extinguish. They try to remove plastic and rubber that will turn into prisoners fumes rather then extinguish the self supporting fire.
So yeah 100x is a reasonable guess.
I'm not sure. 100x is a lot. I read about it generating it's own oxygen. Apparently it's about cooling rather than just starving it, because as you say, it has it's own oxygen. We'll get better at it and the risks is continue go down.
I think the tech will change. Li-ion the runaway effect is built into the chemistry.
Lifepo4 Dose not have this issue. And while it still needs electronics to manage charge and discharge like lion. It is about not damaging the cells. They do not ignite independent of another source like lion. So generally much safer.
For all the recent use of these lithium technologies, they are not actually a new invention. The concepts were invented in the 1800s. We just did not have the tech to make them efficient. It is materials tech over the last 20 years that has really enhanced this. And while we know there are limits to how much we can store. Lifepo4 theoretically can improve a little. Also,
lithium salt tech is well understood theoretically. Those theories mean it is able to be Much more dense (4x lion from what I remember) would not have the runaway effect. We just lack the materials tech to make it efficiently. But are able to make it in a lab.
So there is other options down the line. It's just that Lab to cost-effective factory manufacture is a big step. Takes people wanting to invest.
I think EVs should be built to have batteries replaced. Not because the batteries will wear out, but because they well be obsolete before the EV is.
fair point