Agreed, but the issue is not qty. But the way they burn.
EVs use lithium-ion tech. These batteries haver the ability to self ignite and also self-support. IE, the chemistry of the battery provides fuel and oxygen independent of the environment. Making it pretty close to impossible to smother and put out the fires.
Lifepo4 is safer as it is not self-supporting and can be extinguished like any other fire. This is why modern boats use them. Where fire can be impossible to escape. But it is less compact in the amount of power per weight. So with smaller cars less desirable.
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.
EV car fires are much less likely than ICE car fires. https://www.theguardian.com/business/2023/nov/20/do-electric-cars-pose-a-greater-fire-risk-than-petrol-or-diesel-vehicles
Agreed, but the issue is not qty. But the way they burn.
EVs use lithium-ion tech. These batteries haver the ability to self ignite and also self-support. IE, the chemistry of the battery provides fuel and oxygen independent of the environment. Making it pretty close to impossible to smother and put out the fires.
Lifepo4 is safer as it is not self-supporting and can be extinguished like any other fire. This is why modern boats use them. Where fire can be impossible to escape. But it is less compact in the amount of power per weight. So with smaller cars less desirable.
If the fires are four times as bad, but twenty times less likely, still a win. 😃
try 100 times.
The fires cannot be put out. They burn for days.
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.