Note: this fire was actually last year when there was a spate of EV fires, but was not reported publicly until today.
The big takeaway from these fires is that proper safety for EVs might soon mean not leaving them in garages, especially those attached/part of residential structures. Expect insurance companies to adjust home insurance policies accordingly to account for EV fire risks.
It's possible to put the fire out by cooling the battery below ignition temperature, and depriving the fire of atmospheric oxygen certainly reduces the combustion rate, but the result for firefighters is that an enormous amount of water is required.
Typical petroleum fires (gasoline, diesel) can be smothered with foam to put them out. No amount of heat will ignite these fuels without oxygen.
Smother a self-oxidizing fire does not extinguish the fire. To remove heat, firefighters spray cold water on the fire, which is incompatible with smothering it (the water and steam push foam away), so the fire has atmospheric oxygen as well as oxidant from the fuel. Dropping the car into a tank of water accomplishes both - the water tank is a heat sink, cooling the car, and it also smothers the fire and removes atmospheric oxygen.
Having to run a charging cable to your car parked away from the house/garage seems like a non-starter especially in areas of the country where it snows.
I don't park on the street. I have a (long) driveway and parking area with garage. If my car isn't in the garage when plowing happens, I have a whole lot of manual shoveling to do.
In the short-term this is partly addressable by not parking EVs in garages, and perhaps long-term by new safety measures on both EVs and on garages to contain potential fires.
But I have a related question: Are power walls also dangerous like this? They are also large lithium ion batteries.
Construction fire code changes all the time. The ones around here specifically for attached garages have added more requirements within the last decade or so, for instance.
Building code already mandated the garage being in a different/delayed 'fire envelope' than the habituated portion of my home when it was built, so at least in some jurisdictions we're already there.
Thicker, fire resistant drywall. Spring-loaded fire doors to the main house that default to closed. No air vent passthrough from the garage to the house, and so on.
I think the question is, can you ever get to the point where storing a lithium-ion battery that large and energy dense is 100% safe? We are clearly going to see a switchover to EVs. If that's the case, building codes may need to adapt.
We have tons of fire and building codes, and they are updated all the time. Why would accounting for EVs be any different than other advances that required updating of codes?
I believe Tesla pitches the Powerwall as being suitable for indoor and outdoor installation, but I was speaking recently with a solar professional who expressed horror at huge banks of batteries being installed anywhere other than the exterior of houses.
I wouldn't be against treating a powerwall install like ammunition storage in an armored vehicle. Firewalled from the house with fire suppression installed, blowout panels to the outside, the whole shebang.
Indeed, but that undermines the whole idea which is that it's a super cheap self-contained unit you can just install anywhere and all you need is an electrician with a hammer drill and a masonry bit.
Agreed. When I installed a large battery backed PV installation I set it up with the batteries outside in a separate concrete underground bunker dug into the side of a (very convenient) hill.
Lithium Ion batteries are dangerous in general. I think they are more dangerous than gasoline: if I puncture my gas tank with an awl it doesn't explode in a 2000degC fire for 4 hours. It is scary, but necessary to adopt new tech IMHO, kinda like how the first Model T's could break your arm when you started them (by turning the crank).
I would disagree about lithium ion batteries being more dangerous - gasoline is far more energy dense for one. A slower release is actually a good thing for safety compared to the alternative, a very fast intense one. Besides, just a single mode of failure is not an apt comparison.
- You cannot create a fuel air bomb by throwing lithium ion batteries into your basement and igniting it when the concentration is correct.
- You cannot suffer carbon monoxide poisoning from lithium ion batteries.
Yes, anything with the same chemistry is also dangerous. I would hope Powerwalls would have better cell isolation as they aren't as constrained by weight and size as in a vehicle.
That said, it looks like Tesla is going with LiFePo for powerwalls which is a much safer chemistry.
Supposedly Tesla uses NCA for its cars and NMC for Powerwalls. Most other electric car manufacturers use NMC. However the properties of a battery vary greatly depending on the structure of the cell, and even more so on the cooling of the battery, so you should not compare them on chemistry alone.
The reason why LiFePo4 (LFP) is safer is because it doesn't exhibit thermal runaway and is less energy dense.
"Autopilot was not engaged during this fire, and the user was not supervising the vehicle in order to extinguish it. We've determined this fire to be the result of user error." - Tesla
I wish they provided more information on what caused the fire since this happened last year. Remember there is at least 250 gasoline car fires a day in comparison
I have literally never heard of a gasoline car fire, or at least not spontaneously in a garage (in response to an accident, sure). Source for 250 a day?
>Failure to have the switch disconnected could lead to a vehicle fire at any time, whether or not the key is in the ignition, and whether or not owners use the cruise control system. The safety agency said the fire danger is present regardless of the age of the vehicle, and could even occur while the vehicle is parked and unattended. Several dwelling fires have been attributed to the problem.
It can happen. That one was particularly bone headed design, but yeah. (I am in no way arguing that an old recall could have been responsible for the GP's claim of 250/day, just that spontaneous ICE vehicle fires have and do happen)
Not saying it could never possibly happen, just the particular claim of "this happens to hundreds of people daily" when I have not heard of this across, um, I've been a driver for more than a few hundred days, made me doubt that it was that common even if it's a worldwide stat.
"Each year, from 2014 to 2016, an estimated 171,500 highway vehicle fires occurred in the United States, resulting in an annual average of 345 deaths; 1,300 injuries; and $1.1 billion in property loss"
That's 469 per day just on highway, given the date range probably 99% of them on fossil fuel cars.
Gasoline cars probably, rarely or never, literally spontaneously combust while sitting parked in a garage. This is a serious problem and I am not sure what citing that fact adds to the discussion.
> The issue is causing mounting concern as a number of electric-vehicle makers have warned owners not to leave the cars charging unattended in certain circumstances, or sitting fully charged in garages.
Wow.
* Don't leave your car fully charged? Stop and think about the UX there. That's a completely new paradigm: don't completely fill you car with energy? Why not just stop the charging at 90% and call that 100%? What should you leave it at? (Drone batteries should be left at 50% if not going to be used soon.)
* Don't leave your car unattended while charging? So I'm supposed to sit there and watch it charge?
I would like to know the extent of these problem and if there are other solutions. Seems this person did charge to 100%. Maybe this should be disabled for garages
I believe OP is saying that 80/90% or whatever should be displayed as 100% to the user, the same way fuel gauges in ICE vehicles typically leave a large amount of fuel in the tank while displaying as "empty".
This is mainly a U.S. practice, as many European countries like their gauges to be as accurate as possible.
That is low for an off-road vehicle where civilisation could be quite far away. My Suzuki and Chevy off-road vehicles are calibrated the same. My Buick thinks low is 24 miles of range.
While that's undeniably true, if venturing off-road, I'd expect the driver to plan better than simply heading back when the light comes on.
(I'm probably - make that 'almost certainly' erring on the side of caution - having fitted a 90L/24USg auxiliary tank and also often carrying a jerry can or two when heading off into the boonies - heck, even my field kitchen runs on diesel!)
> I believe OP is saying that 80/90% or whatever should be displayed as 100% to the user
My BMW i3 does that. When my car is fully charged, it's almost exactly 80% of the actual full battery capacity. When it says it's empty it's about 20%.
I verified this using some REST API calls someone had figured out reported capacity (actual and available) in kWh and correlated with the 94Ah specification.
Tesla doesn't integrate with any personal assistants natively. There are 3rd party solutions (Alexa skills, etc.) available that can report on and control things ("What is the state of charge?", "Turn on the heater", etc.)
Generally, I find these solutions not very user friendly at all and not well integrated. And I'm personally a bit wary about the security of it all. Giving a 3rd party access to my calendar is one thing; letting them control my car is something different.
The problem is that batteries themselves don't have a concept of "full". Measuring the state of charge in Li-ion cells is not easy as the voltage curve can be quite flat, so you have to use all kinds of heuristics to determine what a safe charge level is.
Batteries heat up depending on the rate of charge and while it is easy to measure and control to avoid damage from overheating, I don't believe it can be used to measure the state of charge. Charging at home in a garage would likely be using a much slower (and thus cooler) charging method than a commercial charger, so I don't think the fires are caused by the rate of charge, but perhaps by over-charging potentially worn or damaged / defective cells.
I'm sure it does - the problem is that the disconnect trigger voltage could be a normal state of charge for one cell but a high / dangerous state of charge for another.
Edit: It get it, here come the hate replies and down votes.
Yes I know the article "mentions" others, but the title is again about Tesla and not EVs.
I get it. The Tesla articles always get the talk though. I honestly hear "Oh, Teslas light on fire. Electric vehicles are bad." Ask about the Bolt "Those are electric? I thought they used gas."
Let's see how many comments this article gets about this fire compared to the Bolt. The original Bolt talk here from 9 months ago had 106 comments. Heck even the latest post where GM had to recall the Bolt, again, had like 2 comments. Let's see how fast this one grows due to branding.
It's so rare, but they (Tesla) get the real headlines.
Generally parked automotive fires are started by a 12 volt electrical fault that progresses to fuel lines and interior plastics and upholstery. This is not optimal but a lot easier to contain than parked lithium battery powered car fires which require 20 tons of water and several hours to extinguish, followed by removal to a safe place in case of reignition.
Accident impact damaged battery gang fires are a lot more difficult to control due to unstable stored energy
Tesla is the market leader. More people have heard of Tesla. Tesla makes a lot of promises about safety.
For all these reasons, something involving a Tesla is news in a ways that something involving a rare car like the Bolt is not (but note that the article also mentions Bolt and Kona fires as well).
If Tesla can't take the heat, then maybe they should cut back on the self-congratulatory marketing.
Rudolf Diesel is referenced about all that is bad about his engine, similary Tesla will naturally receive most of the exposure. In addition WSJ is a finance paper, and tesla is by far the highest value EV manufacturer
I searched for your username in the Bolt fire comments and didn't see it. So your big problem is that that article got fewer comments than this one, while you comment on this article and not that one?
I don't mean to be a Tesla apologist, but what's the rate of cars with ICE engines catching on fire in garages?
I only ask because (n=1) I recall a major house fire across the street from me that started in the attached garage when the car caught fire.
The ultimate problem is the same: it takes a lot of stored energy to propel a car 300 miles, regardless of that energy source. Controlling that energy will be challenge regardless.
From tables 1 and 2, about noncrash fire losses / insurance claims from cars built in 2016-2018 if I'm skimming this right:
IVY RFC Make and series
36k 192 Tesla Model X 4dr electric 4WD
43k 140 Tesla Model S 4dr electric 4WD
50k 288 Dodge Charger HEMI
508k 101 Ford Fusion
151k 49 Honda Fit
21k 0 Chevrolet Sonic
RFC = Relative claim frequency which has an asterisk in the document saying "100 = all-passenger-vehicle result". If 100 is all passenger vehicles... result? I can't parse this sentence, but I take it to mean that 100 is the average of all cars.
IVY = Insured Vehicle Years, basically sample size
Given that a car with 21k exposure years can have 0 claims, and there are also combustion vehicles with higher values, I'm not sure how statistically significant it is that these Tesla values are >100.
It sounds like "relative claim frequency" is a weirdly expressed ratio, ie Charger owners make fire claims at a rate 2.88x that of the average across all passenger vehicles.
I have had one ICE car catch fire (in the driveway, not garage, thankfully) but it was caused by the electrical system (looks like the alternator spontaneously shorted somehow). No fuel caught fire despite the fire burning for upwards of 15 minutes before the fire crew arrives.
This is terrible, obviously. Where possible, all EV makers should protect against this.
Gas cars may not catch fire when they sit in a garage, but they're not perfectly safe. My parents' friend left the car on one night, by accident. The carbon monoxide killed half the family.
There's low-probability tragedies around us, each a little different. There's no silver bullet.
This is a fine hit piece coming from Jeff "can't compete with SpaceX" Bezos' WaPo.
It starts with the headline:
> It’s a risk many automakers are taking seriously.
Implying Tesla doesn't take this seriously. And the argument: other car makers recalled cars for fire risk.
What if the reason is that Tesla didn't find a defect that warrants a recall?
If we assume that regulatory bodies are not somehow favoring Tesla, more recalls by other car makers show that Tesla cars are safer in that regard.
It would also imply that Tesla took this issue seriously before they released the cars, not after.
And also this gem:
> Tesla in the past has argued that its cars are a tenth as likely to catch fire as gas-powered vehicles, drawing on data from the National Fire Protection Association and U.S. Federal Highway Administration.
> Still, safety experts note that the fires can burn more intensely and last much longer.
So, the government data show that Tesla cars are safer than gas cars wrt. fires. WaPo doesn't dispute that.
Still, they manage to spin that superior safety of Tesla with some shade.
> The Washington Post has documented at least five fires
You don't say. Five out 1.5 million cars.
> Tesla had come under scrutiny over concerns it allegedly manipulated battery software in older vehicles to lessen the risk of fire.
So when Tesla releases a software update to lessen the probability of fire (something GM also did recently after many Bolt fires), WaPo says it's "manipulating battery software".
This whole article is just trying to make people think that Tesla is uniquely bad at fires when the reality is that not only electric cars are safer than gas cars AND Tesla cars are safer than other electric cars.
Just in case you think if you have gasoline in your car the risk is 0
"If you own one of these cars, vans or SUVs, don’t park them in a garage, automaker says
Kia, Hyundai recall more than 700,000 vehicles for potential fire risk in anti-lock brake system"
92 comments
[ 2.9 ms ] story [ 159 ms ] threadThe big takeaway from these fires is that proper safety for EVs might soon mean not leaving them in garages, especially those attached/part of residential structures. Expect insurance companies to adjust home insurance policies accordingly to account for EV fire risks.
Just add a fire suppressant system to the Powerwall it's hooked on.
In many tesla crash reports firefighters leave the batteries to burn for hours, as there's no nice way to extinguish lithium fires.
If that's the case, I don't think a fire suppression system would help.
Typical petroleum fires (gasoline, diesel) can be smothered with foam to put them out. No amount of heat will ignite these fuels without oxygen.
Smother a self-oxidizing fire does not extinguish the fire. To remove heat, firefighters spray cold water on the fire, which is incompatible with smothering it (the water and steam push foam away), so the fire has atmospheric oxygen as well as oxidant from the fuel. Dropping the car into a tank of water accomplishes both - the water tank is a heat sink, cooling the car, and it also smothers the fire and removes atmospheric oxygen.
This happened in places where simply leaving it to burn out wasn't an option.
Crude, but effective, apparently. Massive heatsink+depriving the fire of any oxygen not supplied by the decomposing battery.
At least for now until better battery tech will emerge. Hopefully insurance will keep track of this and update their policies regularly.
But I have a related question: Are power walls also dangerous like this? They are also large lithium ion batteries.
I really hope this isn't the way this is solved.
Thicker, fire resistant drywall. Spring-loaded fire doors to the main house that default to closed. No air vent passthrough from the garage to the house, and so on.
We have tons of fire and building codes, and they are updated all the time. Why would accounting for EVs be any different than other advances that required updating of codes?
- You cannot create a fuel air bomb by throwing lithium ion batteries into your basement and igniting it when the concentration is correct. - You cannot suffer carbon monoxide poisoning from lithium ion batteries.
Sparks and fires are not.
That said, it looks like Tesla is going with LiFePo for powerwalls which is a much safer chemistry.
The reason why LiFePo4 (LFP) is safer is because it doesn't exhibit thermal runaway and is less energy dense.
https://www.powertechsystems.eu/home/tech-corner/safety-of-l...
here is the source https://cleantechnica.com/2019/06/03/500-gas-car-fires-per-d...
>Failure to have the switch disconnected could lead to a vehicle fire at any time, whether or not the key is in the ignition, and whether or not owners use the cruise control system. The safety agency said the fire danger is present regardless of the age of the vehicle, and could even occur while the vehicle is parked and unattended. Several dwelling fires have been attributed to the problem.
It can happen. That one was particularly bone headed design, but yeah. (I am in no way arguing that an old recall could have been responsible for the GP's claim of 250/day, just that spontaneous ICE vehicle fires have and do happen)
Citation please
[0] https://www.abcactionnews.com/money/consumer/taking-action-f...
https://www.usfa.fema.gov/downloads/pdf/statistics/v19i2.pdf
"Each year, from 2014 to 2016, an estimated 171,500 highway vehicle fires occurred in the United States, resulting in an annual average of 345 deaths; 1,300 injuries; and $1.1 billion in property loss"
That's 469 per day just on highway, given the date range probably 99% of them on fossil fuel cars.
https://abcnews.go.com/US/mysterious-bmw-fires-continue-call...
Wow.
* Don't leave your car fully charged? Stop and think about the UX there. That's a completely new paradigm: don't completely fill you car with energy? Why not just stop the charging at 90% and call that 100%? What should you leave it at? (Drone batteries should be left at 50% if not going to be used soon.)
* Don't leave your car unattended while charging? So I'm supposed to sit there and watch it charge?
That's sort of an unacceptable usage model, IMHO.
This is mainly a U.S. practice, as many European countries like their gauges to be as accurate as possible.
-Add the Japanese to that list. My Land Cruiser's low fuel lamp comes on when there's 22L/5.75 US gallons left.
(I'm probably - make that 'almost certainly' erring on the side of caution - having fitted a 90L/24USg auxiliary tank and also often carrying a jerry can or two when heading off into the boonies - heck, even my field kitchen runs on diesel!)
My BMW i3 does that. When my car is fully charged, it's almost exactly 80% of the actual full battery capacity. When it says it's empty it's about 20%.
I verified this using some REST API calls someone had figured out reported capacity (actual and available) in kWh and correlated with the 94Ah specification.
Changing AC settings while driving would be great too.
Generally, I find these solutions not very user friendly at all and not well integrated. And I'm personally a bit wary about the security of it all. Giving a 3rd party access to my calendar is one thing; letting them control my car is something different.
https://allev.info/2021/07/list-of-known-chevy-bolt-fires/
Edit: It get it, here come the hate replies and down votes.
Yes I know the article "mentions" others, but the title is again about Tesla and not EVs.
I get it. The Tesla articles always get the talk though. I honestly hear "Oh, Teslas light on fire. Electric vehicles are bad." Ask about the Bolt "Those are electric? I thought they used gas."
Let's see how many comments this article gets about this fire compared to the Bolt. The original Bolt talk here from 9 months ago had 106 comments. Heck even the latest post where GM had to recall the Bolt, again, had like 2 comments. Let's see how fast this one grows due to branding.
It's so rare, but they (Tesla) get the real headlines.
Accident impact damaged battery gang fires are a lot more difficult to control due to unstable stored energy
For all these reasons, something involving a Tesla is news in a ways that something involving a rare car like the Bolt is not (but note that the article also mentions Bolt and Kona fires as well).
If Tesla can't take the heat, then maybe they should cut back on the self-congratulatory marketing.
I only ask because (n=1) I recall a major house fire across the street from me that started in the attached garage when the car caught fire.
The ultimate problem is the same: it takes a lot of stored energy to propel a car 300 miles, regardless of that energy source. Controlling that energy will be challenge regardless.
[1] https://www.iihs.org/media/c93b98d8-6a7d-44a1-810e-4468ec539...
IVY = Insured Vehicle Years, basically sample size
Given that a car with 21k exposure years can have 0 claims, and there are also combustion vehicles with higher values, I'm not sure how statistically significant it is that these Tesla values are >100.
https://www.bloomberg.com/news/articles/2021-08-02/a-tesla-b...
https://insideevs.com/news/373722/truck-trailer-five-teslas-...
We need to start addressing the reality of gang fires from charged lithium batteries a lot more seriously.
Gas cars may not catch fire when they sit in a garage, but they're not perfectly safe. My parents' friend left the car on one night, by accident. The carbon monoxide killed half the family.
There's low-probability tragedies around us, each a little different. There's no silver bullet.
It starts with the headline:
> It’s a risk many automakers are taking seriously.
Implying Tesla doesn't take this seriously. And the argument: other car makers recalled cars for fire risk.
What if the reason is that Tesla didn't find a defect that warrants a recall?
If we assume that regulatory bodies are not somehow favoring Tesla, more recalls by other car makers show that Tesla cars are safer in that regard.
It would also imply that Tesla took this issue seriously before they released the cars, not after.
And also this gem:
> Tesla in the past has argued that its cars are a tenth as likely to catch fire as gas-powered vehicles, drawing on data from the National Fire Protection Association and U.S. Federal Highway Administration. > Still, safety experts note that the fires can burn more intensely and last much longer.
So, the government data show that Tesla cars are safer than gas cars wrt. fires. WaPo doesn't dispute that.
Still, they manage to spin that superior safety of Tesla with some shade.
> The Washington Post has documented at least five fires
You don't say. Five out 1.5 million cars.
> Tesla had come under scrutiny over concerns it allegedly manipulated battery software in older vehicles to lessen the risk of fire.
So when Tesla releases a software update to lessen the probability of fire (something GM also did recently after many Bolt fires), WaPo says it's "manipulating battery software".
This whole article is just trying to make people think that Tesla is uniquely bad at fires when the reality is that not only electric cars are safer than gas cars AND Tesla cars are safer than other electric cars.
Lol. I was 14. I was working on something when I was suddenly startled by a really loud noise out of nowhere.
Our neighbors Caddy Escalade spontaneously caught fire. Out of nowhere.
Lol. I was 14. I was working on something when I was suddenly startled by a really loud noise out of nowhere.
Our neighbors Caddy Escalade spontaneously caught fire. Out of nowhere.
That said, a car that combusts out of nowhere is terrifying as hell
"If you own one of these cars, vans or SUVs, don’t park them in a garage, automaker says Kia, Hyundai recall more than 700,000 vehicles for potential fire risk in anti-lock brake system"
https://www.clickorlando.com/news/investigators/2020/03/02/i...