ghostice
Been here a while
As a member of the "Consultant Debunking Unit" in some large process industry projects, from time to time we came up with really interesting angles on things that hadn't been considered - process vessel jet fires and flame impingement, etc. in weird ways. Fire protection was a constant concern and equipment design and instrumentation could be modified two or three times even, through the course of Front End Engineering Design and into Detailed Design and then Construction Phases.
As our businesses "electrify" and Li batteries are now spreading everywhere it may behoove us to think a bit about any potential downsides such as "fire" from these things. There is much work going on in Australia and the UK currently looking at "fire" safety of LI battery cars, bikes and scooters and even computers. Attached is a link to a fire safety video from a UK fire safety conference (once you get past the silly conference ads) which talks about some of the research going on right now regarding building safety. I must admit I haven't really given battery "fires" much thought in the past, but that might have to change - I wonder about the "fire" safety of banks and banks of batteries on charge indoors if anything every did go wrong and there had been mechanical damage to a battery or battery pack in the course of a previous days work. Maybe as we go forward, this is an issue that TCIA needs to keep an eye on? Dunno. There are Australian YouTube videos on the subject of car battery "fires" as well, some of them quite troubling. Maybe we need to go into this electrification transition with eyes wide open. Cheers all. Stay safe out there.
Addenda: On thinking about it more, possible physical damage to batteries in treework is not entirely hypothetical - there is a Buzz thread somewhere on Li battery damage citing dropped batteries, Husqvarna battery clips giving way after a waggle on a stem (me) etc. And as battery packs get really bigger (I'm thinking battery blowers and such here) and energy density gets even higher "fire" potential may get even bigger. For large business, example some of the projects I worked in, companies would have a $4M or so deductible on their insurance policies (peanuts in the scheme of things). For a small business though, such an incident might be business ending. And I must admit I never considered a residential "fire" from charging batteries in a garage under the kids bedrooms. Just have a think.
Addenda II: the word "fire" is in quotation marks because these thermal runaways are not actually fires (at least until the gas explosion down the road - see the videos) - it's actually a runaway exothermic chemical reaction that's going on with HCN and other really toxic gasses produced, not just "normal" combustion products (if we were thinking about it like wood smoke or something). Hence the automatic use of supplied air respiratory protection for the firefighters in every instance. Which leads me to also wonder about the residual toxic metals pollution left after the battery situation is attended to (like Notre Dame Cathedral's roof fire and the Pb pollution of Paris neighbourhoods).
As our businesses "electrify" and Li batteries are now spreading everywhere it may behoove us to think a bit about any potential downsides such as "fire" from these things. There is much work going on in Australia and the UK currently looking at "fire" safety of LI battery cars, bikes and scooters and even computers. Attached is a link to a fire safety video from a UK fire safety conference (once you get past the silly conference ads) which talks about some of the research going on right now regarding building safety. I must admit I haven't really given battery "fires" much thought in the past, but that might have to change - I wonder about the "fire" safety of banks and banks of batteries on charge indoors if anything every did go wrong and there had been mechanical damage to a battery or battery pack in the course of a previous days work. Maybe as we go forward, this is an issue that TCIA needs to keep an eye on? Dunno. There are Australian YouTube videos on the subject of car battery "fires" as well, some of them quite troubling. Maybe we need to go into this electrification transition with eyes wide open. Cheers all. Stay safe out there.
Addenda: On thinking about it more, possible physical damage to batteries in treework is not entirely hypothetical - there is a Buzz thread somewhere on Li battery damage citing dropped batteries, Husqvarna battery clips giving way after a waggle on a stem (me) etc. And as battery packs get really bigger (I'm thinking battery blowers and such here) and energy density gets even higher "fire" potential may get even bigger. For large business, example some of the projects I worked in, companies would have a $4M or so deductible on their insurance policies (peanuts in the scheme of things). For a small business though, such an incident might be business ending. And I must admit I never considered a residential "fire" from charging batteries in a garage under the kids bedrooms. Just have a think.
Addenda II: the word "fire" is in quotation marks because these thermal runaways are not actually fires (at least until the gas explosion down the road - see the videos) - it's actually a runaway exothermic chemical reaction that's going on with HCN and other really toxic gasses produced, not just "normal" combustion products (if we were thinking about it like wood smoke or something). Hence the automatic use of supplied air respiratory protection for the firefighters in every instance. Which leads me to also wonder about the residual toxic metals pollution left after the battery situation is attended to (like Notre Dame Cathedral's roof fire and the Pb pollution of Paris neighbourhoods).
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