Not everyone can have a home charger. People living in apartments and condos won’t have access. Heck, even people who do have their own homes will have to upgrade their electrical panels to allow for charging.
Until everyone can charge at home, it all boils down to how much range a car gets and how fast it recharges, which is why this new battery tech is such a game changer.
Again, the people that can’t have a charger at home will not be able to afford this. It’s not a game changer, it would take higher powered chargers than the ones that currently exist, making your whole “charging desert” issue more problematic (not to mention that you first had an issue with rural charging and are now talking about urban environments where charging access is easy to come by even if not directly in your apartment).
The solution isn’t prohibitively expensive 600 mile range batteries (are you still saying you need that on the daily?), it’s more chargers.
Once again, it seems like you think EVs work and charge/fill up in the same way as ICE vehicles. They don’t, and unless you’ve driven or owned one I’m not sure why you’d be speaking from such an authoritative standpoint.
Not true. Before we bought our house we could have easily afforded an EV. We didn’t buy one because we had no place to charge it.
After buying a house, we had to do other upgrades before we could even think of adding a charger, like upgrading the electrical panel from 100A to 200A, and even then, there were other priorities like a new roof and solar panels.
What I don’t get is why you’re so averse to the basic premise of EV owners being able to upgrade the battery tech in their vehicles to get a superior range and charging time.
As it stands right now, range is inadequate and varies greatly with operating temperature:
“It’s well known that EVs lose some of their travel range in the cold, especially in subzero temperatures like those that hit the nation’s mid-section this week. Studies found that range loss varies from 10 percent to 36 percent.”
The average range on an EV is around 300 miles, so losing 10 to 36% of that in the cold is no good, especially when it takes longer to charge in the cold as well. With a 600 mile range and 9 minute recharge, that’s less of a factor. Even if it takes 2x as long to charge in the cold, that’s still less time than it takes to charge a standard EV in good weather.
Every EV owner should have the option to upgrade to this new tech for better range and faster charging. Especially since the batteries are designed to be replaced ANYWAY.
All of that goes out of the window if you read what I have been saying this entire time: this would be absolutely unaffordable to you and me, in battery costs but also charger and infrastructure costs. It would take a national infrastructure upgrade to accommodate that precious 9 minute charging figure. Forget a 200A panel for home charging (not that expensive compared to what you just listed), I’m sure this would require more and take 5x as long at home.
You are advocating for an unproven and expensive technology for ever-changing reasons, all while we just got our current tech in a decent place. What you are asking for would ultimately make it more difficult to own an EV and likely harm EV adoption. We aren’t there yet, and it’s really not necessary now.
So, if you don’t own an EV, why do you continue to talk like you know what is best for consumer adoption? Why not listen to the consumers that actually have them instead of insisting you need to drive 450+ miles in one sitting without ever stopping?
That’s the trick though, the current tech is NOT in a decent place. When it takes <10 minutes to fill a gasoline car at a pump, but it takes 40 to 60 minutes (or more!) to charge an EV, this new tech is absolutely a necessity.
I talk about consumer adoption because I research this stuff. EV sales are down, they’re down because of the problems I’ve already noted with range, charging time, and charging availability. Increasing the range increases the time between charges. Decreasing the charge time makes it more convenient to re-charge.
"“It might make sense [to buy an EV] if you could recharge that vehicle in the driveway of your house while you’re asleep,” he says. “The problem is that many Americans don’t even have driveways.” J.D. Power’s Krear adds that “one in three shoppers don’t have access to home charging”.
At this point, even figuring in the drive to a fossil-fuel station, “it’s still much easier to refuel your vehicle with gasoline than with electrons”, says Nunes. “If you pull up to a gas station with an empty tank, and you just pump it full of gas, it’ll take you maybe six, seven minutes at the most. With EVs, it’s going to take you hours to charge that vehicle to the maximum rate. And that’s the kind of time that everyday Americans simply don’t have.”
Experts agree that establishing a robust infrastructure of public charging stations is key to mass adoption of EVs. But the creation of that infrastructure lags. Stations are scarce, particularly in low-income and minority communities. Where they do exist, they are often unreliable.
With EVs, it’s going to take you hours to charge that vehicle to the maximum rate. And that’s the kind of time that everyday Americans simply don’t have – Ashley Nunes
“One out of every five public charging attempts is a failure,” says Krear. Findings from a 2022 University of California, Berkely study showed that one-quarter of public chargers in the San Francisco Bay Area didn’t work due to “unresponsive or unavailable screens, payment system failures, charge initiation failures, network failures, or broken connectors”."
It does not take 40 minutes in modern EVs. It takes like 20 minutes, max. It certainly does not take hours at L3 chargers like the misleading claim the person in your quote makes. I think that’s also what you’re missing: this is a marginal improvement overall, other than range itself. Once again, the problem is not battery tech, it’s charging access. L3 charging access needs to be improved, not battery tech. If we upgrade our battery tech now, it will only make the problems you are mentioning worse by reducing the amount of available chargers. This will not work with our current L3/L2 tech, and you want to make the L3 charging situation you’re talking about even worse. We simply do not have our infrastructure in a good enough place where we can accommodate this technology.
Research and quote things all you want, it doesn’t change the fact that you have never personally owned one and therefore should not be speaking on this subject like you are an authority. This isn’t the first time we’ve had this “chat” and I’m sure I’ll see you claiming you need to drive 450+ miles in a single sitting the next time this gets posted and we can go in circles again.
For now, I see that you think your needs and wants are what everyone else’s are (this is not the case), and that because you think you know best (again, without ever owning an EV) you will never admit that maybe your need to drive 450+ miles is unnecessary with today’s EVs and that it would cost unfathomable amounts to upgrade cars and infrastructure to even use this tech. See you in the next post, I can’t wait for you to tell me more about how I can’t road trip in my EV even though I’ve done it across the country!
The other guy is being dumb. He’s trying to tell people what they do and don’t need, and that’s not going to work; especially when you are considering people who are stuck on ICE cars for the exact reasons you’re saying.
I love my ICE vehicle, but I’ve said many times that I’d consider a battery powered vehicle when I can get 500+ mile range. The last thing I’m going to do is allow myself be inconvenienced by something I don’t care about, and this is the story here. I’m passionate about my WRX, but I could never be passionate about a battery and electric motors. When I switch, it’ll only be because the benefit is incredible and undeniable. People will simply not convince me that a 300 mile range in optimal conditions is going to suit me, because things never play out like the paper specs say.
The benefit is incredible and undeniable, as long as you can plug in to a wall somewhere regularly. If you have to rely on public fast charging they may not be for you.
The only benefit of a gas powered engine is you can fill the gas tank up in about 5 minutes.
Forgotten benefits of gasoline: you can fix it yourself and you’re not locked into a shiny new consumerist downward spiral that demands you buy a new vehicle every ten years when the car can’t go 200 miles in a single charge anymore? And the next guy who gets the battery powered vehicle is just worse off than you were, as the poorer along us suffer even worse condition vehicles and the risk of massive expenses in the way of new battery failure. Why is nobody concerned with the fact that batteries are going to lock us into excess and unavoidable consumerism as they degrade? Engines -might- fail, but batteries -will- fail.
List one battery powered device that isn’t basically disposable.
I own a Tesla because my engine died at 95k miles in my 2016 VW, with regular maintenance, and it was $11k for just the engine, not counting labor to install it.
I could change it myself, and I could have bought a used engine for roughly $5500, but the economics of that dont work out.
I’m willing to take my chances with a battery pack installation.
Also, 200 miles range is 6x the average daily miles driven, so for almost everyone, it should be plenty! Unless you’re thinking we should mass produce solutions for the 1%?
Yup. It’s not “300 mile range”, it’s “300 mile range*”.
But if the max range is 600 miles under optimal conditions, and worst case scenario, you lose 35% due to “reasons”, that’s still a 390 mile range, which is better than most cars on a tank of gas. Plus the 9 minute re-charge is a game changer.
Not everyone can have a home charger. People living in apartments and condos won’t have access. Heck, even people who do have their own homes will have to upgrade their electrical panels to allow for charging.
Until everyone can charge at home, it all boils down to how much range a car gets and how fast it recharges, which is why this new battery tech is such a game changer.
Again, the people that can’t have a charger at home will not be able to afford this. It’s not a game changer, it would take higher powered chargers than the ones that currently exist, making your whole “charging desert” issue more problematic (not to mention that you first had an issue with rural charging and are now talking about urban environments where charging access is easy to come by even if not directly in your apartment).
The solution isn’t prohibitively expensive 600 mile range batteries (are you still saying you need that on the daily?), it’s more chargers.
Once again, it seems like you think EVs work and charge/fill up in the same way as ICE vehicles. They don’t, and unless you’ve driven or owned one I’m not sure why you’d be speaking from such an authoritative standpoint.
Not true. Before we bought our house we could have easily afforded an EV. We didn’t buy one because we had no place to charge it.
After buying a house, we had to do other upgrades before we could even think of adding a charger, like upgrading the electrical panel from 100A to 200A, and even then, there were other priorities like a new roof and solar panels.
What I don’t get is why you’re so averse to the basic premise of EV owners being able to upgrade the battery tech in their vehicles to get a superior range and charging time.
As it stands right now, range is inadequate and varies greatly with operating temperature:
https://www.pbs.org/newshour/economy/cold-weather-can-cut-electric-vehicle-range-and-make-charging-tough-heres-what-you-need-to-know
“It’s well known that EVs lose some of their travel range in the cold, especially in subzero temperatures like those that hit the nation’s mid-section this week. Studies found that range loss varies from 10 percent to 36 percent.”
The average range on an EV is around 300 miles, so losing 10 to 36% of that in the cold is no good, especially when it takes longer to charge in the cold as well. With a 600 mile range and 9 minute recharge, that’s less of a factor. Even if it takes 2x as long to charge in the cold, that’s still less time than it takes to charge a standard EV in good weather.
Every EV owner should have the option to upgrade to this new tech for better range and faster charging. Especially since the batteries are designed to be replaced ANYWAY.
All of that goes out of the window if you read what I have been saying this entire time: this would be absolutely unaffordable to you and me, in battery costs but also charger and infrastructure costs. It would take a national infrastructure upgrade to accommodate that precious 9 minute charging figure. Forget a 200A panel for home charging (not that expensive compared to what you just listed), I’m sure this would require more and take 5x as long at home.
You are advocating for an unproven and expensive technology for ever-changing reasons, all while we just got our current tech in a decent place. What you are asking for would ultimately make it more difficult to own an EV and likely harm EV adoption. We aren’t there yet, and it’s really not necessary now.
So, if you don’t own an EV, why do you continue to talk like you know what is best for consumer adoption? Why not listen to the consumers that actually have them instead of insisting you need to drive 450+ miles in one sitting without ever stopping?
That’s the trick though, the current tech is NOT in a decent place. When it takes <10 minutes to fill a gasoline car at a pump, but it takes 40 to 60 minutes (or more!) to charge an EV, this new tech is absolutely a necessity.
https://www.transportation.gov/rural/ev/toolkit/ev-basics/charging-speeds
I talk about consumer adoption because I research this stuff. EV sales are down, they’re down because of the problems I’ve already noted with range, charging time, and charging availability. Increasing the range increases the time between charges. Decreasing the charge time makes it more convenient to re-charge.
https://www.bbc.com/worklife/article/20231108-three-big-reasons-americans-havent-rapidly-adopted-evs
"“It might make sense [to buy an EV] if you could recharge that vehicle in the driveway of your house while you’re asleep,” he says. “The problem is that many Americans don’t even have driveways.” J.D. Power’s Krear adds that “one in three shoppers don’t have access to home charging”.
At this point, even figuring in the drive to a fossil-fuel station, “it’s still much easier to refuel your vehicle with gasoline than with electrons”, says Nunes. “If you pull up to a gas station with an empty tank, and you just pump it full of gas, it’ll take you maybe six, seven minutes at the most. With EVs, it’s going to take you hours to charge that vehicle to the maximum rate. And that’s the kind of time that everyday Americans simply don’t have.”
Experts agree that establishing a robust infrastructure of public charging stations is key to mass adoption of EVs. But the creation of that infrastructure lags. Stations are scarce, particularly in low-income and minority communities. Where they do exist, they are often unreliable.
With EVs, it’s going to take you hours to charge that vehicle to the maximum rate. And that’s the kind of time that everyday Americans simply don’t have – Ashley Nunes
“One out of every five public charging attempts is a failure,” says Krear. Findings from a 2022 University of California, Berkely study showed that one-quarter of public chargers in the San Francisco Bay Area didn’t work due to “unresponsive or unavailable screens, payment system failures, charge initiation failures, network failures, or broken connectors”."
It does not take 40 minutes in modern EVs. It takes like 20 minutes, max. It certainly does not take hours at L3 chargers like the misleading claim the person in your quote makes. I think that’s also what you’re missing: this is a marginal improvement overall, other than range itself. Once again, the problem is not battery tech, it’s charging access. L3 charging access needs to be improved, not battery tech. If we upgrade our battery tech now, it will only make the problems you are mentioning worse by reducing the amount of available chargers. This will not work with our current L3/L2 tech, and you want to make the L3 charging situation you’re talking about even worse. We simply do not have our infrastructure in a good enough place where we can accommodate this technology.
Research and quote things all you want, it doesn’t change the fact that you have never personally owned one and therefore should not be speaking on this subject like you are an authority. This isn’t the first time we’ve had this “chat” and I’m sure I’ll see you claiming you need to drive 450+ miles in a single sitting the next time this gets posted and we can go in circles again.
For now, I see that you think your needs and wants are what everyone else’s are (this is not the case), and that because you think you know best (again, without ever owning an EV) you will never admit that maybe your need to drive 450+ miles is unnecessary with today’s EVs and that it would cost unfathomable amounts to upgrade cars and infrastructure to even use this tech. See you in the next post, I can’t wait for you to tell me more about how I can’t road trip in my EV even though I’ve done it across the country!
The other guy is being dumb. He’s trying to tell people what they do and don’t need, and that’s not going to work; especially when you are considering people who are stuck on ICE cars for the exact reasons you’re saying.
I love my ICE vehicle, but I’ve said many times that I’d consider a battery powered vehicle when I can get 500+ mile range. The last thing I’m going to do is allow myself be inconvenienced by something I don’t care about, and this is the story here. I’m passionate about my WRX, but I could never be passionate about a battery and electric motors. When I switch, it’ll only be because the benefit is incredible and undeniable. People will simply not convince me that a 300 mile range in optimal conditions is going to suit me, because things never play out like the paper specs say.
The benefit is incredible and undeniable, as long as you can plug in to a wall somewhere regularly. If you have to rely on public fast charging they may not be for you.
The only benefit of a gas powered engine is you can fill the gas tank up in about 5 minutes.
Forgotten benefits of gasoline: you can fix it yourself and you’re not locked into a shiny new consumerist downward spiral that demands you buy a new vehicle every ten years when the car can’t go 200 miles in a single charge anymore? And the next guy who gets the battery powered vehicle is just worse off than you were, as the poorer along us suffer even worse condition vehicles and the risk of massive expenses in the way of new battery failure. Why is nobody concerned with the fact that batteries are going to lock us into excess and unavoidable consumerism as they degrade? Engines -might- fail, but batteries -will- fail.
List one battery powered device that isn’t basically disposable.
I own a Tesla because my engine died at 95k miles in my 2016 VW, with regular maintenance, and it was $11k for just the engine, not counting labor to install it.
I could change it myself, and I could have bought a used engine for roughly $5500, but the economics of that dont work out.
I’m willing to take my chances with a battery pack installation.
Also, 200 miles range is 6x the average daily miles driven, so for almost everyone, it should be plenty! Unless you’re thinking we should mass produce solutions for the 1%?
Yup. It’s not “300 mile range”, it’s “300 mile range*”.
But if the max range is 600 miles under optimal conditions, and worst case scenario, you lose 35% due to “reasons”, that’s still a 390 mile range, which is better than most cars on a tank of gas. Plus the 9 minute re-charge is a game changer.