The battery prototype demonstrated endurance, maintaining a stable structure and perfect reversibility over 6,000 cycles — equivalent to more than 16 years of daily operation — with zero loss in storage capacity.
WTF!? If this battery is just half as good as they claim, it could be a game changer for storing power for solar and wind!
The problem is that 6000 cycles in laboratory are not the same than 6000 cycles in real life scenarios.
It would be interesting to put that battery out in the field and to see how it perform in real life conditions (assuming that they are cheap enough to be produced in large volumes)
If they are really that good you are right, but there are always a lot of revolutionary advance in lab that never leave it.
Indeed: electric vehicle batteries are lasting even longer than estimated. All the constant breaks from use that the batteries get has been interestingly improving their durability (which makes me think that shutting off our phones for 1 whole day per week or even month could improve their lifespan, even for the 40-80% lithium-ion boundary keepers).
Just make hot swapping batteries normal again like it used to be.
In your ideal scenario would you own multiple batteries and keep them at your house, or are you looking for a subscription service where you would just buy the car (batteryless?) and then go to a rental station to have one put in, swapping batteries when they need a charge?
There actually was a Chinese EV startup that had battery swap stations: drive up onto the system, and the battery is directly under your car; the swap takes <1 minute. I don’t remember what it was called, though, nor if it ever made it.
Tom Scott did a video on it. In all honesty, there are a number of things about this system that I just don’t see working well in the long term, but it’s an interesting prototype nonetheless.
When was hot-swapping batteries normal? What was the backup power source? I’d only ever seen normally swappable batteries where the phone would need to power off and back on.
I’ve never owned a flip phone that I couldn’t plug in and swap the battery with a new one without it turning off. If that wasn’t normal with your phones I’m not sure why, maybe different circuitry?
Regardless making devices easy to repair, and thus open and maintainable was what I was getting at.
It really depends on the charge/discharge conditions that the particular test is using. You can do testing in the lab that is way harsher than typical usage or you can make it easier. In terms of this cycle testing for Li-ion I would say that typically the lab testing would be harsher than real world primarily because lab testing is done between 0% and 100% depth of discharge constantly where most people are charging their batteries much before then and only cycling them at high rates periodically.
It really depends on the charge/discharge conditions that the particular test is using.
True.
You can do testing in the lab that is way harsher than typical usage or you can make it easier. In terms of this cycle testing for Li-ion I would say that typically the lab testing would be harsher than real world primarily because lab testing is done between 0% and 100% depth of discharge constantly where most people are charging their batteries much before then and only cycling them at high rates periodically.
You are right, but we should see what they want to demostrate in the lab test: that the tech works or to have a way to make a sensational announcement based on some data ?
If you put that battery on the market, the 6000 cycles still stand or they are only a lab result ?
Aside the harsh or easy charge/discharge cycles, what other condition they tested ? A battery on a bench has different problems than a battery on a car on the road.
That said, if the tech works really has announced, it would be great.
Those are not the metrics that are important for storing wind and solar. Cost per MWh is the important one.
It is great to see, and isn’t an unreasonable jump from lifepo4. They already do 4-6k charge cycles with something like 20% degradation. This is a bigger deal for electronics and vehicles as it would make battery replacements unnecessary.
That is exactly right, and simplified Chinese is actually extremely popular to learn here now. (Denmark)
And no wonder, they have become leaders of several key (future) technologies.
Counter point: I know exactly one person who learned Mandarin and several dozen who don‘t. Pretty much everyone learned english and (to a lesser degree) a third language that isn‘t Mandarin either. French, Spanish and Japanese are popular, though.
And yes IF it is as you said HALF that good, in either direction— the article mentioned ~80% under heavy loads. And that alone would be a game changer.
WTF!? If this battery is just half as good as they claim, it could be a game changer for storing power for solar and wind!
The problem is that 6000 cycles in laboratory are not the same than 6000 cycles in real life scenarios.
It would be interesting to put that battery out in the field and to see how it perform in real life conditions (assuming that they are cheap enough to be produced in large volumes)
If they are really that good you are right, but there are always a lot of revolutionary advance in lab that never leave it.
Indeed: electric vehicle batteries are lasting even longer than estimated. All the constant breaks from use that the batteries get has been interestingly improving their durability (which makes me think that shutting off our phones for 1 whole day per week or even month could improve their lifespan, even for the 40-80% lithium-ion boundary keepers).
Just make hot swapping batteries normal again like it used to be.
In your ideal scenario would you own multiple batteries and keep them at your house, or are you looking for a subscription service where you would just buy the car (batteryless?) and then go to a rental station to have one put in, swapping batteries when they need a charge?
There actually was a Chinese EV startup that had battery swap stations: drive up onto the system, and the battery is directly under your car; the swap takes <1 minute. I don’t remember what it was called, though, nor if it ever made it.
Update: it’s Nio.
Tom Scott did a video on it. In all honesty, there are a number of things about this system that I just don’t see working well in the long term, but it’s an interesting prototype nonetheless.
https://youtu.be/hNZy603as5w
That’s it: Nio! Yeah, I dislike the reliability on the company, too.
When was hot-swapping batteries normal? What was the backup power source? I’d only ever seen normally swappable batteries where the phone would need to power off and back on.
I’ve never owned a flip phone that I couldn’t plug in and swap the battery with a new one without it turning off. If that wasn’t normal with your phones I’m not sure why, maybe different circuitry?
Regardless making devices easy to repair, and thus open and maintainable was what I was getting at.
Somehow, I forgot about charging cables.
There was one like that in Taiwan for scooters.
It really depends on the charge/discharge conditions that the particular test is using. You can do testing in the lab that is way harsher than typical usage or you can make it easier. In terms of this cycle testing for Li-ion I would say that typically the lab testing would be harsher than real world primarily because lab testing is done between 0% and 100% depth of discharge constantly where most people are charging their batteries much before then and only cycling them at high rates periodically.
True.
You are right, but we should see what they want to demostrate in the lab test: that the tech works or to have a way to make a sensational announcement based on some data ?
If you put that battery on the market, the 6000 cycles still stand or they are only a lab result ?
Aside the harsh or easy charge/discharge cycles, what other condition they tested ? A battery on a bench has different problems than a battery on a car on the road.
That said, if the tech works really has announced, it would be great.
Those are not the metrics that are important for storing wind and solar. Cost per MWh is the important one.
It is great to see, and isn’t an unreasonable jump from lifepo4. They already do 4-6k charge cycles with something like 20% degradation. This is a bigger deal for electronics and vehicles as it would make battery replacements unnecessary.
If all of the claims from Chinese tech companies and research was half as good as they claim we would all learn Mandarin by now.
That is exactly right, and simplified Chinese is actually extremely popular to learn here now. (Denmark)
And no wonder, they have become leaders of several key (future) technologies.
Counter point: I know exactly one person who learned Mandarin and several dozen who don‘t. Pretty much everyone learned english and (to a lesser degree) a third language that isn‘t Mandarin either. French, Spanish and Japanese are popular, though.
IF is doing quite a bit of heavy lifting there.
And yes IF it is as you said HALF that good, in either direction— the article mentioned ~80% under heavy loads. And that alone would be a game changer.
Energy storage is the “oil” of the future.
IF — we shall see. But I’m hopeful