How the US Gave Away a Breakthrough Battery Technology To China (npr.org) 80
An anonymous reader shares an excerpt from a report via NPR: When a group of engineers and researchers gathered in a warehouse in Mukilteo, Wash., 10 years ago, they knew they were onto something big. They scrounged up tables and chairs, cleared out space in the parking lot for experiments and got to work. They were building a battery -- a vanadium redox flow battery -- based on a design created by two dozen U.S. scientists at a government lab. The batteries were about the size of a refrigerator, held enough energy to power a house, and could be used for decades. The engineers pictured people plunking them down next to their air conditioners, attaching solar panels to them, and everyone living happily ever after off the grid. "It was beyond promise," said Chris Howard, one of the engineers who worked there for a U.S. company called UniEnergy. "We were seeing it functioning as designed, as expected." But that's not what happened. Instead of the batteries becoming the next great American success story, the warehouse is now shuttered and empty. All the employees who worked there were laid off. And more than 5,200 miles away, a Chinese company is hard at work making the batteries in Dalian, China.
The Chinese company didn't steal this technology. It was given to them -- by the U.S. Department of Energy. First in 2017, as part of a sublicense, and later, in 2021, as part of a license transfer. An investigation by NPR and the Northwest News Network found the federal agency allowed the technology and jobs to move overseas, violating its own licensing rules while failing to intervene on behalf of U.S. workers in multiple instances. Now, China has forged ahead, investing millions into the cutting-edge green technology that was supposed to help keep the U.S. and its economy out front. Department of Energy officials declined NPR's request for an interview to explain how the technology that cost U.S. taxpayers millions of dollars ended up in China. After NPR sent department officials written questions outlining the timeline of events, the federal agency terminated the license with the Chinese company, Dalian Rongke Power Co. Ltd. "DOE takes America's manufacturing obligations within its contracts extremely seriously," the department said in a written statement. "If DOE determines that a contractor who owns a DOE-funded patent or downstream licensee is in violation of its U.S. manufacturing obligations, DOE will explore all legal remedies." The department is now conducting an internal review of the licensing of vanadium battery technology and whether this license -- and others -- have violated U.S. manufacturing requirements, the statement said.
The Chinese company didn't steal this technology. It was given to them -- by the U.S. Department of Energy. First in 2017, as part of a sublicense, and later, in 2021, as part of a license transfer. An investigation by NPR and the Northwest News Network found the federal agency allowed the technology and jobs to move overseas, violating its own licensing rules while failing to intervene on behalf of U.S. workers in multiple instances. Now, China has forged ahead, investing millions into the cutting-edge green technology that was supposed to help keep the U.S. and its economy out front. Department of Energy officials declined NPR's request for an interview to explain how the technology that cost U.S. taxpayers millions of dollars ended up in China. After NPR sent department officials written questions outlining the timeline of events, the federal agency terminated the license with the Chinese company, Dalian Rongke Power Co. Ltd. "DOE takes America's manufacturing obligations within its contracts extremely seriously," the department said in a written statement. "If DOE determines that a contractor who owns a DOE-funded patent or downstream licensee is in violation of its U.S. manufacturing obligations, DOE will explore all legal remedies." The department is now conducting an internal review of the licensing of vanadium battery technology and whether this license -- and others -- have violated U.S. manufacturing requirements, the statement said.
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The issue seems to be the licensing, not the tech.
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The issue seems to be the licensing, not the tech.
Why does the licensing matter for a product that no one is going to buy?
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Re:Vanadium is expensive. (Score:5, Interesting)
Re:Vanadium is expensive. (Score:5, Informative)
Vanadium is a byproduct of steel production, and China produces most of the world's steel.
A smaller amount of vanadium is a byproduct of uranium mining.
China is the biggest producer of vanadium by far. Russia is the 2nd biggest. Then South Africa and Brazil.
LOL whatnow? (Score:1)
Vanadium is a byproduct of steel production
LOL whatnow?
Vanadium is added to steel to make stronger alloys you moron.
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That said, there are other forms of batteries and certainly plenty of money is currently being invested into building better batteries.
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LOL. citation needed.
Citation:
https://www.sciencedirect.com/science/article/pii/S2590238520306780 [sciencedirect.com]
https://www.wsj.com/articles/chinese-demand-for-stronger-steel-makes-vanadium-a-hot-commodity-11545912002 [wsj.com]
https://smallcaps.com.au/china-new-vanadium-steel-rebar-standards/ [smallcaps.com.au]
https://www.mining.com/web/demand-for-steel-alloys-grows-as-the-energy-transition-gains-momentum/ [mining.com]
Vanadium without mining Re:Vanadium is expensive. (Score:1)
Vanadium and Uranium can be extracted from the ocean
https://www.osti.gov/pages/bib... [osti.gov]
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This story is a big nothing because vanadium is expensive. It doesn't matter if the battery is perfect when it costs boatloads more than the competition. The price of vanadium has increased since then and the price of lithium-ion batteries has decreased.
"The batteries were about the size of a refrigerator, held enough energy to power a house, and could be used for decades..."
Speaking of boatloads, I wonder just how many lithium-ion batteries it will take to cover decades of battery power.
Nothing of value was lost.
Ah, but plenty of value was gained by those pimping the competition. New cars have gone from expensive to fucking obscene in price, with demand pushing sales above MSRP, so perhaps we stop pretending people don't invest in things that serve them for decades.
Re:Vanadium is expensive. (Score:4, Informative)
Although the NPR article is reasonably well written without getting deep in the technical weeds, their description and your interpretation of it are conflating a couple of things.
In particular, the vanadium battery doesn't contain enough energy to cover a house's needs for decades. (No chemical storage method could do that in the volume of a refrigerator. A small nuke could...) What they mean is that the battery itself is durable enough for decades of charge/discharge use. This would be several-to-many times the service life of a Li-ion battery of comparable capacity (depending on a host of factors, like the manufacturer, depth-of-discharge, daily usage profile, etc.)
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Although the NPR article is reasonably well written without getting deep in the technical weeds, their description and your interpretation of it are conflating a couple of things. In particular, the vanadium battery doesn't contain enough energy to cover a house's needs for decades. (No chemical storage method could do that in the volume of a refrigerator. A small nuke could...) What they mean is that the battery itself is durable enough for decades of charge/discharge use. This would be several-to-many times the service life of a Li-ion battery of comparable capacity (depending on a host of factors, like the manufacturer, depth-of-discharge, daily usage profile, etc.)
Yes, I know that. I'm not sure why you assumed I wasn't identifying this exact type of value-add. Having a battery last decades replaces a lot of other types of batteries that you would be replacing many times in that same timeframe due to charging cycles. There is considerable value with that.
Not to mention the largest cost in batteries today, which is the obscene amount of waste.
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If I'm looking at the right contract, and commodity contracts are written in the most stupid way possible so I might not be, It looks like vanadium oxide flake is ~$18/kilo. 2/3s of that is oxygen, so spitball it at ~$60/kilo of refined metal if the reduction process is free. (It won't be.)
It's right next to Titanium on the periodic table, and Titanium is a right bitch to reduce to the base metal. My wager is that chemistry is takes it from small e expensive to capital E expensive.
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Oh really? I didn't realize that. Compared to Cobalt or Nickel it's cheap as chips then. Is it patent encumbered?
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You only need a few kilos of Uranium and not every household needs one.
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1) Depleted uranium is a valuable byproduct of the uranium refinement process making fissile Uranium is much cheaper.
2) Like the other poster implied, a small amount is used for many people.
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What the summary doesn't state. (Score:5, Interesting)
If you read the article it's because of lack of funding from the US, or from US investors who wanted immediate returns. The only people who wanted to invest were the Chinese, and because of the fact that Chinese have all the infrastructure and manufacturing capabilities already in place.
Re: What the summary doesn't state. (Score:2, Insightful)
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It's literally the whole point of the last section of the article. There's a US company that wants to get involved with the technology again, but they can't get a license from the DOE.
Re: What the summary doesn't state. (Score:2)
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So it seems like nobody in the US wanted to spend money to develop this product long term and are now unhappy that China has people willing to risk the money to develop and wait years before they get a return.
Sounds like US does not want anyone attempting to develop the tech if noone in the US wants to.
Noone here wants to take a risk, so you can't over there as well?
Keep on thinking about only the next quarter, very soon you will see there is nothing of value left.
See? (Score:2)
I wonder who made money out of it...
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No one, because no one wanted to invest in it in the first place, at which point it was literally worthless.
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Not a new technology (Score:5, Informative)
Re:Not a new technology (Score:5, Informative)
An Australian university got a patent on a particular design in the 90s. "The next great American innovation" seems a little naive.
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Turns out the Japanese were installing Vanadium batteries at wind farms 10 years before these guys supposedly got together in a parking lot to build one too.
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The story seems to be mainly about a lack of interest in the USA, in contrast to China.
America's interest in battery in the grid is well known, but the story here is that the US government sold technology to China. This is monumentally stupid. The actual smart thing would be to keep the technology and sell the resulting product and expertise to China.
And this is one of the reasons why the USA will be left behind technically. With other countries actively investing in green technology (and not just relying on Elon to build a funky looking car) the expertise to build out such technologies will
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They sold technology that has no real future for now. Technology that is being desperately greenwashed in spite of being toxic as hell and prone to leakage, massively overweight for energy it can deliver and exceptionally expensive.
About the only use we can think for this technology is "if vanadium ever becomes super cheap, we could use it as sorta kinda remote grid battery by trucking charged cathode and anode in and discharged cathode and anode out". That's it.
China likely bought it for the same reason Ch
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I can, with my meager chemical engineering experience design a vanadium battery for gigawatt-hour capacity. This is applied 1930s pumping technology with 1990s material science. Heck, you're an idiotic china troll, and even you could probably design basics of one.
Problem is that it's a shitty solution all around for that purpose. It's exceptionally expensive for what it does, it's going to be plagued with leakage and toxicity problems of the kinds we get in those batteries today where it's just toxic enough
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Not a breakthrough battery technology again... (Score:1)
Very few of these technologies ever make it from the front page of Slashdot to our homes, it seems. So, color me sceptical. Perhaps the Chinese haven't learned this yet.
If they're onto something, good for them.
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Bro, do yourself a favor and do a search for "battery density graph over time." There have been massive improvements in the batteries in your home, unless you have the same batteries in your home that were working 20 or 40 years ago. In which case you should let us know what kind of alien technologies you have.
Yet Another Better Battery (Score:1)
Not unusual for the USA (Score:5, Interesting)
Even though this is another example of Trump saying he is going to take care of China, and then giving a ton of business to them, it isn't unusual American behaviour. To be fair, the USA (and Canada) has done stupid shit like this over and over. Much of it due to the investor global economy that has existed since the late 1990s; and accelerated when Clinton gave China 'most favoured nation' trading status, after he said he wouldn't during his election campaign. The original flat screen technology was developed in California, and when no one in America wanted to invest to develop it, Korean companies stepped in. Why do we allow ourselves to be shot in the foot over and over.
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If it's any comfort you are not alone. The UK has sold off almost everything of value. Not just the IP, the companies too.
What is the ramification of cancelling the licence? I'm guessing they won't stop producing batteries, but maybe they won't be able to export them to the US.
Define "Breakthrough Battery Technology" (Score:1)
Which was sold 10 yrs. ago and has not started a revolution yet, so did not "break through" anything and in consequence cannot be categorized as a break through technology, rather than a technology formerly thought to have break through potential.
If it would be a break through we would have been flooded by chinese Redox-Reflow Batteries by now.
Just setting aside that the Vanadium Redox-Reflow Battery are used in experiments and even on the demonstrator level.
But the only advantage this technology has is tha
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There are some other benefits. It seems to be a very robust battery, will basically go forever. At scale it sounds like it should be cheaper than alternatives.
There are some big ones in China, Japan, Germany and a couple in the US.
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But the only advantage this technology has is that in theory its capacity can be easily scaled (just a bigger tank)...
AFAICT from a quick Google search, the response time of vanadium redox batteries to a 100% increase in load is something like three orders of magnitude lower than that of lithium ion batteries. That's important in grid storage applications.
Apparently, there are also many more important advantages of vanadium batteries [renewableenergyworld.com] - not the least of which are that they're much safer and they basically last forever.
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Which is why you don't go for information to green propaganda pundits (hint: it's in the website's name), but to people actually working on the technology.
Vanadium batteries have exactly one advantage. The fact that both cathode and anode are liquid. You can pump them, you can tanker them, you can even pipe them.
Problems range from "safe" vanadium being toxic and being in liquid form, having a tendency to leak if deployed at scale, to hilariously low energy per weight, to vanadium being a very expensive met
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Pretty much no one is using them at any meaningful scale. There are a couple of prototype setups, none of which have gone anywhere meaningful. Like mentioned above, this is a technological dead end for now.
The main reason why we set those prototype facilities up is because liquid state of both cathode and anode theoretically allows us to plug vanadium powered things into modified pipe/tanker networks we use to ship oil distillates. I.e. you could hypothetically ship charged anode and cathode via a tanker tr
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Which was sold 10 yrs. ago and has not started a revolution yet
There are many technologies which did f-all for the first 10 years of their development and none the less completely changed the world. No I'm not suggesting that this will but your arbitrary time limit is not part of any definition of "breakthrough".
For the record Lithium batteries were invented in 1912. It would be another 70 years before some of the kinks were ironed out leading to the development of the lithium battery as we know it, and another 30 years after that before they become common place.
Even t
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The main "kink" in question being controller. I.e. transistors needed to develop to be able to manage the battery while not consuming so much power in process of said management as to make battery useless as a source of energy.
"Kinks" in vanadium batteries are nothing like that. This isn't a "battery chemistry that offers a theoretical breakthrough if only we could control the charging and discharging values accurately enough in real time". This is a "fundamentally unsuitable battery chemistry due to things
Let's hoard carbon reducing technology. (Score:1)
American? Ha. 10 years ago? Ha. (Score:1)
Patented 1986 in Australia.
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And if that were the end of it we'd see them everywhere. Back in reality just because you invent an underlying technology doesn't mean it can be used without further development, innovation, and possibly even additional patents. Kind of like how the Lithium battery was invented in 1912 but practically useless until further invention made them practical in the 80s, and even then completely useless for smartphones until Sony invented a process to make them the electrolyte solid 20 years after that.
No one give
Bad for the US, good for the world (Score:2)
If that tech is so green and great, then it needs to get out as soon as possible.
And the way I understand it, China overtook the US, and for me, it simply means that China is better qualified to implement it. Even if it was given to them, the US still had a head start, they should have stayed ahead, but didn't. That's the real problem, the question shouldn't be "how come the US gave that tech to China" (with ways to prevent it), but "how comes the US couldn't do it as well as China" (with ways of improving
Somebody should lose their job and go to jail (Score:1)