Don Sadoway | Innovation in Stationary Electricity Storage: The Liquid Metal Battery

I was also hoping for a momentum.. unfortunatly the green climate neutral activists wont allow its scaling..

Maybe an adequate physicist but is a failed businessman, entrepreneur, and inventor.

And style.

Don Sadoway is in for a treat! Fuel Free Magnet Motors, have been around since 1710, when Gottfried Leibniz was examining old Mathematical Texts from India, and noticed they already had figured out "The Calculus". Today we call the Johann Bessler "Orffyreus Engine" a Switch Release, Halbach array, Permanent Magnet Motor. Andrew Carnegie got Nikola Tesla to install them at his Steel Works, though we suspect Electromagnets were deplored, as permanent magnets were not as strong back then. Today these Switch Release Halbach array Gantry Crane Hoist Magnets safely lift two tonnes, and are remarkably compact.
Read The Andrew Carnegie Official Biography (Google Books) and learn how he was filibustered out of delivering his keynote speech, at the Steelmaker's Federation Annual Meeting. Andrew did manage to shock the entire audience by saying he could pay his workers three times the scab labour wages of his two main competitors, who were losing money hand over fist selling steel at $14 a ton (Gold was $20 a Troy oz.) and Andrew declared that at the next General Meeting he would explain how Fuel Free Energy allowed him to make a good profit selling the very best quality steel at only $9 a ton....
He never made that speech, because J.P. Morgan on instruction from his Rothschild Bank backers, bought Andrew's Steel Empire out for 4,500 metric tonnes of Gold. In fact only Paper Certificates at 5% Interest payable in Gold Bullion were delivered. "Sue Me for breach of contract, Andrew and you get nothing, your big mistake was going 50-50 with your workforce. they get nothing as well if I declare bankruptcy." In just over a week, it is the Centenary of Andrew Carnegie's departure, from a broken heart! The Bloody World War ended with a new World War looming, and FREE ENERGY buried! 1919.
These Halbach Array Switch Release Engines have gigantic torque. As testified in all the contemporary literature.and eyewitness accounts. The Diamertic polarised cylinder magnets had to be wrapped in cloth to hide the magnetising hammer blows, and were then deceptively referred to as 'Weights" (about four pounds eact) China have all the details now, so as they say "Denial is not a river in Egypt! " and even better China have access to the minerals like Lanthanum, and Neodymium. These motors can also be 3D Printed The NITTO DENKO cold sintering powder is stronger that top grade N-52's. No more phone battery charging very soon.

Successful people practice uneconomical concepts to get rich as plucky off the gullible suckers en masse!

@@bobc3895 What was the name of this company?

Hyperion Industries, Watertown, MA i was lucky because it was a small company I got to do EVERYTHING, big companies tend to keep you in a very tightly strictured cubby hole. i started as a jr technician and worked my way up to engineering and management with nothing more than a high school education in electronics and a willingness to learn.

You are my hero

I wonder...what if he had UNLIMITED funding...

Local dirt.

Sand battery is possible just use salt and water carbon plates

We could have it @@henrygustav7948 , only if we set our minds in the right way and stop with all this bullshit called wars, politic and economic tricks that are played now... Humanity has an enormous potential, almost endless...

there are many concepts of large batteries now the nanoflow is one too
my worries is the patent system buries them to make extra money

Assembly is almost impossible since no one has figured out the bus work on top of the cells (make a bus work that all you have to do is bolt together).

this competing for large storage backup on an industrial scale against gas/oil backup generators and pumping water up a hill, it's not about mobility.
if Li-Polymer batteries can be improved they would be the next step past Li-Ion for mobility - some variations of Li-Ion are expected to be out commercially in the next few years, but none of these are capable on large scales of liquid metal.

think of all the buildings amazon is putting on the market for availability like old K-Marts or old Blockbusters centralized and dirt cheap

One area of transportation which may be suitable for this battery is shipping where weight is less a concern.

I can't see why not. Though it depends on how well the thermal management and insulation works. Ideally there shouldn't be too much heat external, or that would need be replenished in some way, costing energy, as would taking energy out from inside the insulation boundary.
It is swings and roundabouts. However on larger installations it way be feasible, certainly for a heating source.

there you go to
czcams.com/video/qRpQL1vFWLg/video.html

They report that they won't finish the first major commercial deployment until 2023, which is a bit surprising given that they had photos of numerous apparently-working cells in 2016. ambri.com/business/

Alloys are funky things, aren’t they?

Yes but the question is how long can they stay hot and melted salts be viable if they were static with no charge or drain current ?

The numbers I've heard indicate that Tesla lost tons of money on the Australian battery. Given some of the numbers he presented (and by the way he DOES have prototypes running at this point...) -- The smaller cells with on-going stress tests showing the lack of degradation over cycles... I'd put the batteries in a shed in my back yard. The battery in Australia also doesn't really have the problem of cold temperature, where the LI batteries fail if you try to charge them below about 0 C. The solution there is electric heating. But that will take many watts of power.

@@Billblom Probably a better solution is a 'ground source heat pump' style loop combined with good superinsulation in the shed structure. For the running cost of a very small circulating pump with a fan on it, this produces reasonably consistent 55-56 degree at the inside heat exchanger; you could always use some of this as 'source' for a dedicated refrigerator-compressor-sized heat pump running as a "heater" only (no reversing valves and few potential failure points) if you need a higher rate of heat transfer to air.

@@wizlish The ground water is not very far down... Having a 5 to 7 ohm ground reading here (done with a megger) means the water is close by for heating and cooling. Keeping the system "happy" would be easy when the shed is well insulated. I had been looking at a vid where the guy that put together his battery system simply put the batteries in a well insulated box, and lined the box with some heating blankets that drew about 20 watts... The temp was set for 50 on them, so there would be no overheating because of the heat. (Along with a couple of thermocouples tied to a small computer that would turn off the power to the heating system). I need to look into a ground source for the house here.. the installation would be ugly, lawn wise, but would cut the costs of heating and cooling dramatically.

Ummmm you do know a capacitor IS a battery right?

@@BracaPhoto you do know the difference between a capacitor and a battery, right?
They are superficially the same in that they can charge and discharge, but there are other issues that make them different.

They had it at $500 per kWh in the chart for the whole system. That's what current LiFeOP4 battery systems are already selling for. With Lithium batteries still having a chance of a 2x improvement in the next years. They probably have to go back to the drawing board to get them cheaper.

probably bought out by oil cos and retired

Paul Andrews: what advantage or application do you see in using transparent aluminum?

And to Steve Jobs can be attributed the great popularization of 'people want you to tell them the technology they should want'. I suspect the great majority of 'Grid Customers' mostly care that the Electricity Fairy provide ample reasonably consistent electricity at the lowest possible "deregulated" cost, and consideration of storage of "charge/current buffering" as in these large distributed-meighborhood projects (the GURL system of space conditioning is another example in a different field) requires more careful education to prioritize.

Think about it geometrically: the volume grows by the law of cubes, but surface by the law of squares.
There is heat to maintain in these batteries for them to keep functioning and putting out power, whether they’re actively being used or not. Perhaps a different type of battery can be used to do the initial heating. But, what is unclear to me is how much of the potential output requires heat as input.
If used in electric cars, oddly, it’d make the most sense in always-rolling vehicles that keep getting charged many times per day due to being used heavily. For your typical family car, I believe it’d have too much heat loss to make a lot of sense, which would also require a lot of power for recharging them. However, on the bright side, no battery fade in the lifespan of the electric car driver, especially of a family car!
And, as explained in the video, it’d be even safer in an accident or puncture: no thermal runaway, it’d just seal itself as it cooled. The biggest risk in my assessment would be how much insulation got damaged, and the latent heat setting off flammable things such as dried grass and leaves.
Current electric car battery round trip efficiencies are around 95% according to a web search, and thermal management is required for them as well, but to keep them from degrading, so they also discharge over time when not actively being used. As long as the charging costs are lower than gasoline, it’s still a win for the charge/refuel equation. What I don’t have numbers on are the weights of the various liquid metal battery chemistries for their energy storage: I suspect they're notably heavier, so that may not work in their favor for cars and efficiency,

He's a fraud. He doesn't have the technology yet. He admits that pumped hydro is cheaper and it's just water in a damn Dan.

www.greentechmedia.com/articles/read/ambri-is-still-alive-and-chasing-its-liquid-metal-battery-dreams#gs.s9JbZBSK

But he gives the answer to this in the lecture. The first and main investor was TotalFinaElf. The oil and gas company. They bought in, to squash this project, the O&G companies do this all the time. I worked for Chevron and you wouldn't believe how many alternative energy patents they own - all bought from original inventors. Just to make sure they never make it out into the world.

You are dreaming if you think this will come to market before 2050

@@karlp8484 Sir, IMO, the only problem with this "theory" is that patents only last from 14 to 20 years. After the patent expires, the technology is public and can be used by anyone so, if the technology is viable/valid, why haven't private investors taken this to market?
If there really was a 150 mpg carburetor out there (like I heard back in the 70's), one would think some car company, like Chrysler back then, GM or a independent, when it was going broke would market it?

ampere-hours are a pretty standard measure of battery performance, so perhaps think of this as the same 'legacy' as American preference to express engine power in hp instead of kW.

No, there isn't. Much electrochemistry is only concerned with the charge that is moved, which is directly measurable in amps (i.e. cumulative coulomb transfer) and not the rate. Hence you commonly see battery ratings in amp/hr and not "watt-hour". At least part of this is that the output voltage observed in many practical battery chemistries is dependent on the state of 'charge' and may vary substantially depending on the rate or state of discharge. Be careful when comparing primary electrochemical battery design to reversible storage batteries, too.

It's not for cars!!! It's for the Grid.

weight

He stated that it is capable of very high current density. In other words, power can come out quickly. Unlike the Lithium Ion Batteries in the Tesla, you can increase the capacity of the Aluminum/Antimony battery by making a bigger pool of Aluminum and a bigger pool of Antimony. And if you make the capacity very large, then it will take you a long time to discharge it. So how quickly you can discharge it depends on how big those "pools" are.

@@jwestney2859 Keep in mind that in a circulating battery, charge density can be independent of discharge rate. So 'how much charge is in the battery system" is very different from "how much" or "how quickly" can I get charge out of the battery as circuit electricity. 'Current density' here refers to the part of the structure that does the latter, and it's important for charge rate, but part of the idea here is that the 'charged' liquid can be continuously circulated out of the actual 'electrochemical' structure, at which point it has become a 'carrier fuel' as much as, say, syndiesel or liquid products of hydrogenation, and theoretically stored and pumped much as liquid fuels are.

Part of the reason it's designed to be stationary is the high temperature -- see the history of sodium/sulfur batteries for a parallel. (PS: modern nanoinsulation either with multiple shields or aerogel has made sodium/sulfur an attractive chemistry for many portable applications again) An assumption for 'grid' power is that you use the storage to even out the cyclical supply from many kinds of renewable, so you don't 'cycle' the battery temperature once it is brought to operation. Means to heat a cold battery up to operating temperature might be considered as transient as full blackstart at conventional primary generation plants

Nice work

Little known fact: poorly maintained ice makers can incubate and spread disease.

@@NibsNiven Interesting... any supporting links would be appreciated

He told us. The charge/discharge activity, there are no heaters and zeolite insulation in the steel case is there to lower heat loss and cause cells to heat faster into their more efficient range. No gasses are generated, so nothing to vent. WHAT'S NOT TO LOVE HERE?

@@bobspafford3519 Brings me to another question, the cells must not be run at steady state? ie they must be charging or discharging to keep internal heat at temp and not at "constant voltage" per say?

you just charge them and they get hot.

You don't have to 'restart' a frozen battery, you just have to thaw it to where the charge carriers in the electrolyte can actually move (this being at a lower temperature than the nominal phase change of water around 32 degrees F)
Part of the 'historical' problem with frozen batteries is that water expands when it freezes, and this can damage the internal structure. Another part of the problem is that 'charging' a frozen battery doesn't automatically "melt the freezing" first and then proceed to fill up the capacity. One of the 'paradigm changes' with these circulated-electrolyte batteries (where so much of the "charge" is in the distributed reservoir and not in the 'battery' section that actually moves electrons in circuits) is that you can relatively easily drain them (into an insulated and/or heated 'tank') if they are not being used, or subject to freezing, and then refilled at need, so the issues with trying to charge ice don't ever practically arise...

At the current rate of progress, NEVER. Too many problems exist.

That’s was my take.
There’s a lot of solar being added ad hoc. ie, without benefiting master planning, or any planning. So rapid absorption and return is key.
Almost like a capacitor. And he pointed out that a design goal is diurnal, not like continually storing power for winter.
So I think that there may be an environmental condition of warmer climes, or underground.
Either way, this a 3 yr old presentation. So it’s something to catch up on.

Doesnt the Powerwall need an active internet connection to work?

@@pjpa305 ??? Why would it need ANY connection to ANYTHING? With a Powerwall battery of sufficient size, you can be completely off-grid. That is actually how millions of homes today already are.

@@billdale1 That is why I asked. I watched a review on it recently. And that was a major complaint. That because it needed connection to Tesla's servers to operate, that if the grid goes down, your "off the grid" power also goes down. It would be a major draw back of the power wall for me. Hence my question to someone who owns one...

. PJ Pa No. Internet connectivity is only needed to read the battery's state and change parameters. It can charge and discharge independently.

@@tomswiftTTT Thanks Mike!

Wonder why?

Rate of reaction has to be faster by individual cells

Yes. I'm wondering in scaling to the extent of using concrete enclosures, with suitable refractory and steel linings. As he said the larger the more efficient and he also reported relatively low pressures.
It is a very interesting idea.
I'm sure that given some experimentation with Bismuth and some other similar metals they will find lower temp metals that will make the cells more efficient.
I'm thinking in particular of the many different low melting point Bismuth alloys, such a fields metal, etc. There are also quite a number of different Lead alloys with different melting points. I'm sure there will be a few recopies that could yield some improvements.

But smoke and mirrors

Negatively

Ich dont think so. I mean Vanadium is an example of non abundant element and is expensive.
In this case I could envision something like pumping the Mg and the Sb and solidify/freeze dry them (respective the MgSb alloy into solid) for storage. And later you can remelt them when needed
Anyway flow batteries are a technology as batteries with certain pros and cons. You could also be tempted ot say that batteries are not going to make it because capacities are too small or materials too expensive. Also, cell voltage versus iR drop in the electrolyte I think is important for the overall efficiency.
Molten salt doesnt have a high reisistance, plus as he said reaction velocities are much increased at higher temperatures and I really do think that a molten metal flow battery could eventually be one of many possible solutions