>Ambri is a Boston-area startup that’s building molten-salt batteries from calcium and antimony. The company recently announced a demonstration project deploying energy storage for Microsoft data centers, and last year it raised over $140 million to build its manufacturing capacity.
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>The company says its technology could be 30-50% cheaper over its lifetime than an equivalent lithium-ion system. Molten salt batteries can also exceed 80% efficiency, meaning that a relatively low amount of energy that’s used to charge the battery is lost to heat.

The following submission statement was provided by /u/Apart_Shock:

>Ambri is a Boston-area startup that’s building molten-salt batteries from calcium and antimony. The company recently announced a demonstration project deploying energy storage for Microsoft data centers, and last year it raised over $140 million to build its manufacturing capacity.
>
>The company says its technology could be 30-50% cheaper over its lifetime than an equivalent lithium-ion system. Molten salt batteries can also exceed 80% efficiency, meaning that a relatively low amount of energy that’s used to charge the battery is lost to heat.

Please reply to OP's comment here: https://old.reddit.com/r/Futurology/comments/yzqa4q/superhot_salt_could_be_coming_to_a_battery_near/ix1eqm7/

Is this the same kind of salt that is found in the ocean?

Yeah, it stores the energy as heat. I believe it's harder to get it started but easier to stay charged

Pretty sure it is. That was the goal behind the tech, and it's gonna be revolutionary, especially for the power grid!

Nope.

Ocean salt is sodium and chloride, these are calcium and antimony.

The term "salt" by itself is very general, I wish it was used less.

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Well "salt" describes essentially a form of chemical bond. And there's tones of chemicals that form via that type of bond. If you get into the material science, the different salts will have specific names to denote their chemical formula.

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Reading the article, I felt like the person who has to scroll through pages of “It was a cool fall morning when a whiff of spice drifted through the air…” just to get to the damn recipe!

Sigh this seams like an awful idea first if the battery breaks wich batteries do all the time you have molten salt in your room. Second the molten salt battery has been tried before in the Nevada desert in a massive solar power plant and it was plagued by issues so be very very very sceptical.

No, it does not store the energy as heat.

When an acid and a base love each other very much…

This is a totally different thing than molten salt solar. It’s a calcium and antimony salt first, and it’s storing chemical energy, not energy as heat.

Salt is the result of violent, hate-sex between Acid and Base.

Wow this comment is gold and made me actually laugh out loud and say wtf

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Saving this for when the dudes that did it mysteriously disappear

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I hereby designate this the official “They’ve invented a new type of battery that will change EVERYTHING but about which you will never hear anything again” article for November 2022. Come back next month for a new article proclaiming a different new battery technology.

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Weren’t molten sodium batteries already a thing and proven to be really bad convenience-wise. Like, I think the Th!nk City had a molten sodium battery and they later changed to Lithium Ion because if you left the car sitting unplugged for too long (even if it had plenty of range) the battery would solidify and permanently kill itself.

Of course, the main claim of this article was that it’d be useful for grid backups. It makes sense in theory. The battery would only be “unplugged” when it’s being discharged and used, but I still can’t help but feel like a battery that has a time limit alongside a capacity limit is a bad idea, especially in an emergency situation. Also, places with extremely cold climates or bad winters would be even worse off.

Yeah, there are systems that use molten salt to store heat, so I understand the confusion . . . but this isn't one of them, it's a chemical process that only functions at high temperatures.

I hope some intelligent car maker puts popcorn kernels inside the hot salt batteries. Accidents suck, but suck less with fresh popcorn.

This comment is pure cesium auride.

I came here to repeat a preceding comment with different wording. All of y'all beat me to it.

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Seems like that's a matter of just building the battery so it turns on if it's ever getting too cool to run up some heat. Not efficient for things that might sit inactive for a while but I'm sure it has uses

Calcium and antimony can probably be found in the ocean though ;-p

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It's molten-salt again, next month they bring back the old "cold fusion is only 20 years away" bit.

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Right and the cell size is pretty irrelevant since that doesn't impact usage just replacement, etc.

Main use would likely be supporting large scale solar / wind that can suffer outages but this specific usage and tech seems to be really early.

Cold climate likely isn't much more than extra cost for insulation or external structure.

Calcium and Antimony would make great names for a couple in a Greek tragedy. They can probably be found kissing in a tree.

https://youtu.be/YQm7EEnN-0E

Are the ingredients available domestically? As opposed to Russia China or Africa?

Hahaha. Same, you have to scroll to the last 1/5th of the blah blah to get to any information.

A salt in battery. Seems like dangerous technology.

I thought that was skrillex

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> Weren’t molten sodium batteries already a thing and proven to be really bad convenience-wise.

Yup, Aging Wheels did a video on the Th!nk City and mentioned this issue. Basically, if you left your Th!nk City unplugged overnight the battery would freeze and stop working until you re-melted the sodium (by charging it).

So usable in warmer climates if you regularly plugged it in but otherwise a bit of a hassle.

It's exciting to observe battery wars. Whether you like electric cars or not, energy storage is crucial for humanity survival in a long run.

Calcium can be found anywhere, is a component of limestone, chalk and marble.

China is the largest producer of antimony

Molten salts really taking off lately. Problem is they're kinda difficult to work with and test, but these problems are getting worked out. Energy output from salts is IMPRESSIVE and would be a game changer.

There was a car with a molten salt battery IIRC. Thing wouldn't work if you left it unplugged over night.

Yes of course, sorry, bad pun.

No such thing as a bad pun.

I've heart of this long before and we are still waiting. I guess, the new battery technology is not that easy at all.

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But it would be great with different manners. For instance, the German Energiewende.

no, that was brilliant. thank you

The next step is to evolve the process to work on acrimony instead of antimony.

Once this occurs it’ll finally make sense why Elon purchased twitter and is a genius.

I thought it was normal fusion being 20 years away*, with cold fusion being further?

*I know fusion has been achieved but it doesn't go on long enough to produce meaningful amounts of energy yet

A salt battery already went bankrupt. Maybe this one will be better but probably not.

https://en.wikipedia.org/wiki/SolarReserve

The engineers from Think still think of salt batteries fondly because of how stable it was compared to other battery chemistries. Made it a lot safer if you crashed.

A buddy of mine once said sometimes you can tell when an article is written by someone went into journalism because they couldn’t hack it as a self-published author, and I think about it a lot

Suer hot and 80% efficient must mean its also super insulated. For reference lithium batteries can be up to 99% efficient. I guess efficiency becomes less important if the power comes from renewable sources and the batteries are cheap. When excess renewable energy is available it makes absolute sense to use it rather than waste it.

It's also in bones and seashells, the former of which is almost certainly a byproduct of the animal agriculture industry.

It might be a good way to reduce waste.

I’ve been reading about Ambri for a few years now. This isn’t at all new. I’m pretty sure I even found out about the company through Reddit.

Ambri aren't salt batteries, but liquid metal. Why is this article calling them salt batteries?

Ugh. These things are extremely large and would be deployed on industrial sites, not your bachelor pad.

Why can't it be an ongoing story? They're starting to see uptake, and it's an important tech to keep an eye on.

Oh my god I didn't even get it. Well done.

> new type of battery

Its not even that. This is ww2 era technology and the theory existed well before that. 90% of the 'new battery technology' you read about is simply reintroducing the wheel to people who havent heard about it yet for clicks (and to milk investors). 90% of the remaining technology discussed in articles is stuff that will never work outside a lab environment and the 1% thats left might one day be interesting but is mostly just minor improvements on existing technology.

Unfortunately not. Recovering the calcium from bones and seashells is extremely costly and labour intensive as the raw materials don’t contain it in the form you want to have it. At the same time we have huge ressources in all sorts of calcium rich minerals and you don’t have to worry about any organic contaminants.

But I could imagine we are using bone meal as fertilizer and calcium supplement

It's kind of different though, molten salt "batteries" before this were really thermal storage, while this is regular old chemical storage. That means no moving parts, just sit it in place and use it like any other chemical battery.

The downside compared to most other batteries though is that the operating temperature is hundreds of degrees. The batteries need to be "thawed" before use, and if they ever freeze (which they will if they aren't used, they are insulated but still need to use the waste heat from charging/discharging cycles) they need to be thawed again. You can do this just by running power through them, but it takes a lot of energy.

These could be legitimately groundbreaking for 24 hour cycling if coupled with solar in regions with very few cloudy days, but they can't be used for anything the way lithium can.

Slight correction, it’s less about melting the sodium than melting the salt (the electrolyte) here. Whilst the battery could perfectly handle the electrodes in a solid state, unfortunately most solids conduct ions barely at all - which also is the reason why developing solid state batteries is so hard

Because there’s no difference between „liquid metal“ and molten salt [batteries]. Except if you use near room temperature melting eutectic alloys as one electrode, the metal melting is merely a „side product“ of using a molten salt electrolyte

> with cold fusion being further?

Cold fusion is in the realm of "impossible" with an asterisk of "kind-of possible but not the way people think" as muons can be used for fusion, but creating muons uses way more energy than the fusion they can create.

Cold fusion as in getting two regular atoms like H + H to fuse together without having mind-blowingly high pressure and/or heat is not possible.

But they're not salt. Ambri is high temp metal in liquid phase, transforming from an alloy and back.

High temperature is necessary to enable the transformation between states. The system must always be molten. The process is reversed by reversing polarity. One way it inputs electrons, the other it outputs electrons.

Molten salt batteries are literally molten salt, the heat is used to heat steam to turn turbines.

None of the literature or videos on ambri mentions salt at all.

Normal fusion was 50 years away to begin with, in the 1950s. In the 90s, people were saying 25 years. Now they're saying 10. The facetious jokes and reality are converging on a point about 15-20 years away.

Incorrect. Previous designs stored energy as heat, this stores energy as a chemical reaction that requires heat.

Every new technology has kinks that get worked out over time. We'll get there, and when we do it'll be great

I see what you did there. :)

That’s how they getcha!

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Yup, cost is a big factor. 100% efficient batteries costing $40,000 or 80% efficient for $3,000 ....i ll go with the $3,000.

ITER which is never going to produce energy to grid isn't planned for full operation until 2035. So it's gonna be up to next phase to actually build reactor that will produce electricity. Fusion isn't gonna be reality until at least 2080

Thermal salt batteries do indeed exist but not all molten salt varieties are of the thermal kind. Check out the zebra battery for example, a very much 'chemical' molten salt battery form the 80s.

No, you are factually incorrect here. Molten salt batteries, as the name implies, are still batteries aka galvanic cells.

Or as wiki itself puts it: > Molten-salt batteries are a class of battery that uses molten salts as an electrolyte and offers both a high energy density and a high power density.

The Ambri cells ARE molten salt batteries, that doesn’t imply anything about the state of matter for the electrodes. The cells have a molten salt electrolyte (obviously, there aren’t many alternatives at these temperatures) and have at least one molten metal electrode. It doesn’t matter if it’s direct electrodeposition or alloying. Likewise Aluminium ion batteries would still be that, no matter if they use tin metal to form an alloy or if they use direct electrodeposition from say an ionic liquid.

And to back it up additionally, see Wiki again:

> Ambri, Inc. is an American startup company which aims to produce molten-salt batteries for energy storage in wind and solar power systems.[1] In 2016 it had thirty-seven employees.[2]

But thermal energy storage by utilizing the infinitely high heat capacity during solid-liquid transitions of salts is definitely a thing as well.

I feel like it would be more practical to use these batteries as part of a renewable energy power grid for storage for night time use and times with low wind. Need giant storage capacity for cheap and it will likely be more feasible than lithium.

Who's talking about ITER? Compact spherical tokamaks are racing ahead, due to the scaling law P ∝ B^4 * r^3 (oversimplification, but those are the proportions). High temperature superconductors have increased in current density and come down in cost so much since ITER was specified in the 90s they couldn't have anticipated the leapfrogging currently going on. STs can iterate faster for the same because their magnets are more powerful, so can be more compact for a given target power output. While ITER won't ignite for decades, Tokamak Energy and the like have already built several experimental reactors and Q > 1 in the lab within 10 years.

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Dammit, so still dependent on a less than friendly country

In Denmark they are re-furbishig an old coal power plant to store enerygy from wind and solar power with hot salt.

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Don't get me wrong I want fusion to happen asap but what I'm trying to tell is to curb your expectations

Molten salt shows promise when weight and volume are not a big issue. But they arent and energy dense as lithium batteries

Is this more efficient than some kind of fly wheel energy storage

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Molten salt batteries are nothing new they just have low energy density and have long heating phases. But very cheap and efficient like the article states. But theyve been around for years before liion

> The batteries operate at high temperatures, over 500°C

Does this mean they gotta be heated at over 500 degrees C, or that they're producing heat. In the first case that sounds like a pretty dumb idea for a lithium alternative, but in the second that'd be revolutionary!

So which one?

And what I'm telling you is you're being too pessimistic. I'm not coming at this from an uninformed position, I do understand the challenges and the progress being made.

Damn, I was really hoping this could be an antidote to desalination concentrating salt in the ocean

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..then comes Calcantimonium in the baby carriage

I don't know, with the way things are going with Twitter right now that purchase seems to be very anti-money.