The FUTURE Of Green Ammonia: Is THORIUM The Answer?

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⚡ Welcome back to our channel! Today we want to tell you about a small group of innovative companies which have come together to prove that green ammonia can be produced affordably ⚡
Today, electricity only accounts for approx. 20% of the world's combined energy consumption, whereas energy for industrial use, fuel for cars, ships, planes and heating your home make up for the remaining 80%.
That is a lot of energy that needs to be transitioned to green energy, which in many cases cannot be done by renewable energy.
In the few places where diesel is being phased out, ammonia will become an ever-increasing part of fuel consumption as this can be used for the mining, transportation, and shipping industries, to name a few.
Green ammonia can therefore be used for some of the hard-to-abate industries.
This project combines the knowledge of the old industry-leading companies Topsoe, Alfa Laval, Aalborg CSP, Pupuk Kaltim and Pertamina New & Renewable Energy and our molten salt reactor technology.
Want to help? Consider sharing our videos, subscribe to our channel and turn on the notification bell to stay updated on the latest developments on the Copenhagen Atomics waste burner. It helps us grow our business and technology if the channel keeps growing.
🌍 Learn more about our company: www.copenhagenatomics.com
📣 Follow us on Linkedin: / copenhagen-atomics
Chapters:
00:00 - The Problem: CO2 Emissions
00:30 - Introduction to Project
01:02 - Nuclear technology
01:24 - SOEC electrolysis
01:47 - Desalinated Water
02:14 - Other Green Ammonia Projects
02:47 - Collaboration on Innovation
03:57 - Market for Green Ammonia
04:44 - Summary
#technology #nuclear #thorium #innovation #renewableenergy #nuclearenergy #nuclearpower #greenhydrogen

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Опубликовано:

19 июн 2024

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Комментарии : 65

@philipkudrna5643 10 месяцев назад

I have been following Copenhagen Atomics for some time now and it seems that they are making serious progress and that this is not only CGI stuff in some nice presentations. I wish them all the best and I hope they can contribute to a cleaner environment in the future!

@chapter4travels 10 месяцев назад

"they are making serious progress" How do you know? They sound very positive in their presentations but I haven't seen anything real...yet. Maybe you have and I've missed it.

@philipkudrna5643 10 месяцев назад

@@chapter4travels I don‘t have any special knowledge, but at least their gradual approach to the topic seems realistic and not utterly over-optimistic - and in their recent videos, it seems they are really working on real stuff, not just CGI: ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE-kwLXxgyUw7o.html Can we be sure, it‘s not fake? Of course not. But at least their timelines seem realistic and they can also provide for collaborations with other renowned firms (that will most likely also have done their due diligence before entering into the collab). It‘s a pitty that they have to go to Malaysia to get gov support and can‘t get some in Europe!

@andershansen4884 10 месяцев назад

@@chapter4travels The first reactor, built in 2022, is dedicated to water testing and allows them to test pumps, sensors, construction methods, operation, and software. After resolving initial issues, they developed a similar reactor for testing non-radioactive salt, utilizing a salt called FLiNaK. This FLiNaK test reactor, constructed in 2023, provided valuable insights for the design of the first thorium salt reactor, set to be tested in 2024. This was the status back in June. They are not done, but they have built something real. Several times, and they are iterating.

@CopenhagenAtomics 10 месяцев назад

@andershansen4884 that is quite correct! Happy to see that someone reads our newsletters ;) Next step in 2024 will be building and testing the subcritical prototype reactor, using throium and LEU and then in 2025 have criticality test of a 1MW prototype reactor.

@anders21karlsson 10 месяцев назад

I really hope you will succeed making a fully functional reactor using Thorium, molten salt and nuclear waste. @@CopenhagenAtomics

@beautifulgirl219 10 месяцев назад

I wish Copenhagen Atomics all the success in the world. The Earth needs tens of thousands of their reactors all over the world, in countless applications. I pray it happens, and soon. :)

@MotivationKing-hm5no 10 месяцев назад

Couldn’t agree more! 🎉

@CopenhagenAtomics 10 месяцев назад

We are working tirelessly to make it happen asap! :)

@taavetmalkov3295 10 месяцев назад

wish you great breakthroughs!@@CopenhagenAtomics

@davidef4162 10 месяцев назад

You are definetly the most seriuos and committed company in this field and deserve a lot of success! I wish you all the best!

@johnkutsch7609 10 месяцев назад

Nuclear Process Heat - it is the ONLY answer - The ONLY Answer - there is NO OTHER option

@iseedrunkpeople00 10 месяцев назад

What is standing in your way? I love this. I hope it works out just like you describe

@chapter4travels 10 месяцев назад

There are so many forces working against a viable replacement for fossil fuels. The FF industry is not even the biggest.

@ManuelBTC21 9 месяцев назад

A beautiful aspect of this is the possibility for jurisdictional arbitrage. By producing a marketable commodity, you are no longer reliant on a coincidence between a nuclear friendly jurisdiction and a population in need of energy. Instead you can find a nuclear friendly jurisdiction and transport the energy to wherever it is needed.

@ulfwestberg2027 10 месяцев назад

This is a game changer, All the best to the pioneering companies involved.👍

@arxaaron 10 месяцев назад

Wonderful to see this kind of international technology collaboration with LFTR nuclear energy at the core or the solutions.

@robfer5370 10 месяцев назад

Oh yeah!!! Let's GOO!!! Thorium power baby!!!!

@HenrikRClausen 9 месяцев назад

Why is there disturbing 'music' mixed into the excellent narration?

@alderbottomoutdoors9794 6 месяцев назад

I love thorium! I want a personal reactor. I work at petroleum refinery and this is the future.

@offroadsnake 10 месяцев назад

not only that, maybe can build syntetic helium 3 too.. in the future

@JinaSolo 8 месяцев назад

@4:40 - What about putting a reactor onto the ships so that they can make their own fuel?

@CopenhagenAtomics 8 месяцев назад

The reactors create more energy that a ship would need. Therefore, it wouldn't be as economically viable as you would have to run on lower production. In addition, there is the question of regulations and insurance.

@davehalliday9399 9 месяцев назад

Is it an accurate statement to say, Corrosivity is directly related to salt purity? And what is the purity of the salt Copenhagen Atomics produces?

@CopenhagenAtomics 9 месяцев назад

Hi! Yes that is an accurate statement. It is less than 20 ppm oxides and metals

@haldir108 10 месяцев назад

What a nice advertisement. I'm just not quite sure what i'm supposed to be buying. Best of luck though.

@jjamespacbell 10 месяцев назад

The LCOE of wind and solar is far lower than nuclear so how does spending vast sums to develop thorium nuclear reactors work out less than using wind and solar which are available now? A carbon tax to the production of the CO2 in producing ammonia would change the cost equation but only by increasing the cost of ammonia and then an increase in the cost of food production.

@CopenhagenAtomics 10 месяцев назад

The LCoA from wind and solar is approximatly 3x higher than coal or natural gas. This is simply due to the intrinsic properties of wind ans solar being intermittent energy sources, as such you would need vast amounts of wind mills and solar panels combined with storage facilities which drives up the LCoA, which in turn drives up prices of food. Therefore, it is relevant to develop methods for producing green ammonia close to the price of grey ammonia.

@hermannkorner3212 9 месяцев назад

Hydrogen is indispendable for a carbonfree future. To make it with wind and solar means perpetual ramping up and down, which kills any device over time. Electrolysers are very expensive and completely unaffordable when not used round the clock. There is no doubt nuclear is the ideal source for 24/7 operation . Wouldn't it be even better though to use high temperature elektrolysis combined with a high temperature reactor? The electrical efficiency is much higher, and the steady heat from the reactor means a long life for the elektrolyser, even when ramped to compensate grid fluctuations. These stacks can even operate in reverse mode to produce additional power from locally stored hydrogen to help in a "Dunkelflaute" with no wind and no sunshine.

@patrickmckowen2999 10 месяцев назад

👍

@scipioafricanus2 20 дней назад

one correction: CO2 emissions are not a problem as they do NOT cause climate change yet increase plant growth.

@mineralaccess7070 8 месяцев назад

Hail Copenhagen Atomics

@Feinrizulwur Месяц назад

As a step on the way from carbon energy, YES. But a MSR at high temperatureres can produce hydrogen with heat in a process called thermochemistry. Nothing new. BTW. Water in a reactor is a bad idea. At the same manner water can dissociate in O2 and H2 in an accident.

@chapter4travels 10 месяцев назад

Is thorium the answer? No, the underlying technology is the answer, thorium is just one of the possible fuels and probably not as good as uranium. Also if you can make ammonia economically, then you can also make synthetic liquid fuels as well. Diesel and jet fuel come to mind.

@MrRolnicek 10 месяцев назад

Yes but you might as well make them out of ammonia. The Sabatier process is a known way to make synthetic fuels but it has never been used at a scale large enough to drive optimization and improvement. Haber Bach process is apparently very difficult to optimize (although there's apparently a recent breakthrough) but that's mostly because it's very efficient as is even for it's huge scale deployment for fertilizer production. And at that point you might as well use ammonia because of the concentrations. There's plenty of nitrogen around but Co2 is much less concentrated in the atmosphere.

@robfer5370 10 месяцев назад

Thorium is better then Uranium!! For sooo many reasons.

@chapter4travels 10 месяцев назад

@@robfer5370 Simply not true. To utilize thorium you need a breeder reactor, for uranium, you don't. Once through MSRs are much simpler and cheaper than breeders and being cheaper than coal/natural gas is all that matters right now.

@LFTRnow 10 месяцев назад

I would suggest thorium is better long-term. Getting it started up takes some effort, such as a "starter" in the reactor, once going though, it breeds its own fuel from the neutrons created in the reactor. It converts Th232 to U233 which fissions, giving more energy and neutrons, and breeding more Th232 as a result. You won't beat that fuel cost, even though uranium (even enriched) is fairly cheap. Another good one to consider is breeding U238 - as there's loads of DU around as a result of enriching fuel.

@chapter4travels 10 месяцев назад

@@LFTRnow Even in a breeder uranium is still better. As you stated thorium converts to U233 which is weapons-grade and can easily be removed as such. Breeding u238 doesn't have that problem. We have billions of years worth of uranium without mining, so I see no advantage whatsoever to thorium.

@thewiseperson8748 9 месяцев назад

Thorium fission power used to make Ammonia does not make economic sense. Intermittent renewables are a much cheaper and efficient way to generate Ammonia.

@seaplaneguy1 5 месяцев назад

Electro Ethanol is the ideal fuel, NOT Ammonia. Ethanol can be used in houses, cars, airplane, boats, trackhoes, grid without the problems of Electro Ammonia, propane, gasoline, Diesel or JET. New Engine type captures the CO2 in the secondary cycle of the combined cycle with no extra costs and uses the CO2 in the cycles and for fuel making in a building. The CO2 can also be returned to the nuclear power plant via stations with a refund deposit, thus saving the CO2 capture costs. NET solar thermal should be 3 cents/kwh for fuel. A Thorium plant will need to be around that same cost, perhaps 4-5 max. The thorium is put at peak of the day and fuel is made to balance grid. Thorium = gird + fuel making. No gas, no coal, no Diesel, no wind, no solar PV needed. Just Thorium + fuel making.

@wilfriedschuler3796 5 месяцев назад

The process energy for ammonia is 10 KWh/kg. If you burn it you can obtain 5,2 KWh/kg. This means you are losing and wasting energy with such undertakings.

@CopenhagenAtomics 5 месяцев назад

This particular project is for using ammonia as fertilizer

@wilfriedschuler3796 5 месяцев назад

@@CopenhagenAtomics As I can see, you know the field. Ammonia for Energy is lunacy.

@PaulHigginbothamSr 7 месяцев назад

The Atomic ammonia MUST be cost competitive with fossil fuel ammonia. Then even China will board the ship.

@testthewest123 10 месяцев назад

I wonder why you want to run big ships on ammonia, instead of use your small modular reactors.

@mauritsdolmans746 10 месяцев назад

I would guess: regulation applicable, which may be different per harbour, and cost efficiency of using the ammonia as fuel rather than a nuclear reactor

@CopenhagenAtomics 10 месяцев назад

As @mauritsdolmans746 rightfully say, currently the biggest hurdle is regulation. Therefore, we are currently more focused on getting regulatory approval for land or site usage, as reactors can then be used for co-producing in several applications.

@rickstan6595 10 месяцев назад

Just tell me when I got your theory when I mean are you advertising are you looking for more investors what's the deal. I'm sure anybody would be on board with the pie-in-the-sky that you talking about let's hear let's see it let's put it into action.

@CopenhagenAtomics 10 месяцев назад

We are not looking for investors for the project that is being presented in this video. We the six companies in the project are the investors and the ones putting it into action.

@richardgieser6122 8 месяцев назад

I would appreciate if you could sell me plans to build a small scale unit of approx 1,000kwh/month for my home use and what materials such as thorium that I would need to buy from you or elsewhere.