Finland Might Have Solved Nuclear Power’s Biggest Problem

I can second this. The B1M has always been an inspiration to me ever since i started studying civil engineering in university

That’s the value of channels like this

I like these types of channels

I’m not even an engineer but I love this stuff

I wish I could afford to support you via pateron et al because you're definitely worth it! I don't know what you're patreon/membership count is but UA-cam and Paytreon are only accounting companies, when you get to a certain size you might want to disambiguate the role taking parts in house and subcontracting others.
Have a look at what youtuber Rick Beato has done with his club!

@@miraclemaker1418 why ?

Hey, it works!

@@GiorgiGoguaTuzo because its very obviously a scammer

@Pinned by The B1M And many decide against trusting scammers like you. Google should eliminate the ability to have users phone numbers be used in the comment section I swear.
And for OP, @Timothy Shane , Lmfao, damn right. I thought they were going to find a way to recharge this or something that would prevent having to bury it. But no, instead they simply said "ah yes, use the same old method!"

@@jxkc.3941 Burying it is not a bad idea. It came from the ground already. If was already there it shouldn't be too much of a problem to simply put it back.

Unfortunately due to miscommunications they accidentally mined at y 17, and found no diamonds

then fall to diamonds

Based

I was like “oh wow cool, good for them!! Neat, redstone?! And lapi…. Oh lol”

Cringe

Ah thanks so much! That's what we strive for!

Agreed

@@TheB1M would you consider doing a more frequent less production-intensive "news" video? I am sure there is material for 1 to 2-min long videos 15-sec per segment; though I don't know if that translates to revenue through YT or partner/sponsor-ships...

@@TheB1M what happend African construction we want African content like Egypt new capital or south African projects there are interesting things happening in Africa

If you believe ANYTHING YOU HEAR ! How does burying something deeper solve the problem. They have been using this encapsulating technique for a minute now!!!!

The type of reactor you're talking about is called a breeder reactor or fast breeder reactor, and they do already exist. They can be more expensive to maintain and also directly produce more fissile material than is put into them once they're up and running. This is a great plus in terms of efficiency but also poses many security concerns regarding control of weapons-grade nuclear material. For these reasons less-efficient and more wasteful reactors like the one in this video are often preferred, despite the effectively permanent waste. There is also always the concern with water-cooled reactors of catastrophic failure, such as the events at Fukushima and Chernobyl, which is still present in uranium-based breeder reactor designs. One proposed solution to the water problem is Thorium-based molten salt reactors, though these still have the security concerns of any breeder reactor. PBS Spacetime recently did a good video covering Thorium reactors if you're curious!

@@ganonfan98 there is no problem of control over weapon-grade material. Plutonium that is produced other than Pu239 contains Pu240, which means no nuclear bombs. Pu240 can cause spontaneous explosion if its used in weapon (because it "combusts" 30000 times faster than 239, so chain reaction can be caused by normal decay), and no one likes your own bombs exploding in your own storage facility.
And you can not separate atoms that are only one unit of mass apart, no centrifuge can do so.

Yeah having a permanent disposal solution is so stupid when you instead you could use a risky temporary solution that requires constant active upkeep

@@bbbbbb3734 molten salt reactor designs have walk-away safety, actually. I suggest you look into it!

@@ganonfan98 I recommend you look into technology that does not exist.

@@Semper_Iratus Huh?

@@gregorygrimm5540 Yes, it will leak in bedrock which has remained stable for hundreds of millions of years. They sure just picked any place arbitrarily without any thorough geological survey...
The only way it'll leak is if future generations are exceptionally stupid and start digging into really dreary looking tunnels thinking they might discover some "ancient hidden treasure".

@@McLarenMercedes Human stupidity should never be under-estimated…

It comes from the ground, it goes back in the ground.

Scot Fretwell okay racist

Turns out that's just fine, overkill really, that should be the takeaway.

bury it better than before it was mined should be the only standard.

I mean, yeah, you can boil down lots of things to a few key words, but it doesn't mean it's easy.

@@RedRocket4000 Yeah, but the material is much more concentrated once it's been used industrially. Storing it in a place that is geologically inert seems like a decent solution from a natural disaster standpoint, though. It would take a natural disaster so big that nuclear waste would be the least of our worries from that standpoint. I'd still be concerned about terrorists digging it up and exhuming it from its tomb, though, to create dirty bombs.
We should probably dilute the waste so that the radioactivity per cubic meter is at acceptable levels and _then_ dispose of it how you say.

Yeah that’s really what I was expecting. I thought for sure he was going to have some sort of new experimental solution in destroying spent uranium rods but I guess not. We really should be focusing on a way honestly to try and get it into space and sending it into the Sun. I know that still just throwing it away, but at least that way it will genuinely be completely destroyed with nothing left whatsoever.

My biology/geography teacher wasn't at all happy about the new plant getting permission to be built.
Nuclear power is the future. It's very clean and it doesn't even have that many downsides.
My teacher should be more worried dams being built for hydropower. Those are very bad for fish etc.
The only thing that worried me a bit about nuclear power was that the power plant may only have about 100 years till its gotta be rebuilt but bro 100 year is a LONGG time.

@@polardabear People will still be against nuclear power for 2 obvious reasons, accidents do happen unfortunately, Chernobyl Fukushima and Three Mile Island most famous ones there are 56 minor accidents reported in USA alone, second problem is storage of radioactive waste, nobody wants to live next to it, just remember the uprising Yucca Mountain, billions were lost because citizens blocked this idea that government storage nuclear waste in the mountain next to them... I dont see these problems being solved any time soon?

Because nuclear is not clean as the industry keeps attempting to convince us. How can a process be considered clean when it produces highly dangerous byproducts that will remain a huge risk to life for hundreds of thousands of years? We rightly criticise the dumping of toxic byproducts by other industries and those byproducts are probably only harmful for a matter of decades!
We cannot rely on our current civilisation to have a continuous unbroken 100,000 year future. So all we are doing is leaving a massive existential threat for future lifeforms on earth. Doesn't matter how deep this stuff is buried, there is absolutely no way to guarantee it won't be disturbed by future natural processes or by lifeforms tunnelling underground.
And I haven't even discussed reactor malfunctions, human error or terrorism.

@@TheStarBlack+ They don't pollute. The stuff coming from their smoke pipes is steam/water vapor.
"dangerous waste" we have already found a way to store it properly without damaging anything.
They produce a lot of energy without much downsides.
For a country like Finland, nuclear power is a must to be able to handle the future.
Finlands power grid is too small to handle for example every citizen having an electric vehicle.
Edit:
And you talking about future generations, there will be no life in the future if we don't change to clean energy which nuclear power is.
Lets keep using coal or gas (lpg) and the earth will be Venus2.0

@@polardabear life is in now way contingent on nuclear power, don't be ridiculous. We would be transitioning to 100% clean renewables if it wasn't for the equally greedy, dishonest fossil fuel and nuclear industries.
They don't pollute huh? What was Chernobyl, 3 mile Island, fukushima? Was that just steam?!

I thought there was a development years ago that increased the efficiency of, how much of the rod gets used. Why does this endeavor even exist? They mostly use up the rod, this is unnecessary.

@@HaloWolf102 I'm not a nuclear expert. But I bet the Finns who designed their super efficient ERP are. So if those guys think it is necessary or sensible to bury their spend rots I would guess they know what they are doing.

Hoping they find a huge lithium reserve under that thing... "Change in plans boys..."

@@Bryan-fy7od energy can neither be created or destroyed but transformed from one form to another. so essentially it's all free lol

LOL, the Brazilian geologic morphology shares the same characteristics that you have described. I am wondering if would be ecological the idea of burring radioactive side product under the amazonian forest.

What plant are you working in ?😎

Do you want to be Superman? Then steal and inject some radio-active material into your arms. Real talk son.

Don’t want to say anything bad about NUCLEAR ! don’t want to interrupt privilege or job security

lol you think you're special because you work at a nuclear power plant?

@@sparrow56able Don't gaslight other people or put words in their mouth. He was just saying he watched the video at work which, fittingly is at a power plant :)
In my opinion that's a pretty interesting comment. :)
I watched this video eating lunch on heavy duty machinery after which we'll continue building a bridge over a huge river. Nothing special, we're just sharing how it is.

Like the stuff that hasn't been mined yet and is all over the worl in potentially catastrophic locations?

Remember in the old days when people would talk about blasting it into space or the sun?

@@james3876 do you mean the non-enriched stuff !?!? pointing out the extremely obvious difference.

@@리주민 I still think the “shoot it in to the sun” option should be explored.

@@james3876 just to be clear - I’m not saying it’s a *bad* solution. I’m saying it’s not really different from the old one contrary to the PR.
I’ve heard a lot of arguments that burying it underground is perfectly adequately. Maybe that’s true, but I would say that fourth generation fuel cycles are a preferable solution.

well, difference is one gives you cancer by just standing a few hundreds meter next to it the other just fucks nature and gives you asthma lemao

Ummm... If we're making tons of radioactive waste that's going to be poisonous for hundreds of thousands of years, and we don't have a sane way of disposing it, I would say that's something to worry about...

I agree, and by its nature it influences a significantly larger area then radiation. Radiation is still obeying inverse square law, unlike CO/CO2 and small particals (not only pollutants from coal power plant) which follow gusts of wind, possibly miles and miles away. Bare in mind that CO and CO2 on its own don't loose its harmful capabilities over time, unlike uranium, which slowly turns to lead and other elements during decay.
I am not saying, that nuclear waste is not harmful, it is. But burrying it deep is basically the best way (all puns aside) to deal with it. And we do have technology for that, most of the time it can be even done locally on site of the power plant, reducing cost and other pollution from transport.

But it's nuclear waste! It's scary! Didn't you see what it did in that one super hero movie? Nevermind the fact that coal and natural gas power plants are literally poisoning the air we breathe.

@@thundersheild926 its crazy to think we could been fully powered by solar wind and water by now if politicians didnt pumped trillions into coal gas and nuklear while preventing actual building of green energys to safe theire interests.

I don't see the "problem solved" part anywhere in this video.

@@frozenhorse8695 Nor I.

@@frozenhorse8695 there’s another darker video out there about this.
It addresses among other things, the issue of signage.
Given that this waste will be radioactive for 10,000 years WHAT warning signs do you erect for generations that may stumble upon this after civilization collapses, which is arguably quite possible. They may not speak our language or recognize any of our cultural icons.
So this presents a moral issue about dumping the problems of THIS generation upon others we have no inkling of.
The calm rational film fails to address any of that.

@@MikeCarrick I've watched several videon about radioactive waste, some of which addresses the issue. Skulls and bones does seem to be a world wide known symbol for death, but even so, people are to curious for their own good. Some of the ancient tombs are good examples, they were full of death warnings, but little did it do. Some people are willing to meet certain death in order to satisfy curiosity.

@@frozenhorse8695 The problem: “human intervention to keep waste stored” the solution: “we don’t have to intervene anymore.” Your “problem” is different from what this video is trying to address. Rewatch it maybe?

Isn’t that more structural engineering? Do you study both as architecture?

@@springbok4015 People will move in and out of those structures. That requires an architect. But yeah structural engineers are also required. This video can inspire anyone since it requires many professionals to accomplish.

Engineering - look what most architects actually do these days. Good luck getting in and say goodbye to your fingertips

Pay more income tax.

@@toomuchdebt5669 no u

Radioactive rocks under the ground are not going to kill someone on contact though are they? These waste dumps are exactly death chambers.

Hell, people love granite countertops in their kitchens. Just don't tell them granite contains a lot of elemental uranium.

@@Waldemarvonanhalt About 90 tons of uranium, from natural sources, flows down the Columbia River every year. The figure is probably the same for many other large rivers. Natural radiation is abundant.

@@comment8767 Exactly.

lol people here.
natural uranium....
unrefined, un concentrated...
reactor uranium is a specific isotope and is extremely concentrated.
usually 235 and not its stable cousin 238
your akin to stating whats so bad with carbon monoxide?
its everywhere and is natural....
ill let you come up to why and when it becomes dangerous

...bury it deeper demands the nobel prize though , doesnt it :-D

I would have enjoyed an appearance from Milla 😏

Welcome to Raccoon City 😂

It's all there, they just don't want people to know about it. Shhh!

😅

Hah good one ! Fellow Resident Evil fans I greet you

Best school trip ever!

How radioactive are you now?

No babies for you 🤣

@@downundabrotha his babies will glow in the dark, can't loose 'em at night

@@I_Have_The_Most_Japanese_Music I could say I've had a glow up since then

Not exactly true, renewables on average are enough to support heavy german industries, on average germany even exports more renewable energy than it can use and during high times even has to shut down and take renewable plants off the grid, because they are risking frying their grid.
The problem they faced rather was: there are times when no sun shines, tide is not changing and no weather change is taking place, leaving them with hydro plants and bio gas power plants and those are not enough to support everything. The problem is not producing enough energy, they produce more than they need, the problem is that they need to figure out how to create at least the bare minimum of power during those shortage times. Afaik their government is currently focusing on geothermal for the bare minimum power production, I read somewhere that they are building a test geothermal power plant with the energy output of a medium sized nuclear reactor.

@@fatalityin1 Right. That's why shutting down their nuclear power plants and switching to renewable energy sources where possible has resulted in a net increase of emissions from Germany and a massive increase how much oil and natural gas they have to import every year...
Nuclear energy is great for a baseline electric output because it turns out that renewable energy sources are highly variable. Go figure.

And the batteries needed to make renewables more viable are quite terrible environmentally.
I also wonder what effects mass production of solar, wind and water energy devices will have on the local environment.
Wind captured is no longer blowing elsewhere like it would have. If everyone, everywhere, globally is "stopping the wind", what will that do to things that rely on that wind? Damming a river impacts the local wildlife.. can we dam every river or tide and not impact wildlife?
Solar panels are the least impacting (as long as it's on existing buildings), but it is the most unreliable without heavy battery use.
Can we get enough energy without impacting pollination processes, or animal migratory behaviors.
When we look at the energy output, and compare to the draw, and look at what we'd need to have to accommodate existing and future growing power concerns.. we'd have to take into account the impact batteries and local environment this will start to cause.
Nothing is free. This is why efficiency needs to be a huge factor in deciding what to do.
Those ideas of using spent reactive material as an alternate fuel source, drawing out the most from the process, is the best idea I've seen so far for energy production.

@@kaisokusekkendou1498 Reusing and recycling spent fuel rods isn't just theoretical. They've done it successfully to the point where the remaining fuel rod at the end of the very long process is no more radioactive than the average background radiation from Earth. Ofc it costs more to recycle spent fuel rods than it does to just buy new ones, so you can guess which route our for-profit private electric companies choose to do...

@@kaisokusekkendou1498 yes, energy storage is the big hurdle of renewables, but what are you talking about with "stopping the wind"? (also you can "dam the tide")

facts. fukushimas disaster was that the plant went oopsie daisy due to being hit by an earthquake and tsunami while it was still running. and it cant really be compared to chernobyl. the impact that they had is completely different and the aftermath is no where near as bad.

@@andresacosta5318 Not to mention that Fukushima Daini, a nuclear power plant 12km to the north of Daiichi (the one everyone talks about) was hit by the same earthquake and same tsunami but suffered no significant damage (some coolant water escaped from its tanks but that was about it). Yet thanks to anti nuclear """"green"""" activists it never re-opened and was decommissioned in 2019.

@@crazeelazee7524 because those """green""" groups are funded by oil companies. Nuclear and specifically thorium reactors should be playing a way bigger role in our power generation.

@@ZAVB3R3R I love how everyone thinks that nuclear is the future.
It is the most expensive source of electricity.
The waste could be buried but what happens when you let it run for 100 years?
And no one talks about the mining of uranium and it's impact on the environment.
Nuclear could be a future but not in its current state.

@@TheBlobPod it’s the Future of our problems… at least for a few hundreds of thousands of years

You might be better off watching Chinese cartoons.
Clearly you dont understand.

​@@fridolfmane1063 or maybe the thumbnail only showed the elevator shafts of the hole and the intro was intentionally vague to hook people and make it sound like a new idea even though its an old idea that the US stopped because people protested it.
And as good of an idea as it is, it still falls shorts because its wasted space in the earths crust, where as building a reactor that can actually use the fuel would be a much better.
Knowing what I know about fission reactors and seeing a title of "Finland Might Have Solved Nuclear Power’s Biggest Problem" I entirely expected to see a video about something like the LFTR or a MSR. Not yet again more high pressure solid fuel liquid moderator reactors with waste being shoved back into the earth........

@@fridolfmane1063 nah I understand enough, Finland hasn't solved anything all they've done is just dig deeper which isn't revolutionary to the world of nuclear energy, reusing that fuel or being able to quickly slash the half life of the waste is considered revolutionary and solves the problem of nuclear energy, storage was never a problem just bad politics and public perception that's extremely out dated

Thorium reactors are dangerous because MOXX fuel can easily be heated up and separated into weapons grade material. Imagine having an energy plant that runs on hydrogen bombs. Sure the technology itself is clean, but the fuel is a threat to national security.

@@elinope4745 of it were at high concentration which it's not

That's what we do with most of the non-biodegradable stuff we produce

Sweep it under the rug and call the place CLEAN.

This is ignorant and we can do better as a planet...

You sir, are a FRAUD!!

It’s about the best thing we can do other than launching it into space, which has its own risks.

And how do we know that encasement can definitely last hundreds of thousands of years? Has that bean tested?!

@@TheStarBlack It doesn't need to. It needs to last a few hundred years. After that, the waste will be in a state where the most dangerous isotopes are gone and the remainder is of the "don't eat it or decorate your house with this stuff" variety.

@@TheStarBlack Good point!

And China will use 1.4b people to dig a even deeper and wider hole to Finland

@@sheepgoesmoo4281 good luck with that. We dont need yo worry

Invade Finland? Bad idea

That’s a saying everywhere in the world LOL

@@jorgesalas4314 Not in Finnish.

They'll know what it is and have the right equipment to get it out.

@@dpg227 How will they know what it is? Often we don´t even know what 500 year old scripts and archaelogical sites mean. Noone was able to decipher Linear a and Linear b. Then how should a civilisation in 500 years be able to decipher our current warning signs and texts?

@@Alternatives_Universum They see a strange substance, they analyze it, they understand what it is, no need to decipher anything! Completely different than the example you're putting forward, that would only apply they had to read the sign before digging.

@@Alternatives_Universum They'll have instruments that detect the radiation.

TOSCHE The radioactive symbol, as well as the biohazard symbol, were designed with that in mind, in case future generations lose the meaning. At the end of the day, no ancient ruin is idiot proof, there’s only so much a sign can do to deter someone who thinks they’re discovering cool shit.

Nice, last time I bothered checking the reason most places didn't use Thorium reactors and/or use the waste in secondary reactors ( it's still radioactive, it's still giving off energy, use it damn it! ) was because there were worries about them being used as 'breeder' reactors to make weapons material. Well other reasons too but that was one of the big ones last time I poked at the idea ( not even remotely an engineer, just someone interested in the subject )

@@MrGoesBoom I don't think that's right. The reason Uranium reactors were used in the 60's and not Thorium, is the fact that with Uranium reactors you could make weapons, and not with Thorium. For this reason, no one developed Thorium reactors, although they would be much better.

Johnny Bhai ye chuttad log India ki izzat nahi karte. Don't tell them anything.

@@albex8484 Could be wrong, not an expert. could just be mixing my facts up

@@albex8484
The way i understood, the main reason why the world does not use thorium reactors is the unsolved very difficult technological obstacles.

"nuclear fusion" is the future. For now we have to settle with nuclear fission, which has all these problems people are trying to solve. Until then, the only clean energy is water, wind and solar. I use 100% water energy.

@@tohtoriTurvotus A proper "aCtUAlLy" move but, yeah. True.

@@Shadowrusa 💀

@@Forseen-7 did you forgor? 💀

@@tohtoriTurvotus Depends how you define "clean energy". If you mean "causes 0 pollution" then none of them are "clean".

It was called 'Into Eternity'. A very good documentary.

yeah, exceptionally smart way to make reusable fuel an unmovable waste

@@SergeiSugaroverdoseShuykov which makes it quite stupid :) western Europeans...

@@SergeiSugaroverdoseShuykov Absolutely! According to one seriously reliable source (go find a copy of James Lovelock's document titled 'Our Nuclear Lifeline'), the amount of so called 'waste' generated by Britain's nuclear energy production since the mid '50's amounts to a little over 10 cubic metres. Lovelock also suggests the 'waste' contains more energy than all of the known oil reserves in the North Sea. Lovelock also contends, had envionmently conscious busineeses refurbished the 'waste' rods until they could not be refurbished any further, the total amount of 'waste' would be a few buckets full.
But, greedy governemnts (including the Australian government under which I live) and mining companies want the revenues generated by mining rather than being environmentally responsible.

and it will still be there in thousands of years

@@jimmcqueen16 At a location that affects no one.

Yeah, it's not like we don't have machines to use the spent fuel. We need to convince people that it's safe. I heard recently that Canada plans on making a line of mass-producible small reactors in place of large ones in power stations.

What do you even mean with that sentence - the problem was politics all along for deciding to bury it?
And absolutely not, we cannot reuse all of it. There are waste products.

@@christian2i If you are referring to me yes politics and fake public perception is a huge role. There will be waste true but not because we can't reuse any of the actual fuel.
Might have been a little too technical but to break it down more simply most reactors only use something like 1-3% of the uranium in them before being considered spent and put into storage... there are ways to literally use 100% of that. The waste left over would just the fission products which are all short lived and whatever material that got irradiated.

Love seeing people talk about Canadian nuclear. Yes, it exists--it's been around for quite a while, and gotten quite good. Our old CANDU reactors are still happily humming along, 19 in Canada currently and 31 running globally right now, including derivatives like the Indian CANDU-likes.

@@christian2i We can reuse the majority, it’s waste products that can be turned into more fuel and used in lower-grade reactors. The problem with nuclear is the restrictive political situation, preventing much-needed replacement facilities and the *decades* of innovation that have happened since the first facilities from being implemented. It’s seen as dangerous, despite the fact that it’s less dangerous by far than fossil fuels, and that makes people put heavy restrictions on it that don’t really need to be there.

But what's wrong with burying it? So long as the facility isn't on a fault-line, isn't near a groundwater source, and is sufficiently deep as to shield all the radiation it seems like a perfectly adequate solution. The downside is the cost of excavating such a massive facility, but this repository "only" cost 3.4 billion dollars. To put that in the perspective of a piece of infrastructure, the US spends about $175B on Federal funding to maintain its highway system every year.
No one seems particularly disturbed by all the radioactive ores that naturally occur in the earth's crust, but suddenly once we start talking about putting nuclear waste underground no solution is sufficiently advanced.

@@rossvolkmann1161 My problem with this way of handling nuclear waste is future human stupidity. That aspect is excellently explained in this video by Wendover: ua-cam.com/video/uU3kLBo_ruo/v-deo.html

@@rossvolkmann1161 6:16 shows the suitable regions... I was at least hoping for a "solution" that could be used by more countries.

STORED not buried. The fuel elements have over 90% of their energy left

Well the thing is, there is already a way to deal with it: burning in in new technology reactors
But that doesn't make clickbaity titles nor does it scare the viewer

It'll simply be called "Power"

the china syndrome.

Sounds like they hit bedrock tho, so we’re done with deeper

The Finnish bedrock starts from the surface and reaches very deep. It's a very stable and thick piece of bedrock. It's called the Baltic/Fennoscandian shield. "It contains the oldest rocks of the European continent with a thickness of 250-300 km." It's very easy to bore (blast) because it's so stable.

@@McSlobo sounds like it was a treasure

Haha

Bury it well I say and then it won't effect someone

I chuckled at this joke.

NAILED IT

They have that luxury for sure.

Yep, looks like one of my Minecraft bases.

I knew instantly I would find this comment here

How does one call a thousand year very dangerous radioactive nuclear dump? Finland: Repository.

Branch mine. A strip mine is where you just dig a huge hole to bedrock to find diamond and ore. You end up with a LOT of cobblestone for building though.

@@steveaustin2686 No, that’s a quarry. A strip mine is exactly what’s shown in the video.

Bury it deeper is Amazing?

At what costs ?

@@robertbiolsi9815 4 dollars

@@robertbiolsi9815 80% cheaper than Uranium reactors. Source: medium.com/illumination-curated/9-more-benefits-of-thorium-energy-354395ad38b3

@Ghost Samaritan Illuminating article; thank you for sharing. I'm glad to see thorium has made so much progress since I last read about it.

@@robertbiolsi9815 Tree Fiddy.

bruh

Definitely smithers

Perkele!

Smithers, turn on the surveillance monitors

Or you use a molten salt design and separate the fission products on-line and continuously.

Wow a comment that is actually somewhat insightful and thought out...I bet this won’t get any likes

A solution to nuclear waste has actually been found. Look up the safire project. Electromagnetic transmutation of elements.

There are many proposals for what you might do with the waste in the future. But the whole idea here is "We created this mess, we have a responsibility to deal with it."
Just leaving it in storage for 'few centuries' and hoping the future generations clean it up is precisely what they don't want to do.

My God-given geo-thermal solution is waaay cleaner. Not like any existing method.

Join my club, where we pray for a nuclear amusement park

Exactly. As a Finnish person, I'm not overly excited about this. The solution can't be to sacrifice our country, first to mining business (batteries) and then to nuclear waste. Especially since the scarcity fresh water will be the next big crisis.

They haven't eliminated the problem, just a better way of burying it and ignoring it.

Right!!! Nothing has changed...still a burial place. UTOPIC people always say that "Waste is just material that is not properly allocated"... LoL... Well, try to PROPERLY allocate 200,000 tons of radioactive waste!!! hahaha

Fr nothing new

🤣🤣

@[UNDEFINED VALUE] true. Maybe one day

Probably true, as will landfill sites be future mines.

@[UNDEFINED VALUE] can I hear more about that nuclear waste kinda scares me

@[UNDEFINED VALUE] they're not being built because of a reason , they're untested on large scale. Have unreliabile large scale efficiency and meltdown security

Repeat after me: Molten salt eats reactors.

Absolutely 👍 If Government's around the world are actually serious about cutting carbon then nuclear energy needs to become a top priority. Unfortunately there's a stigma surrounding nuclear power and countries like Australia who have made it illegal to use nuclear are going to fall behind and miss their targets.

moving forward? with burying nuclear waste? wake up bro

@@dougaltolan3017 dumb

@@paulfisker Wake up.. it literally produces more power and less waste then solar .. witch is still fucken useless without the aid of fossel fuels... Wake up bro and do some research before commenting.................... Dumbass!

Nobody in Finland can afford a "slow life" unless they won lottery or got big inheritance. Thus finnish people work and work and work ... only for the greedy bosses and landlords to collect the benefits.

@@sleeptyper I dont think you live in Finland :D

@@Petri_Pennala Mielenkiintoinen väite. Ilmeisesti Hämeenkyrö on Sinun kartallasi jossain toisessa maassa..

@Armnel Angeles He is from finland xd its hard to confuse your own country with some other one

@Armnel Angeles Let me elaborate then. Normal people can not afford to work less than 37.5 hours per week. If you work part time, you're either disabled and already on some social benefits, you are rich, a pensioner or piss poor that learned to live in a moldy cow shed. Other options surely exist as well.
But if you want a house, family 2.3 dogs, you need to dedicate at least 1/3 of your life to serving the system.

They were pretty descriptive about the plans for burial, or do you mean, why do they use boron? And then copper?

I agree probably should of been about the process instead of all the other shit.

EDF PR video paid for by Gordon Brown's brother using your taxes. Let Finland be the crash test dummy for the EPR. French have ensured Flammandville is not first. Wise move.

@@tuberroot1112 that’s pretty random… like everyone who watches this lives in Finland or EU? I’m more worried about that BoJo a-hole than some irrelevant Labour loser.

The method name are mentioned. But most information will probably be in Swedish if you search for it.

True. Support from Germany.

Germany's phase out started after Chernobyl, not Fukushima.

@@HiAdrian Strange, because no one talked about it before Fukushima and after Fukushima they made a big deal about stopping using nuclear so I have to wonder how active an effort that actually was.

@@Draugo You must not have been around during Chernobyl. Because building nuke power plants came to a near complete halt in the FREE WORLD. Especially after President Jimmy Carter (PhD in Nuclear Physics) walk into the 3 Mile Island Nuke Plant while it was in the process of a partial melt down and told every American is wasn't that bad. And got fired.

@@darrellmcever340 I wasn't that old when Chernobyl happened but I know US went along with the hysteria then and blew the three mile island completely out of proportion when it happened.
But what does that have to do with my actual point that Finland didn't succumb to the hysteria after Fukushima?

Exactly!! Why are they still building these inefficient wasteful dinosaurs??

@@walterbrunswick its a combination of reluctance to try unproven technologies and how the engineers are way too invested in the conventional stuff and a wealth of information on how to deal with malfunction.
we also have politicians and bureaucrats to deal with even if you DO get the investors on board.

@@walterbrunswick Part of the issue is also the potential impact of widespread adoption of thorium reactors on nuclear proliferation.

@@nullvoid564 I’ve been saying the same about thorium salt reactors, and someone (a commenter on another video) said that we have yet to create a metal suitable for the main hull of the salt reactors. He claimed that the current metal used doesn’t last long, and used a salt reactor in India as an example. I don’t know if he’s right/wrong - it’s the only time I’ve heard this problem mentioned.

Please don't confuse a reactor powering off with it no longer being radioactive. The thorium fuel cycle is definitely an interesting possibility, but it does have inherent flaws. Like the generation of U-232, which is the most radioactive variety of uranium we can commonly produce due to its decay products being high-energy gamma emitters.

But how are they going to bury? Buy breaking the ground first! Duh!

That was a rock solid pun 😎👍

What is the primary blockage stopping this from advancing ?

@@artstrology The proliferation of LWR. There's just been a ton more research and work done to make them work instead of MSRs. If the past research and work been done to promote and use MSRs, we'd probably be in a fossil-fuel-less world right now. But, in the 60's and 70's the atomic owning governments of the world needed enriched plutonium for their A-Bombs and so all efforts went into LWRs. Enriched Plutonium isn't a by-product of MSRs, and even though MSRs could theoretically be built so small and safe, you could power a home with them.

@@artstrology money

@@cheezy2455 Money is a major causation but never a primary one

@@scottamolinari Sounds like you're describing Fallout

It isn't spent uranium. It is 100s of fission by-products never created before 1940 and 1000 to 1,000,000 times more dangerous with half-lives of seconds to millions of years.

Except the uranium used in reactors is refined. It's not the same stuff.

@@AaaaNinja Is it stable down there.

@@jackfanning7952 Longer half life = less radioactive. More radioactivity = shorter half time. Most of the dangerous byproducts are gone within a few years.

@@Ivar_Kahrstrom Would you care to revise your statement about the most dangerous by-products are gone within a few years? 200,000 years from now inhaling one millionth of an once of plutonium will guarantee that you get cancer.

IKR? This isn't really the kind of solution I expected... I was going for refining/reusing!

@@MaN-pw1bn France does that

Very disappointing.

Always watch videos on 1.5 and always skip to the 3/4 mark to find shit out and if it's good watch the video ;)

Watch Tom Scott's video about the same topic as this video it explains more than this video

Yep, Solar and Wind are just too weak/unreliable.

Well it is the most viable option we have NOW. In future we should look at Fusion energy or future technologies.

@@JM-lc3ki plus you need an energy storage system we don’t have currently

I hate people who think that solar is an option, you might have a farm, most people live in apartments, I don't want to cover 25℅ of land area of a country for "green energy"

@@daKoenig Or thorium

Yep

Onkalo is not a “storage” site. The spent fuel will be burried in a way that makes future retrieval all but impossible. This is a final repository for spent fuel that will not require any human intervention or safe guarding after it is filled and closed.

All those tunnels built for waste storage... I wonder if the area chosen to store the waste could be rich in mineable recourses, at least that way it could be used as a double whammy?

Why? What more would you want? Putting it back in the ground where it came from is literally all you need to do with it.

There is no nuclear problem in the first place storing it underground is cleanes way of having zero waste. It came from ground so put it back in the ground. Only problem would be if someone mined there in future so you need to put it really deep. There is nothing game changing about this norweigian way of puting it underground.

People fear radiation - can see, smell or touch it. Irrationality wins out over logic and reason :p

DocNo27 Yep they pointlessly fear controllable gamma radiation while surrounding themselves with tons of EM radiation.

Geography is still a factor

Money is the big one. It can take decades before investees see a return on a nuclear power station so few people are willing to invest.

There is always a certain risk either natural disaster, human failure, material failure, war or terrorism. But the bigger problem of nuclear is the storage. The only current (almost) 100% safe storage areas that will be safe for thousands of years without maintenance is within geological cratons. And most countries don't have access to such geological features.I agree that the nuclear exit of countries like germany is a bit hastely, but we need to realize that nuclear is an intermediate technology and we need more high tech to more efficiantly use, store and distribute the near endless energy the sun provides us with.

The fancy name sealed the deal for me

@@alessiofe a friend of mine says fancy names account for over 50% success of any engineering idea:
neural networks, gradient descent through time, support vector machine...
Then he came up with the name: "shotgun gradient". Now he only needs to invent something actually useful he can name.

Special operation containers?

@@busterbiloxi3833
DeBuCesr: Deeply Buried Copper Encased Spent Rods
UADS: Unattended Deep Storage

Dumb statement, stick to topics you actually know something about, maybe?

Nuclear power has been obsolete for decades now, even without the massive costs and rarity of such disposal renewables beat it on pure economics.
Come back when you have sustained fusion, anything short of that is a waste of taxpayer money to subsidise crap like that.

@@aenorist2431 you need to read a science book because everything you said is wrong.

@@spacecowboy07723 while he was a bit rude, what he said isn't far from the truth.
Countries like Germany, France, USA, Russia have been shutting down nuclear power plants for a while now.
Renewables are cheaper and getting more cheaper, they really are the better option moving forward

@@tren-y2m whilst being used in tandem with natural gas. All you have to do is compare any non hydro country to France in terms of CO2 per megawatt and you’ll see why renewables aren’t the answer without nuclear

@@tren-y2m we need to look at ALL the options. The next two decades are all going to be about energy. Nuclear is still in the race so don't dismiss it too early.

NO... but It is a *very FINNISH solution* ... _they bury _*_everything_* 😒

@@dasalekhya LOL!

@Omniscient_ Turnip yeah cos burying something extremely dangerous deeper isn’t gonna cause any problems? Cos nothing happens deep down inside the planet, no.. FFS.. Short term gains and all that...let the next generations deal with it while the current ones profit and fill up their pension pot!!

@@cd66061 That's why they only do it in certain areas. The bedrock of most of Scandinavia+Finland is very old and very stable. It's almost as if people who have studied this for years somehow know better than some rando on the internet, imagine that.

@@cd66061 Where do you think the shit comes from?

Weird then to again make the country reliant on Russia with the planned nuclear plant in Pyhäjoki. It is a Rosatom design and has Rosatom as a minority shareholder.

@@Silk_WD The design is Russian, but that doesn't have to mean it has to run on Russian rods. That's ba different story with gas. The gas infrastructure is mainly Russian and Russian gas will always be cheaper than gas from other countries.

@@hendrikdependrik1891 I'm not arguing for or against Pyhäjoki. Only pointing out that independence from Russia is a weird argument for it. For sure better than being reliant on russian gas or direct electricity though.

Nuclear energy is also really green.

The opposite of Germany. They have made a huge mistake (several huge mistakes, really) with regards to their energy solutions.

What about LFTR reactors??
Why are they still building these inefficient wasteful dinosaurs, and then "burying" the problem??

@@walterbrunswick can you elaborate on the acronym, please? I know that there have been better, safer reactor designs that lost out to the ones we use, for bad reasons. Related to molten salt design? Obliged.

Manager: "So what are your proposed methods?"
Engineer 1: "Dig a hole."
Engineer 2: "Dig a deep hole."
Engineer 3: "Dig a deeper hole."

Yes! Let all the groundwater suck the radiation!

@@Mike-kr5dn Yep - What I noticed too - Water dripping everywhere in those supposedly "inert" tunnel storage areas! Should be tasty wherever that surfaces...

Same. Good that they have a way to ensure it's okay without human intervention (and screwing with it would be very difficult) but using it would be so much better.

We figured out how to use it more than 30 years ago, it just costs more money in the short term, and takes too long before it becomes profitable.
www.ne.anl.gov/About/reactors/integral-fast-reactor.shtml
Note: there are a lot of designs that solve the same problem, that one is just an example.

Watch the documentary abouy bill gates on netflix, he has invented new ways.

It’s funny so many people are expecting the impossible deletion of matter. Where is it suppsed to go? Uranium has a half life regardless of weather or not humans know about it

@@unfetteredpatriot1000 actually, expecting a nuclear reaction that would break it down to another element with a significantly shorter half life but whatever floats your boat.

While it will stretch the useful lifespan of the spent fuel rods, how will we deal with spent spent fuel rods?

@@dbclass4075 The spent spent one can be stored safely inside this kind of bunker storage as the recycled waste would have less weight and volume
This kind of storage will work very nicely with spent spent fuel

Send it to Russia for their next-gen breeders.

Even thorium reactors (if they ever get the idea to work and that's not yet certain) will generate radioactive waste materials (such as the reactor casing) and will still need a long term waste solution.
Waste will always come in two categories. That which can still be processed back into fuel, and that which is just lethal radioactive trash for disposal.

​@@dbclass4075 LFTR Is completely Backwards to conventional nuclear energy. The fuel is liquid and the moderator is the graphite rods.

It is ok as it is carbon neutral 🤣

Who would put that much effort into breaking tons of containes sraled in meters of concrete and metals

If another civilisation finds that, they will either be advenced enough to open it and find out what it is, or they won't be able to open it at all

I wonder which lives will matter in those days lol.
"Radiation is racist!"

@@ranchdressing1037 What was the point of even bringing that up. Something that has nothing to do with racism and you brought it up.

@Mister Flibble Consider: nuclear energy is the only one that is actually reliable and produces meaningful amounts of energy at a fraction of the cost and is actually more environmentally friendly and significantly more cost efficient than things such as solar panels

@Mister Flibble you are so right. What a waste of money and unnecessary risk. It is one of the most expensive ways of producing energy and the massive time and budget over-runs mentioned at the beginning of the video are a warning to everyone.

@Guilherme Tavares Pinheiro Which is why France is moving away from Nuclear ? Which is why in Australia they are building massive renewables to power Singapore... NOT a nuclear power plant ? Mmmmmm

@Mister Flibble Yet, solar power and wind kill more people per energy generated.

@@olbradley I believe nuclear has an important role to play, but a fraction of the cost? Basically every single new nuclear plant in the past 20 years has suffered from massive, multi-billion dollar cost overruns, delaying output by several years (the plant in the video is a good example of that) adding to the expense. Is nuclear reliable and safe? Sure, but it's hugely expensive.

Yes ofc, he's happy with his bowling shenanigans that hindered both red bulls.

You don’t see his face when he gets his payslip

No but I bet he got quite a bonus for last race.

you mean Valteri?

he was happy at williams at least

@David Rutherford madman

All of that unspent uranium fuel can be used to initiate fission in a thorium reactor. Thorium is 'fertile' - not fissile. It is radioactive, but in order to support a nuclear chain reaction, thorium requires an external neutron source. That is exactly what that unburned fuel - 'radioactive waste' - is. When the world figures it out, thorium reactors will provide the critical non-carbon energy that can run our economy and our lifestyle 24/7. Small, modular reactors will finally start to happen whenever the fossil fuel industry loses its influence in Congress. Those SMRs have already been invented.

@David Rutherford Those rounds are not radioactive, they're spent, only the metal is extremely tough. How do you NOT know this? It's in the name: DEPLETED uranium.

At the beggining, it's a mining product. At this depht, it's becoming a geologic artifact, and will stay here forever, much longer than needed to become not radioactive, and the loop is closed.

Burying it deeper makes sense though. The whole point is that it will stay there long enough so the radiation will fade over time (it takes 100 000 years). Finding a site with no geological activity with very good rock characteristics is enough for that, we have all the science and technology for that. We even think it through so that a future civilization who would have forgotten won't find by accident (by choosing a site where there is no valuable resource around worth digging for). Burying it deep also makes sense in that if a civilization is sufficiently advanced to dig that deep, then surely it has at least the technology to understand that those things are dangerous (and when they find it the danger would be far far less than it is today anyway). So yeah, putting in in the ground is not a bad solution.

China EPR just gone into meltdown. Huge radiation plume over Hong Kong. It is so bad they have had to write to US Department of Energy for help. Cancers for all.

Shit what's up with that 😂😂🤣 it wouldn't go away

Just like the radiation in the fuel rods

Same

I've got a video on hurricane lamps hounding me.

We are literally returning it to the environment as that's where we got it from in the 1st place

@@NadeemAhmed-nv2br Bullshit....its a far more concentrated form unlike the uranium ore it originated from.

@@NadeemAhmed-nv2br expect in an entirely different, more dangerous state then when we took it out.

Well, the concern with burying nuclear waste would be potential contamination of groundwater and it's certainly not gonna be contaminating any groundwater when it's too deep for that to happen, below layers of solid rock. Radiation has no measurable environmental impact if it isn't interacting with biological material (the heat produced by decay in some deep tunnel is not gonna cause the climate to get warmer and rock surprisingly doesn't grow extra arms or get cancer from the radiation).

@@tiikerihai Exactly. Putting it in these capsules and burring it where it won't get wet pretty much defuses this.
It kinda just isn't a problem anymore.
but hey people who are against nuclear energy seem to be overwhelmed with the fear of something going wrong so they won't listen ¯\_(ツ)_/¯

less dangerous and less radioactivity are mutually exclusive. For something to decay rapidly so it spends less time being "radioactive" means it's VERY radioactive during that shorter time vs being lightly radioactive but staying that way for a very very long time.

@@AgentExeider you are right, sorry for not being technical enough. All nuclear used fuel have basically the same isotopes, but in France, the fuel is recycled at the Orano La Hague plant, where the uranium, plutonium, and final waste are separated, so at the end, the stored waste is just less radioactive materials and simply less material/volume (only 4% of the total original used fuel).
Also, less dangerous and less radioactivity are not mutually exclusive, if "A" = 1kg & 10 Bq gamma and "B" = 1kg & 1 Bq alpha => B is both less radioactive & dangerous than A (even so I don't have any real example here)

Russia recently went way further, by actually processing the waste and reusing it in the fast neutron reactors (MOX fuel) which after spent can then be used in ordinary reactors and so on. It leaves the small amount of waste but only a fraction of any other methods... I heard France and UK kind of sort of do similar thing too. And yet not only most people, most countries even, keep thinking that burying the waste is the *only possible* solution 🤦‍♂️🤦‍♂️ What's with the misinformation...

@@mihan2d MOX was invented in France as a demonstrator and so used it 1st. Now, almost all French reactors are using MOX, but there is also China and Japan for sure, and also, the new 3rd Gen reactors are the 1st ones that can use 100% MOX.
Also, using MOX will reduce the total amount of waste generated, by consuming most of the plutonium (1% of the total used fuel), but there will always have some dangerous waste at the end. The best way to reduce waste is mostly by removing the depleted uranium: 95% of the used fuel and not dangerously radioactive. Burying is both extremely cheap and safe, so why would you want anything else ?

Don’t tell me....you’re French, right? lol. 👍🏽

Rather waste of money to go to such lengths to ensure a "long term" structure for spent fuel we're going to be digging back up in 100-200 years.

@@zolikoff Why would we be digging up nuclear waste in 100-200 years...?

@@amzwl1671 to reuse it, we already know that it is possible, we are working on it as we speak, so in a few years the "waste" will become a recource we want to have.
But sure, dig it down for now, we know where it is when we have the reactors that can use it, and it's much more easy to go get it then to mine new uranium

@AmzWL We may dig it back up to use as fuel for next generation reactors. "Spent" nuclear fuel still has more than 90% of the fissionable material still in it. We dispose of it because small decreases in overall percentage lead to large decreases in efficiency, making it mostly useless even at high levels of fissionable material. It is possible to filter out the used materiel from the fissionable (e.g. this is done for depleted uranium armor), but it's expensive and since uranium is comparatively cheap and plentiful it's not usually worth the effort. If this changes in the future (which many believe it will) it might be cheaper to process spent nuclear fuel rather than mining more uranium. In which case having years of used nuclear fuel on-site would actually be very convenient.
There's a larger debate that actually keeping it on site makes sense for a lot of other reasons too. The US actually did plan for this with a site called Yucca Mountain in Nevada. For various reasons (some of which pretty ridiculous including taxes) this was never completed. However, during that time we took a hard look at simply storing it on-site. Many people don't realize that 100 years of spent nuclear fuel for the entire US wouldn't take up much more room than a medium sized building. What takes up a lot of the room is everything around it to keep it safe passively. But what better place to store nuclear fuel than someplace that already has the security, knowledge, and capability to deal with it already. This also removes the need to transport it and decentralizes the risk. And if we do later want to re-process the fuel, it would be trivial to get access to it and this may eventually eliminate most of it as well.
Obviously storing it in the ground would be the best in terms of long term safety if we never wanted to touch it again. But the costs, both real and imagined, may not justify it in the long term.

@@someoneelse7629 It's much easier to mine new uranium than open the Onkalo. Onkalo is build to withstand end of the world

Ah, politics and crony capitalism. Nothing new here.

*hamper the development of nuclear reactors by subsidizing fossil fuels and crippling nuclear fuels with heavy regulation*
How could nuclear be so expensive?!

Please show me who right now sells you a molten solt reactor for cheaper than a conventional light water reactor? Links? Brochures? Ongoing projects for cheaper and safer must be going on in droves, right? Any links to those? No? Well go read a book and shut up then.

There are no molten salt reactors currently. They are just researched.

@@benbaselet2026 I gather that Moltex Energy have partnered with a power company in Canada and aim to build a waste burner Stable Salt Reactor at Point Lepreau. They claim that SSR reactors will be no more expensive to construct and operate than traditional coal power installations. Their website has some of the details.

Also 5kilometers of ice just a while ago compacted the living rock to quite dense radiation shield

So that means that parts of Canada and South Africa would be ideal for projects like this one right?

I like how you say, "almost" no underground water bodies ...

just many times more radioactive than how we found it.

@@Duconi you mean many millions times more radioactive

@@Duconi That's only temporary. It's more radioactive because the nuclear reactions also produce some elements that decay at a fast rate and therefore produce a lot of radiation. But because they decay faster they'll also be gone faster.

@@seneca983 it needs around a million years to be on the same level as natural Uranium. So, in human time scales it's still very very very long.

They are positioned over the desks so the light is straight down where people work. It stops shadows coming off the monitor onto the desk where there might be paperwork, and the same goes from shadows caused by light behind the desk user.

@@haydenravenscroft1803 So basically random considering the amount of desks and panels to cover front and back

Welcome to the world of BIM, architect painstakingly sets out the ceiling grid; electrical engineer throws the lights in any random way once it hits the the correct luminance values. 😭

I could dig up the name for you if you really want to know :-D
The real control room has somewhat different lighting design now as-built. This pic is from the simulator using an earlier control room design.

What i was thinking too. I decided to just check the comments first since I was in a rush. Might still watch later though.

I don't really see what changed. Watched twice. Still burying the problem. For me, sealing it was just the obvious thing to do even today.

@@drac124 Imagin and it is still cleaner and leaves less cabon footprint then solar! Go figure! LMFAO

@@drac124 Yeah, i didn't thought "keeping burying it, but with less human interaction" was a GAME CHANGING SOLUTION..

They didn't just bury it. It's buried where no entity would ever want to go or accidentally breach, and where geological forces are nil. No threat to the biosphere for 100,000 years, much better than freedom and prosperity killing alternatives rife with corruption.

Bingo. The commentator has no clue that Uranium stays unsafe for millions of years. It wont decay practically in other words while anyone lives.

@@sred5856 And the inside of the Earth is made of lava. The waste is buried away and sealed, it's no more harmful than the lava below us

@@akshittripathi5403 Lol imagine comparing used uranium thats barely buried a few km to lava thats burried hundreds of kms

Perhaps you people should consider that the engineers tasked with solving this problem know a helluva lot more about the subject than you do..?? I personally think that nuclear power should be the future in terms of humans power needs…

@@maxpowers4436 the thickness of earths crust is around 25km , its all lava below that 1 km below the surface is pretty deep , and even in the worst case scenario of an earthquake or tsunami that wont harm the human population in any way

What happened! Engineering is cooler than ever no?

It sure is, but personal circumstance has unfortunately made me go elsewhere. So I once again thank the B1M team for being the link to one of the biggest parts of my youth

It’s fundamentally a non issue burying nuclear waste. You may as well get upset that 99.99% of the earth is uninhabitable because of molten metal or sea.

I expected them to find a technological solution rather than "digging deeper", for example, to further re-use the degraded plutonium or to actually make it less harmful. What they're doing here will prevent future generations, who may figure this out one day, from accessing the waste to deal with it properly, thereby discouraging research into those solutions.

It’s just a safer way of burying...

Anti-nuclear people don't want a solution. They want to hate nuclear.

@@Lord_Sunday "It’s fundamentally a non issue burying nuclear waste" That is just a plain wrong statement. It is very important where you bury it. It needs to be an area that is and will be geologically inactive for at least a few thousand years more. And it needs to be the correct kind of rock. One that is not permeable by fluids and that will not easily form cracks under stress. Many countries in the world, for example all of europe outside of the scandinavian peninsula, is not suited for long term unmaintenanced storage.

That’s your fault for having high expectations.

The recycling process exists. You got fooled by the video name - "biggest problem" isn't the biggest problem.

No reuse per se possible. You wash out the used crap and use the left uranium. Waste stays the same.

That would be nearly endless energy. And that is the role of the nuclear fusion, not fission.

I expected it to cover fusion, instead it's another fission video...

I will Never understand why they are not pushing the thorium system up front. It just seems so much safer and easier at less cost with reduced waste.

The sad truth is that governments aren't interested if they can't get nuclear warfare material out of it.