48 seconds. I predict a glut of helium. balloons for everyone
Hotter than the surface of the sun by a factor of ~18000.
Hotter than the suns core by a factor of ~7.
https://science.nasa.gov/solar-system/temperatures-across-our-solar-system/#hds-sidebar-nav-1
People talk about Icarus flying too close to the sun. Motherfuckers are recreating it in labs 😂
If Icarus won’t come to the sun, the sun will come to Icarus.
In case the reference is lost, there’s a famous Muslim proverb: if the mountain won’t come to Muhammad, then Muhammad must go to the mountain. A flipped version of this proverb has somehow also become commonly known, perhaps surpassing the correct version (in my culture at least): if Muhammad won’t go to the mountain, then the mountain will come to Muhammad.
Hotter than yo mama …. Wait a minute
Just barely though…
People talk about Icarus flying too close to the sun. Motherfuckers are recreating it in labs
This!
That’s definitely some next-gen level magic being scienced/engineered.
And some mother fucking!
I just want to know what kind of thermometer they put into the plasma to measure the temperature. It must have been made of ice or something to not burn up.
They usually measure extreme high temperatures differently, not with thermometers based on heat expansion of materials. They measure heat radiated, not conducted.
In plain English, they look at it with a heat camera, like you see on TV they patrol borders with.
The power of the sun, in the palm of my hand.
…Icarus was a primitive savage from ancient times…he didn’t have our cool cyberpunk tech
Is… is that good?
Edit: it is!
From what absolutely little I know, yes. Sustaining the reaction at such high temps for long is, as of now, difficult.
Yeah, I decided to actually bother and read the article. That’s why I made my edit. This sounds like a very important technical milestone for the development of fusion reactors. Hooray!
This baby is gonna produce such amazing meth
when talking about fusion, just think the conditions of stars/the sun. In order to function correctly, it has to be ridiculously hot.
The race for fusion is how to maintain it, and eventually have a net positive transaction of energy out, to energy in ratio.
just think the conditions of stars/the sun
Hotter than the sun. The sun has an enormous gravity pushing things along. To compensate we use more heat.
I thought we used magnetrons and such, and the excessive heat was due to current inefficiency and control of the fusion process in containing the heat and it building up higher and higher.
The heat is needed so atoms collide enough to fuse without the high pressure inside a star. The trick is keeping the reaction going.
Stupid guy here, being ridiculously hot is the whole point right? Isn’t a fusion reactor just an extremely complex steam engine?
The difficult bit is to keep the fuel fusing. At the temperatures and pressures that are needed to get atoms to fuse together the whole lot wants to blow itself apart. Being able to reliability sustain the reaction for any length of time is a big achievement.
Once we can get it to keep going, then yes, we can use the excess heat for power, although it’ll probably involve turbines rather than an old school steam engine type setup.
The difficult bit is to keep the fuel fusing.
It’s moreso keeping it contained at those temperatures, so that it does not melt the container that it’s in, and potentially explode.
There has to be some absolute next-level power backup to keep the containment field from failing.
Melting actually is not a seriously issue as while the plasma is very hot, it also has very little mass. Sparks are also ludicrously hot but with their little mass contain very little energy so pretty much anything but dry tinder is going to extinguish them before they can do any damage. You want to avoid loss of containment because you will have to clean the reactor vessel and maybe replace a couple of wall tiles but that kind of failure is far from catastrophic.
Though of course with current designs the reactor walls do get hot because that’s how we intend to capture the energy: Pipe water through the walls to cool them, use the hot water to drive a couple of turbines. One of the holy grails to pine for after the current designs actually enter service is to look at ways to drive electrons in a wire directly from the plasma, no detour via heat. The other is aneutronic fusion.
One of the holy grails to pine for after the current designs actually enter service is to look at ways to drive electrons in a wire directly from the plasma, no detour via heat.
That’s actually really interesting, as I never heard of that before.
Yeah you’re absolutely right, damn that’d be one hell of a Holy Grail touchdown moment for Humanity if we could pull that off, the direct transference, no “middle man”.
The other is aneutronic fusion.
From the link (for others like me and did not know what the word meant)…
Aneutronic fusion is any form of fusion power in which very little of the energy released is carried by neutrons.
I mean, in principle we can already do it: Fusion reactions tend to produce lots of electromagnetic radiation, and we can drive wires directly via electromagnetic radiation, the technology is called solar panels. Trouble being solar panels generally aren’t good at absorbing X-rays.
Melting actually is not a seriously issue as while the plasma is very hot, it also has very little mass.
Read the below from this article…
One of the biggest obstacles to magnetic-confinement fusion is the need for materials that can withstand the tough treatment they’ll receive from the fusing plasma. In particular, deuterium-tritium fusion makes an intense flux of high-energy neutrons, which collide with the nuclei of atoms in the metal walls and cladding, causing tiny spots of melting. The metal then recrystallizes but is weakened, with atoms shifted from their initial positions. In the cladding of a typical fusion reactor, each atom might be displaced about 100 times over the reactor’s lifetime.
That’s not the plasma that melts anything but neutron bombardment. The containment and fizzling out issue is the same whether the plasma produces neutrons or just tons of EM radiation which is what I focussed on.
That sturdiness of the cladding things is an important factor when it comes to making cost-effective reactors, that is, the price you sell electricity for needs to cover replacement parts, but is not really that much of an issue when it comes to achieving fusion the materials we have are sufficient for that. Proxima Fusion (the Max Planck spinout) is working on those economical issues for their commercial prototype (early 2030), it remains to be seen whether they go for durable and expensive or cheap but needs to be replaced more often. Which isn’t unusual for power plants in general, none of them run 24/7 they get shut down for maintenance once in a while.
How are they even containing that heat as this is obviously warm enough to melt everything in existence (as far as I know)?
vacuum for isolation. Magnets, so the plasma stays in the middle and won’t touch the walls. Microwaves to heat it up from the outside.
ELI5 would be huge magnets. If there is something that melts everything humanity ever created and knows of, keep it away from everything. But it is a real problem, instability in the plasma leads to the need for better materials.
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https://en.m.wikipedia.org/wiki/Nuclear_fusion
The fusion of light elements up to a certain nucleus size releases energy. However, fusion only occurs at very high temperatures and pressures. The goal is to 1) create the conditions for nuclear fusion (which they did), 2) have the fusion reaction produce energy that sustains those conditions (they did for 48 seconds), and ideally a tiny bit more, 3) gather residual energy that isn’t critical to the reaction itself, which is the part that looks like a steam engine.
presuming you mean a fusion electricity power plants - maybe. That’s one option.
at those temps, thermoelectric could be interesting.
Sorry im not any sort of scientist here but i thought energy could not be created or destroyed so to get a net-positive energy out we would need to keep feeding in fuel, is this correct?
And if so, how?energy is not created nor destroyed, however something can change forms, which gives off energy.
how stars work in fusion is that their high pressure and high temperatures allow for the fusion of particles. hydrogren (1 protonl fuses with another to produce helium (2 protons). in a stars life, that cycle continues. elements fuse till it hits iron (the end point of fusion). which then a stars life.is considered dead and eventually black hole stuff starts to happen due to density of star.
the power is actually not “infinite” its limited by the fuel supply available (hydrogren), but the net energy in to energy out is positive if the fuel source exists.
Yes but how do you keep feeding this kind of reaction? I imagine you cant just drop more fuel ‘down a tube’. Do they shut down the reactor and then restart it with fresh material?
I assume they shoot the fuel in with some light particle acceleration. Maybe they just let it diffuse in, but it’s a gas so it’s not that hard to get it to enter.
The hope is they get the cost of maintaining the electromagnets (power and cooling) to be cheaper than the power we can extract from the reaction.
My question is more about what’s the logistics of getting power out? We’re making a lot of heat, so it’s probably steam power at the heart of it, but a lot of this effort is to keep the heat in is it not?
I’m not an expert but I believe the fuel is hydrogen. Hydrogen atoms fuse together to produce helium + energy
I’d love to see an operating fusion reactor in my lifetime. Real sci-fi technology
Currently reading news and communicating with people around the world from the privacy of my toilet using my hand terminal. It can also understand what I am saying and excecute my spoken commands (to some extent at least). That’s some Sci fi shit right there. Pun intended
It’s seriously insane growing up on star trek and then seeing it come to life.
Still holding out for flying cars.
And warp drive!
I don’t want flying cars because I don’t want 95% of the people around me to be driving regular cars. Can’t even use a turn signal and now they have carte blanche to drive over houses and shit?
The answer is mass transit. Mag-rail, not personal aviation.
Yeah, motherfuckers can’t even drive in two dimensions. Adding a third would be a clusterfuck of galactic proportions.
I’m waiting for the post-scarcity stuff 😭
The post-scarcity utopia only happens after the Eugenics Wars and that whole Khan thing, mind you…
Unfortunately the limiting factor on flying cars is the drivers. And the limiting factor on warp drive is the science not turning out to be a scam.
I could see AI at least solving the former.
I mean flying cars are basically just helicopters.
And warp drive!
I’d take a jump drive, if warp isn’t available.
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You forget that technological progression is typically exponential as developed technologies each help to advance each other, and our collective base of theory grows. I also feel like machine learning can tip that curve a bit like it’s currently doing in things like protein research.
How is Moores law doing these days?
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I think VR + generative AI is a clear pathway to Star Trek’s holodecks. Imagine being able to just say “I want to play a game I’ve never played before, in an Amazonian rainforest”, and then the AI renders the game and environment for you in VR. We’re genuinely very close to that reality.
Nice. Let’s use it for shit posting and spreading misinformation
Same is true for the printing press.
When will people understand that our tools are not the problem? It’s us!
Porn, don’t forget porn. So much porn
Currently reading news and communicating with people around the world from the privacy of my toilet
That’s some Sci fi shit right there. Pun intended
Well played, sir/madam. Well, played.
Wireless tablets were peak Sci fi at one point.
Now we have the technology that I could make an e-ink reading tablet the size of a star trek TOS/TNG PADD, and it would probably have enough battery to last 6 months just because of all the extra space.
Your toilet understands you? Sweet
Emotionally? No. Linguistically, sure.
I had this thought recently watching a video about the Apple Vision Pro. If I saw some corpo in Cyberpjnk 2077 using that exact device, I wouldn’t bat an eyelash.
Do I want one? No. Is it from the future? Yes.
I still find it a dream for the future.
Do I want one? No. Do I want what it may turn into? I can’t wait to find out
Even if it’s not commercially available in the next 10 years or so, an actual sustained fusion reaction would change the world overnight. It’s crazy how close we’re getting…
Probably going to happen. Proxima Fusion is eyeing early 2030s for a commercial prototype and those aren’t venture capital techbros, it’s a Max Planck institute spin-out. About as hard science as you can get. Wendelstein 7X has shown that the approach works, the thing exceeded all expectations (that is: It behaves exactly as computer models said it would) and scales up without nasty surprises (much unlike tokamaks) so they’re done with the tech fundamentals now it’s about engineering something cost competitive, think requirements such as replacement parts the reactor will regularly need not exceeding electricity market prices.
really hoping ITER pulls it off or they make a new breakthrough design.
I am quite positive I’ll see reliable, sustained fusion reactions in my lifetime.
I’m also pretty positive it’ll be useless as an energy source. Still could be useful for other things though.
I’m also pretty positive it’ll be useless as an energy source.
Why? Honestly curious.
I don’t think we’ll get to the point where the energy that comes out will be higher enough than the energy put in to justify its use compared to other energy sources.
I don’t think we’ll get to the point where the energy that comes out will be higher enough than the energy put in to justify its use compared to other energy sources.
They also used to say Man will never fly.
Technically, just give it time. Politically, that’s a whole other matter.
They also used to say Man will never fly.
Sure… I’m not saying fusion will never happen (it already does of course) or even that it’ll never be net positive for energy.
Just that, for energy it’s looking to be worse than most other options.
So I’m not saying man will never fly, I’m saying something closer to flying cars won’t happen. It’s not that we couldn’t do it, just that the alternatives are better.
just that the alternatives are better.
I’m not sure how you can judge that, against something that doesn’t exist yet.
I’m not sure how you can judge that, against something that doesn’t exist yet.
Simply based on past and current trends. The advancement curve on fusion would need to really step it up and if we say that it can, then we also need to accept the same is possible for the alternatives which means fusion still lags behind.
Fusion would need to be extra special somehow, and from what’s happened so far, it seems less special than the rest if anything.
Naturally this is all speculative of course, and being wrong on this is great either way as one way or another we will continue to get better at getting energy.
Why? Converting heat into electricity is the easy part, it requires no new tech
That’s not the stumbling block for fusion. Getting significantly more energy out than we put in is the issue. Other technologies did this better, and those other technologies are advancing more quickly as well.
That’s not to say it’s not worth trying since nothing ventured nothing gained. There are other technological advancements that will likely come from our progressions in fusion too which will be great. I just don’t see fusion as being a good way to generate energy.
Seems pretty useful to me, considering you only exist because of fusion.
I’m specifically referring to man-made fusion as an energy source… Otherwise essentially all of our energy sources could be called “fusion” since they all trace back to it in one way or another.
48 seconds at those temperatures is no joke, that is pretty amazing. I didn’t see the article elaborate on what the current limiting factors are for pushing beyond 48 seconds. Like I wonder if it’s a hard wall, a new engineering challenge, a tweak needed, etc. this is the reactor that set the last record so they are doing something really right.
(The article touches on this bit a little) I was watching something about fusion the other day and it seems that it is super tricky to keep the magnetic field balanced in a way that keeps the plasma in a proper toroid. Not only does it need to keep the correct strength, it has to fight against random turbulence. This is critical to start the reaction, but also to maintain it.
Also, they gave some other physical limitations in the article as well:
To extend their plasma’s burning time from the previous record-breaking run, the scientists tweaked aspects of their reactor’s design, including replacing carbon with tungsten to improve the efficiency of the tokamak’s “divertors,” which extract heat and ash from the reactor.
Basically, it’s the container that has limitations as containing a pseudo-sun probably isn’t easy.
According to another commenter the heat generated is 7 times that of the core of the sun. Considering we use the sun in sci fi to destroy anything that can’t be destroyed by other means, controlling that level of heat seems like a real challenge
Yeah. Actually using that heat is the next challenge, I suppose. If I am not mistaken (and I am often mistaken), they are not actually using the reaction to power the reactor yet.
It’s all math, basically. If they measure more energy coming out than they put in, it’s considered a win.
How would they use it to power a reactor? Is it like a regular nuclear reactor where you essentially boil water to power a steam turbine?
I swear a part of my inner child died the day I found out that nuclear reactors are essentially big kettles.
It’s likely going to create steam, just like a reactor today. It is a very effective way to turn a turbine for a generator, after all. All the bits that actually start and maintain the reaction need fuck tons of electricity, so the reaction can literally power itself when attached to a generator.
While there are a ton of formulas for converting energy from heat, to steam, to mechanical energy and then into electricity, it’s all basically the same: more power out than you put in is a good reaction.
Almost forgot, water is dual function. It cools the equipment and it acts as an energy transport. I believe ammonia is more efficient in some circumstances, but water is better for obvious reasons.
Yeah, I mean it makes sense. My inner child wants there to be some sort of magic that splits the atomic nucleus (or in the case of fusion… well you know) and harnesses the energy through some sort of fancy magical-to-us-commonfolk process.
Kettles are great, but not whimsical or fantastic.
How the heat is generated is still wicked-cool and is basically magic. Think about it this way: We are holding a toroid shaped micro-sun in place with magnets. Those magnets need to be adjusted hundreds of times a second to keep everything in its place. Sure, it just boils water, but how it boils water is where the real magic is.
We are building atoms by taking control of the core of a star.
Last one I read about is just constantly and very quickly (far quicker than human abilities) adjust the magnetic field around the plasma in order to keep it stable and in place. They’ve been (or at least one team was) using AI to go over data and control and predict the field adjustments, because only reacting after the plasma starts to move hasn’t been quick enough.
Yes, that’d be TAE technologies.
The algorithm was called the optometrist, it was paired with a human operator to more quickly converge on the correct settings for stable plasma by having the machine randomly tweak various meta-parameters, while the human would generally decide whether the current settings were “better” or “worse” than the previous pulse.
I wonder if there isn’t a stable chamber shape that promotes turbulence in a controlled manner in order to prevent it getting out of hand? A little bit like the dimples on a golf ball create micro pockets of turbulence promoting laminar flow.
Unknown. There were attempts into that general idea, one of them is the polywell, but I don’t know too much about it.
They most likely ran out if liquid helium as the world is running out of the stuff at an alarming rate
Fusion uses hydrogen and produces helium
They use liquid helium to cool the super magnets…
Sure, but they don’t consume it, and let it just boil off. They have massive refrigerant setups to bring it down to temp and keep it there.
Sure, but why does that mean they must be losing the helium each time? I don’t know anything about liquid helium and super conductors, but I know I don’t need to replace my radiator fluid just because it cooled my engine.
Once used, it need to be cooled down to -252c to be reused. Not like a closed loop of oil
Alright, did some research, first off you’re wrong about this being the reason even if this was a plausible reason. The real reason is the ash and heat divertors failed.
Second, you don’t even need liquid helium for super conduction. Here’s a few closed loop helium gas coolers that get to 10 kelvin. They need to be refilled on the scale of years, not from a single test.
https://www.arscryo.com/closed-cycle-cryocoolers https://stirlingcryogenics.com/products/closed-loop-helium-gas-cooling-system/
I get you care deeply about helium loss but this is the last thing you should be accidentally spreading misinformation about. This process literally creates more helium then it uses.
I didn’t say they did, just said probably, I’m just a stupid redneck.
Oh and how do we capture said multi thousand deg helium?
This is such a ridiculous comment. I can literally go on Amazon and buy some helium right now. You really think if that’s possible, a cutting edge research lab would run out of the stuff?
Sure, it’s limited and getting scarcer, but no one’s running out yet.
That doesn’t mean that they didn’t have enough. The world being in the process of losing helium as a whole doesn’t mean these researchers “ran out” of it. If they knew they needed it, they would have purchased it, so unless the world has run out of helium already then they didn’t run out of it. You act like noone there could calculate exactly how much helium this uses per second and just buy x seconds worth of helium.
OK let me rephrase, they ran out of usable liquid helium. You do realise LH is the coldest known substance known. If you have 5L of usable LH once you use the 5L and turn it into a gas it is no longer -254c A sing use of an MRI uses 2000L at say the low end of cost of $30 so $60,000 and that is at room temps now add a few thousand degrees…
A single use of an MRI doesn’t use 2000 liters, that is the upper end of a hospitals ENTIRE supply of helium. On average an MRI users 70 Liters per MONTH of operation. You’re literally just spewing bullshit at this point, have a fun time being completely misinformed on things that upset you greatly, I’m going to go play games
You are right. In a sense, they have to reclaim the helium. It takes 2,000L to run it, they reclaim it compress/cool then reuse it. That 70 L/month is what they loose after use.
Do some reading before being an ass
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I can’t wait for the billionaires to increase our power bills for this.
Yes yes I know it would be cheaper, but billionaires are going to charge more money even though it’s costing them less.
You know, not everything has to be “eat the rich”.
This could just be a really neat science article/discussion about a fusion test, and have no need to bring up Capitalism.
The constant complaining just gets old after a while. Be focused, if you want to be listen to, and taken seriously.
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Seriously, can’t we just be happy about something for a few minutes?
Well, for me, it’s more of ‘quit your bitching about everything all the time, it’s annoying as F’.
Though if it wasn’t that, it would definitely be what you stated.
Edit: I don’t mean to be insulting, just expressing the irritation of it. I’m not trying to diminish anyone’s opinions on any subject, just trying to focus it into the proper conversations so that other conversations don’t get polluted (see below).
Easy to call it bitching when you have an easy privileged life.
If everyone was stuck outside in the cold, and one guy wouldn’t stop talking about how cold it is, how long before others would start to be annoyed? Yes, it’s cold out. Yes, we’re cold too. Yes, mutually complaining about the cold can be a bonding experience, especially when we can all see another group safely enjoying their warm shelter they refuse to share. But when every conversation or discussion for months on end is interrupted by the guy saying it’s cold and offering zero solutions, at some point people are going to tell him to shut up.
TL;DR: No privilege here; please stop bitching
Easy to call it bitching when you have an easy privileged life.
No, it’s not, not when you care.
When you care, you want to see opinions expressed at the right places, and in the right amounts, so they’re the most effective.
‘Bullet spraying’ the same thing over and over again everywhere just dilutes the message, and it turns people off to listening to the message, and harms the causes the opinions are being expressed for.
Yes it sure is! Just as easy as it is to not be a permanent cynic about fucking everything, because (and I speak from past experience I wish people would learn from here) that takes effort too.
Consider: the caloric energy expenditure in your pointless stating the obvious above, now multiply that by how often you do this. Carry the 2. Imagine using that on something productive! Think of the Bitcoin you could own!! All the energy needed for that Bitcoin’s gonna need at least 50 seconds of fusion.
And so: we’ve come full circle, as was prophesied.
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no
Agreed. There’s communities where these comments are fine but the science community should be pretty strict about what type of comments are allowed. Every comment section in any community just ends with the same comments.
This is the thing which makes Lemmy more annoying than reddit. Every. Fucking. Thread. Has to be this same low information teenage edgelord shit about why capitalism has ruined the color green, or whatever. It’s as exhausting as it is stupid.
Half this shit has literally nothing to do with capitalism. The other 2/3 is literally shit which is the exact same or worse under the USSR/Mao. For the love of fucking God, please at least critique capitalism in a way which makes literally any sense at all and stop with this “say the line Bart” fan service.
What about throw the rich into the fusion reactor?
Don’t think the containment field could handle that.
It’s fair that the constant complaining does get old, and the eat the rich shit is VERY old. But I don’t see power bills getting cheaper as a result of this technology eventually becoming viable. At least not at first. Especially when in the US you have people like Warren Buffet who buys power companies and immediately raises prices by around 50% as a matter of routine.
But I don’t see power bills getting cheaper as a result of this technology eventually becoming viable. At least not at first. Especially when in the US you have people like Warren Buffet who buys power companies and immediately raises prices by around 50% as a matter of routine.
Ah! Now this is a conversation we can have. (Gets on soapbox.)
With all the talk about cheap fusion energy, no discussion is ever made about how it’s going to fit in with our existing capitalistic system, and what happens to all the companies that exist worldwide that currently generate energy using other/classic means.
Do they all go bankrupt? If so, what does that mean to the different economies in the different countries?
Assuming they’re willing to go bankrupt in the first place. What about if they fight back, if they flex their political power to prevent the cheap fusion energy from being realized?
Maybe they have governments subsidize them? If so, then so much for cheap energy, as we all pay more taxes to subsidize. At that point then why bother, economically that is. It still benefits the planet, so there’s that.
Maybe the world powers decide to do nothing, and just shelve fusion power altogether, to protect their existing interests. Then what happens to the planet, as we get more and more into trouble using fossil fuel energies that harm the planet? Existing renewables (solar, etc.) aren’t enough, so something else is needed as well.
We all joke and/or worry about fusion energy being here in 20 to 30 years, and how that 20 to 30 years always keeps sliding into the future, never coming to fruition. But the real problem is going to be once Humanity finally makes fusion power work practically, what does that mean to the status quo in power, and will they be accepting of it, and if not, what does the rest of us do about it?
TLDR: Does old power ‘go quietly into that last good night’ and allow new power to take over, or do they fight back? And what does that mean for all of us? And the planet?
(Gets off soapbox.)
We still don’t know anything other than wild hand waving speculation about the eventual costs of fusion power. The ultimate solution may require a ton of unobtanium-spice alloy that has been tempered in a midoclorian bath. We have no F-ing clue what it’ll cost. But I can guarantee that there will be state sponsored conspiracy theories about all aspects of it. So let’s wait before we start fighting over the conspiracies. They are not ripe yet.
So let’s wait before we start fighting over the conspiracies.
Nothing wrong with starting the discussion. I guarantee you those who have something to lose are already thinking about it.
From another article…
—not least by thinking about issues of energy equity and justice. “When we have these plants, where do we place them so that we can provide a clean energy source for all types of communities?” the NIF’s Ma asks. “How do we build up a workforce that is diverse? How do we ensure that as we are building up this industry, we are training folks to have the skills of the future? We get to at least try to do it right this time.”
As far as this goes…
The ultimate solution may require a ton of unobtanium-spice alloy that has been tempered in a midoclorian bath.
… I see what you did there. 😉
I mean, If the oil and other polluting energy companies decide to fight back, I suppose that the fusion energy company can just send them a reactor as a gift to their headquarters and detonate them. Problem solved. /S
It’s wwaaaaaaaayyy to soon to be speculating about power bills. A practical power plant is probably still about 30 years away.
Some of us can’t not live with daily trauma of being poor lol
Oh the comments annoy you? Sorry some of us will struggle quieter? Wtf
Oh the comments annoy you? Sorry some of us will struggle quieter? Wtf
I’m advocating for you to be smart in how you do it. Apply it in the right places, in the right amounts, to the right audiences.
‘Bullet spraying’ the same thing over and over again everywhere just dilutes the message, and it turns people off to listening to the message, and harms the causes the opinions are being expressed for.
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Literally telling people to be quiet about it.
No, not to be stupid about it. There’s a difference.
Say it at the right time, at the right place.
‘Bullet spraying’ the same thing over and over again everywhere just dilutes the message, and it turns people off to listening to the message, and harms the causes the opinions are being expressed for.
so dumb
Self awareness is hard
🤦 your reading comprehension “bro”
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Go outside.
Until the rich are eaten it should be brought up at every opportunity. They still exist so keep it up until they’re gone.
‘Bullet spraying’ the same thing over and over again everywhere just dilutes the message, and it turns people off to listening to the message, and harms the causes the opinions are being expressed for.
“eat the rich” is the “this” of lemmy. Holy shit is it ever getting old.
Sorry my favorite food isn’t boot leather
You tell ‘em!
Once the top 1% are eaten, there will be a (slightly poorer) new top 1%. We’ll eat them. Eventuallt we will all rise to the top and be eaten. Thus, the circle of life will continue.
Cheaper than renewables? 100 million degrees doesn’t sound cheap, and frankly fusion power has been “coming in the next 10 years” at least since I was at school and I’m in my mid-forties.
The usual joke is that fusion is always “30 years away”, not 10. The reason is that fusion projects have historically faced an issue where funding is chronically below predictions
However, this past decade is seeing a number of promising changes that make fusion seem much closer than it ever has. Lawrence Livermore managed to produce net energy gain in a fusion reaction for the first time. Fusion startups are receiving historical levels of VC funding. ITER is expected to produce as much as ten times as much energy as used to start the reaction. The rise of private space infrastructure is making helium-3 mining on the moon more possible than ever before.
But technical issues aside, does that sound financially viable as a source of energy?
Even regular fission has fallen out of favour due to cost, and that’s basically just hot rocks. Harnessing a miniature sun using gas mined on the moon sounds ludicrous in comparison.
It certainly has the potential to be. Remember most of the costs related to fission are safety measures, plant decommissioning, and waste disposal. If we merely had to operate the reactor without concern for those issues, fission would be incredibly cheap. The fuel costs and basic technical requirements to operate a reactor are trivial in comparison.
Fusion produced 4x more energy per mass of fuel compared to fission, isn’t at risk of meltdown, and has the potential to produce negligible radioactive byproducts. In addition, it outputs helium which is an important and finite strategic resource.
Even if the cost of fuel goes up dramatically compared to uranium reactors, it might still outperform nuclear in a big way. However, sourcing He-3 from the moon might be a lot cheaper than you think. My day job is related to space resource utilization. Transporting resources off the surface of the moon could be quite economical once we reach a sufficient level of development.
Much like the IRA attempting to kill Thatcher, we can fail to achieve unclear fusion as many times as we want, but we only need to succeed once.
Every year the people who send you bills get together to decide how big a slice of you each of them gets.
Yes, it always adds up to 100%
Or all these new companies that you now decide to charge you for power despite not actually being involved in power production, substations, or any other transmission. They exist only to drive up cost for the consumer and give a false sense of choice.
Half my electricity bill is “delivery fees” which I assume is line maintenance.
Super cheap electricity could still drop my bill by 40%
This could also translate to relying more on electricity for things like cooking and heating which would decrease carbon emissions.
Cheaper in the long run perhaps - but how expensive is it to build?
Atomic energy is only “cheap” since the cost for the power plants is heavily paid for by tax money. For the cost of one power station you could cover a huge amount of land with solar panels.
This is apples to oranges. Fusion is not the same as fission. We simply don’t know the economics of a viable fusion reactor.
However, we do know fissions cost is heavily driven by safety and regulation. It is very reasonable to assume that fusion’s requirements in this area are distinctly smaller.
This is kind of my worry as well. We’ve seen fission become impractical by cost and renewables are much cheaper, so even a successful fusion generator has a high bar. I dream of controlled fusion to not just be successful, but practical
You gotta make up for the research costs.
Is this experiment not govt funded?
Has that ever stopped them before?
Yup. To be fair, they never specified who was actually responsible for the cost of research. US pharma companies do that all the time - the majority of pharmaceutical research is heavily subsidized so, their just double-dipping.
In that case, got to pay those lobbyists.
government what
We don’t know that it will be cheaper. We still don’t really know that it will be possible.
Lmao, I literally clicked on this thread being like “I wonder how Lemmy will find a way to whine about this.”
Hot damn! Limitless fusion power is only thirty years away!
Like it has been for the past 30 years (which, I assume, was the joke here.)
If fusion research was funded adequately we’d probably have it by now, but I don’t know if it’s the energy lobby or what that means that it’s chronically underfunded. An actually working fusion reactor design would bring about such an upheaval in the energy markets that I wouldn’t be surprised if plutocrats had a hand in making sure the research receives orders of magnitude less money than it should.
Existing energy conglomerates (ie, oil and gas) probably send their army of lobbyists around the world to spread FUD about fusion. Thus minimal funding. 🪦
Not while fusion is 30 years away. They’ll wait until it’s closer to 2 years.
Maybe. We all (here) wish fusion power was funded better and understand how useful it could be for humanity if we can make it happen, but ….
- yesterday I read about the Stellerator using 3D printed parts
- in this thread, someone commented on using ai to drive containment
- I’m sure teams must be using the latest materials.
It’s quite possible that we would have always needed the rest of the world to catch up
Breakthroughs will bring in investment and then things can accelerate if it ends up viable.
It’s not limitless, you still need fuel. Especially tritium doesn’t really occur naturally because of its extremely short half-life, current plans for ITER involve breeding tritium from lithium in the fusion reactor. The closest to limitless power we have is PV.
Tritium is a convenience, not a necessity. If researchers manage to build a functional fusion reactor which captures the energy, we can find substitutes.
A reactor that produces enough of its own fuel… It’s starting to sound like a perpetual motion machine.
Read again, there are plans to use lithium instead of tritium, still limited.
$10 says fusion power also ends up being the cure for Alzheimer’s.
The advancements in magnetic field manipulation will be of great value to the ferrite-infused prostate medicine field! Also: better selfie camera’s!
Almost as hot as the temperature my wife leaves the shower at.
You should have her turn it off when she’s done and then just set it to the temperature you like. Unless…no.
Unfortunately the amount of helium made in fusion is so small as to be useless for anything humans need. Fusion is just that efficient.
So no chipmunk voices? 😢
Only for chipmunks for now.
We actually get all of our helium from mining, trapped gas. And we’re running out of the easy to reach stuff. So yes, no more chipmunk voices.
But they’re similar gasses that can do the same thing and even ones that make your voice deeper.
Yes! I’ve heard. I would love to try some of that.
Always careful with gasses. You basically replace a certain amount of capacity in your lungs with them, so you can very much suffocate yourself if you overdo it.
They use orders of magnitude more liquid helium to cool the magnets used to stabalize fusion than they would ever make.
sick. cool. So uh. How long until power generation happens now?
Ah who am i kidding, it’ll be at least a decade, probably more like two. Three including manufacturing and building all the plants.
Well according to the 1993 classic, “SimCity 2000,” fusion power becomes available to build in the year 2050. Since I have no other source that provides an exact date of viability, this remians the most reliable prediction we have.
curious, has SimCity predicted anything correctly up to now?
If my experience with the game was an accurate account, quite a few natural disasters.
Wasn’t that the one with the godzilla natural disaster toggle? If so, i figure the next few years could have some fun surprises… if we’re lucky.
The bell riots, September 2024. See yall there!
When did space solar unlock? The uk is building one now apparently
i like this meta, i agree.
Ah who am i kidding, it’ll be at least a decade, probably more like two.
To be fair, they’re trying to create a miniature star and keep it controlled/contained, to use its energy. That’s some next-gen level stuff.
it’s definitely one of the ideas of all time. i just wish people would stop pretending like it’s “just right around the corner”
Meanwhile germany is burning more coal than it ever has to generate power because they no longer have nuclear energy. And gas is expensive.
Stay in school kids. Study Physics & Engineering!
yep. Given how long it’ll take to develop fusion power, multiple generations of people will have worked on it in practice, and many more in theory.
Gonna need a hell of a boiler/turbine to harness that kind of heat.
thats the LEAST of my concerns lmao.
Gonna need one hell of a setup to even produce that level of heat.
20 years.
always 20 years off :-)
Since at least the 90s
It was 30 years away in the 1950s and still is.
Controlled fusion is harder than we thought & may be harder than we think.
its right 100% of the time 60% of the time
This is how we arrive at the “always 30 years away” trope.
It’s also just kind of how these things tend to go. I mean even the the funny international one ITER. Has had this exact issue, they keep pushing back deadlines over and over again. Which is only really surprising if you aren’t familiar with the tech, it’s highly complex. But it’s a great example as to why this stuff happens.
100 million degrees C
Sounds hot.
Sounds hot.
You should see it in a bikini.
Nah. Not that hot. Now 100 million kelvin, THAT is hot!
C is hotter than K, and F is a mess.
F is just salty
Can we get some Fs in chat?
100 million Kelvin is 99,999,726.85 degrees Celsius. The difference is like 0.003%, a rounding error.
Also 100 million Celsius is slightly hotter than 100m Kelvin
Can’t wait for fusion reactors to not be thing for another 50 years at the very least.
Better in 50 years than never
I’d like to know more. How do you actually harness the energy produced by temperatures that high? Is the end goal to figure out how to sustain the reaction at lower temperatures or do we actually have ways to generate electricity from those temperatures without losing most of it to waste?
Same as with almost any other reactor: Steam running through turbines. The high temperatures are important to sustain the fusion process. The goal is that it practically self sustains itself while we just continue to feed it with hydrogen.
Why not magnets
There are fusion reactor designs (most hypothetical, but some physical) which use magnetic interactions to capture the energy as electricity. The issue is that it’s orders of magnitude more complex to do, even if it increases efficiency.
How do those work?
Nobody knows
I think the current designs would all use radiation heat, which means infrared etc light hitting the reactor walls and a coolant (water) running through them to generate steam, and then it’s the good old turbine to electricity process… Light emitted from a plasma that hot isn’t that hot itself / wouldn’t heat reactor walls to the same temps.
Steam turbines aren’t the only way, certain fuel cycles permit direct energy conversion: https://en.m.wikipedia.org/wiki/Direct_energy_conversion
Whey do you mean? Everything is just stream!
Wind, solar, hydro…
It’s all to spin a turbine ultimately. With the exception of solar…
One day we will break that record and nobody will ever know again.
Fusion triple product:
the duration the thing works
xinverse of how close you are to melting the reactor vessel
xhow large is the reactor vessel
One step closer to getting the T-51s working.
Only 2,543,456,495,596 steps to go
This ia a reference to max signed int32 right?
No, the fact the technology has been 5 years away since the 80’s
Oh