0 theoretical hope for fusion energy to ever provide electricity under 30c/kwh. These are hot plasma experiments, which could be used to produce mass HHO from water vapour at just 2200C-3000C, even if endothermic. Can get energy from concentrated solar mirrors or just PV solar if plasma is used. Cooling magnets is a huge energy drain. HHO provide the highest turbine energy gain, though a net gain pathway is just slightly more in reach than fusion.
Meanwhile in America
Meh, net gain is the point, long cycles well be useful for production. Useful, eventually. Cart before the horse, otherwise.
Forget artificial suns, let me tell you right now how to make an artificial moon:
- Be a robot.
- Pull down pants.
- Bend over.
- Point robo-crack towards recipient
- Artificial Moon.
Someone needs to bash these scicomm journalists over the head until they stop using the words “artificial sun”
Also, where’s the study? Is it even peer reviewed?
While neat, this is not self-sustaining — it’s taking more energy to power it than you’re getting out of it. (You can build a fusion device on your garage if you’re so inclined, though obviously this is much neater than that!)
One viewpoint is that we’ll never get clean energy from these devices, not because they won’t work, but because you get a lot of neutrons out of these devices. And what do we do with neutrons? We either bash them into lead and heat stuff up (boring and not a lot of energy), or we use them to breed fissile material, which is a lot more energetically favorable. So basically, the economically sound thing to do is to use your fusion reactor to power your relatively conventional fission reactor. Which is still way better than fossil fuels IMHO, so that’s something.
Helion has an interesting take on fusion reactors that generate power using electro magnetism and Copenhagen Atomics are trying to create Thorium reactors. I hope they will work better than the boiling they use in tocamac reactors
It seems like it’s probably too late.
Even if we crack fusion power today, I can’t see it being deployed cheaply enough and quickly enough to compete with solar/wind+batteries. By the time we could get production fusion plants up and ready to feed power into the grid, it’d be 2050 and nobody would be interested in buying electricity from it.
moar energy! there will never not be an application for energy production. specifically fusion has the benefit of being highly dense large scale production. which makes it attractive on a number of levels.
Economical energy production, sure, not any energy production. There is a reason we no longer burn wood to heat public baths.
I realize the science marketing of fusion over the past 60 years has been ‘unlimited free energy’, but that isn’t quite accurate.
Fusion (well, at least protium/deuterium) would be ‘unlimited’ in the sense that the fuel needed is essentially inexhaustible. Tens of thousands of years of worldwide energy demand in the top few inches of the ocean.
However that ‘free’ part is the killer; fusion is very expensive per unit of energy output. For one, protium/deuterium fusion is incredibly ‘innefficient’, most of the energy is released as high-energy neutrons which generates radioactive waste, damages the containment vessel, and has a low conversion efficiency to electricity. More exotic forms of fusion ameliorate this downside to a degree, but require rarer fuels (hurting the ‘unlimited’ value proposition) and require more extreme conditions to sustain, further increasing the per-unit cost of energy.
Think of it this way, a fusion plant has an embodied cost of the energy required to make all the stuff that comprises the plant, let’s call that C. It also has an operating cost, in both human effort and energy input, let’s call that O. Lastly it has a lifetime, let’s call that L. Finally, it has an average energy output, let’s call that E.
For fusion to make economical sense, the following statement must be true:
(E-O)*L - C > 0.
In other words, it isn’t sufficient that the reaction returns more energy than it requires to sustainT, it must also return enough excess energy that it ‘pays’ for the humans to maintain the plant, maintanence for the plant, and the initial building of the plant (at a minimum). If the above statement exactly equals zero, then the plant doesn’t actually given any usable energy - it only pays for itself.
This is hardly the most sophisticated analysis, I encourage you to look more into the economics of fusion if you are interested, but it gets to the heart of the matter. Fusion can be free, unlimited, and economically worthless all at the same time.
oh boy another economics dweeb who thinks they know what theyre on about. those were a lot of words for a false premise. There is no doubt that fusion can produce more energy than it costs to maintain. we have literal empirical examples of this occurring in nature. You forgetting a significant factor in your analysis: time.
The problem with fusion isnt the science behind its energy production. its the engineering behind the design of plants, unfortunately for fusion it suffers from being fairly unique in that its a high radiation, high heat domain which makes the engineering incredibly difficult to get funded and there isnt anything else comparable to piggy back off of. That’s currently your C value and those costs are one time. solar and wind also suffered from this for decades. fortunately those tech could piggy back off discovers in other domains.
The cost of fusion plants and the energy production they’ll eventually unlock will disappear soon as we figure out the containment issues, and we’re getting close.
Even in a world already powered 100% by renewables, fusion is attractive for high energy applications. For a current example see training of LLMs. However there are Industries with immense power requirements like Aluminium smelting that could use fusion power as well.
So far humans have found applications for all energy they were able to produce.
Nah, it’d be quite useful for interstellar travel as but one example I’m helping with.
I think if we figure out nuclear fusion there will be induced demand for energy, in applications that were previously infeasible: desalination via distillation instead of reverse osmosis, direct capture of CO2 from the atmosphere, large scale water transport, ice and snowmaking, indoor farming, synthesized organic compounds for things like carbon sequestration or fossil fuel replacement or even food, etc.
Geoengineering might not be feasible today, but if energy becomes really cheap we might see something different.
This seems like a pipe dream but I don’t disagree that it could open up some new applications
Long distance transmission creates enormous power wastage, and cities are rarely located in places ideal for large scale wind and solar. Fusion can help deliver power to urban centres, reducing the acreage needed for a solar farm.
There are also inland places in northern latitudes that benefit little from solar. Wind and fusion would be a great energy mix for those places.
Fusion would provide orders of magnitude more power than solar. There’s a limit on how much we can practically get from solar, fusion would allow us to exceed that.
Yeah, but there’s no prizes for producing way more power than we use. We’re not running out of space to put solar panels or batteries.
‘Too much power’ has never been an issue, and will likely not be an issue ever with solar. There are multitudes of technologies, especially in industry, that are currently impractical because they would consume too much energy.
Maybe for deep sea or space?
What I would like fusion to do is power space ships
With what infrastructure are we even going to use all this electricity?
There’s a ton of stuff in industry and manufacturing that aren’t practical because of energy. A lot of processes could be run cleaner too, leading to better environment practices.
That is one technology that I don’t care if China steals secrets to make it happen faster.
No need!
The data gathered by EAST will support the development of other reactors, both in China and internationally. China is part of the International Thermonuclear Experimental Reactor (ITER) program, which involves dozens of countries, including the U.S., U.K. Japan, South Korea and Russia.
If we were a smarter society, we’d end our stupid cold war with them and cooperate.
If they were a more humane society, we likely would.
More like if they were willing to embrace capitalistic western values and bend over for America whenever we’re feeling frisky
More humane like Nazi-America, or more humane like Warcrimes-Russia? Description unclear, please clarify.
More humane like the best of us wish to be and the majority of us never will be
More humane as in respecting human rights I suppose
Is there a state that is not disrespecting human rights ? I for one haven’t heard of any.
Degrees in hell maybe.
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Yeah more humane like Israel… America has been installing dictators all around the world for decades what are you talking about? You think America cares about humanity? You cant even birth a child without a $10,000+ bill.
America cares about moneyyyyy and nothing more
We topple democratically-elected leaders because it suits our economic plans. People downvoting the above comment don’t know shit about history. And that’s because our schools don’t accurately teach it.
im pretty sure almost unilaterally, every country would like the solution to near infinite energy regardless. its extremely vital if as a species, ever want to start a colony outside of earth.
the only people against it would be those in the pocket of other forms of energy monetary wise.
Preach.
Post-scarcity society def scares capitalists.
Tony Stark was able to build this in a cave!
With a box of scraps!
We’re not Tony Stark, sir.
Yeah, well, you know, that’s just, like, your opinion, man.
Yeah, but Hawk could ride those pipes way better.
Can’t wait for my Trumper boss to bring this up at work again as “Did you hear China secretly replaced the sun?”
That’s fucked up. I don’t even know my boss’s politics, (as it should be). Do you have an HR department? This is a huge liability for your company…
It should be a huge liability, but the US is a fucked up place. Even “blue” states are full of people at work voraciously politicizing everything, always thinking they are right about everything. These people are everywhere, they lack humility and critical thinking, and they are insufferable.
Bro this is the American Bible belt, almost every person I’ve ever directly reported to across a dozen or so jobs, has been the exact same way. I’ve always known my bosses politics, much to my displeasure, and they’ve always been extremely conservative, regardless of the field of work.
IIUC the end goal, for any fusion reactor, is to heat up water and drive a steam turbine.
Imagine you could drive a steam turbine at zero cost. What happens if just keeping that turbine running costs more in upkeep than e.g. solar panels do overall?
Is there really much of an economic case for infinite energy on demand (and that is if fusion can be made to work in not just the base load case) if we have infinite energy at home already?
Fusion reactors don’t necessarily need to heat water. I’m aware of at least one company that is developing a power plant which primarily uses induction: https://en.wikipedia.org/wiki/Helion_Energy
The economic case for infinite power is that it is infinite power, Karen.
Not everything needs to be a fucking profitable business, god damn ferengi idiots.
Even if not a single residential property gets hooked up to a fusion generator, there will still be an economic case for fusion, especially as you move away from the equator. Industrial applications require an enormous amount of energy, and with solar power having a hard limit on the amount of energy you can get from a square meter, you’d have to have square miles of panels and batteries to keep one plant going.
