Biggest Obstacle of Nuclear Fusion Overcome?

Yetihehe writes "Nuclear fusion could become a more viable energy solution with the discovery of way to prevent super-hot gases from causing damage within reactors. The potential solution, tested at an experimental reactor in San Diego, US, could make the next generation of fusion reactors more efficient, saving hundreds of millions of euros a year."

I just want a Mr. Fusion in my car

[PrescriptionWarning]

but I guess it makes me wonder if such a thing would ever be possible? Can a car run purely off of garbage? Or does the fusion process require a more specific substance to begin with, like water or carbon or something?

Re:I just want a Mr. Fusion in my car

[Fordiman]

Deuterium, usually. Heavy hydrogen.

And, no. You can't have Mr. Fusion in your car. You have to use Budweiser in your Direct Ethanol Fuel Cell - which is fine; if a purpose for Budweiser can be found, it's better than drinking it.

Re:I just want a Mr. Fusion in my car

[QuantumPion]

Technically, you can fuse any element lighter then iron (so that the final product is at most iron). However, the heavier you go, the higher temperatures you need and the less efficient the process. This is because iron has the highest binding energy of any element. Past iron, you have to use fission.

Re:I just want a Mr. Fusion in my car

[b1t+r0t]

If you have more complex elements, work your way down to Hydrogen with Fusion.

Actually, you work your way toward iron from either direction. The farther away from iron that you start, the easier it is to get a net gain in energy. Fusion is best with hydrogen and helium, and fission is best with heavy elements like uranium, plutonium, and thorium.

You can do fission with light elements (except for hydrogen-1 of course) and fusion with heavier elements, but you have to put in more energy than you get out. This is why stars die out.

Re:I just want a Mr. Fusion in my car

[NittanyTuring]

One of the problems with Mr. Fusion is that it would produce way too much energy. One banana peel, into pure energy, would produce 1.25 billion kilowatt-hours. How many miles can you get on that? Releasing such energy instantaneously would probably spell the end of this sector of the solar system.

Re:I just want a Mr. Fusion in my car

[pnewhook]

They claimed nuclear power would make electricity "too cheap to meter". I'm wondering what claims they're making for fusion that will turn out to be completely bogus?

The "they" you are talking about was one moronic U.S. bureaucrat: From the Canadian Nuclear FAQ:

It is a common perception that early nuclear power proponents boasted of electricity from nuclear reactors becoming "too cheap to meter" in the near future. In fact, while nuclear reactors have become one of the cheapest large-scale options for base-load electricity, it was never the expectation of earlier nuclear engineers that costs would come down low enough to render metering irrelevant.

In fact, the oft-quoted prediction, "too cheap to meter", was made in 1954 by an American bureaucrat, Lewis Strauss, in a speech that very much reflects the public's post-war euphoria over nuclear technology (and technology in general), galvanized by President Eisenhower's vaunted "Atoms for Peace" program launched in December 1953. Strauss' comments predated the first nuclear power plants by three years, and included other optimistic references to wiping out world hunger and extending human life expectancy.

Re:I just want a Mr. Fusion in my car

[Heraclius]

Budweiser is certainly a much less expensive fuel than gasoline, so that's a plus.

Re:I just want a Mr. Fusion in my car

[javamann]

And tastes the same, that's a minus

Wow!

[gasmonso]

The first post related to fusion on /. without declaring that cold fusion is only a few months away!

http://religiousfreaks.com/

Re:hmmm..

[GundamFan]

Well... What do you think they burn in these things? (kidding... put away the flamethrowers junior economists)

hundres of millions of euros?

Are that many foriegners being killed annually by fusion? I knew stuff was bad out there, but this is amazin

Biggest obstacle?

[chinobis]

So, nuclear fusion has finally got serious backing from politicians and the R&D budget to go along with it?

Bad Headline

[pavon]

Hemos, Where did you get this "Biggest Obstacle" from? The researcher didn't claim it in the article, and it isn't true. IANANP, but from what I've heard, the biggest obstacle to nuclear fusion is maintaining the reaction for long periods of time, and doing so with relativly low energy input.

This is a cool development, but unless I read incorrectly it doesn't solve those problems.

Re:summary is wrong

[Fordiman]

Actually, it is about causing damage. The mag field does not 'leak' (implying that the magnetic field becomes somehow compromised); instead, it's overcome. The technique doesn't incerease the mag field's strength, but draws off the cause of the 'bursts'. The end result is that the fusion reactor is damaged less, loses less heat/plasma density, gets better efficiencies, and has to be shut down less often.

Thus saving millions of dollarpounds each year.

It'll Be All Done...

...in 20 years.

Trust me. The fusion folks can be counted on to be consistent.

Re:The medium shapes the message

[ZombieRoboNinja]

Well, you have to bear in mind that Slashdot has a tendency to filter for that kind of sensationalism.

I'm sure there are plenty of minor breakthroughs in all sorts of fields that get reported responsibly, or not at all. But nobody pays attention to those stories enough to submit them to Slashdot. And if they DO, no doubt Zonk or whoever passes over them as small beans compared to the big stories Slashdot has to tell, like "Linux text editor you've never heard of may fork, says analyst!" The only stuff that makes the grade is the stuff with nice, attention-grabbing headlines.

SO all we see on Slashdot is the sensational stuff, which leads to lots of complaints like yours.

Re:biggest obstacle will be environmentalist.

[iogan]

I think maybe you're confused between fusion and fission. Environmentalists generally don't mind fusion, as it is a safe, and very eco-friendly way of producing energy. Which is, you know, what they like.

Fission, on the other hand.. is problematic. It might be the only viable alternative at the moment (well actually I'm just saying that to not get flamed) but nobody can say it doesn't have its share of problems. Waste being the biggest, safety (yeah yeah I know, pebble reactors, yada yada ;-) ) being the second biggest.

Huh...

[spankey51]

huh... I always thought the biggest obstacle to overcome would be... you know... getting a positive energy return from the damn thing!

Re:hmmm..

[richdun]

Actually, it's the International Tokamak Experimental Reactor . It'll service no one with power (just science), and is being paid for by a lot of different countries.

TFA used euros because it was written from a European perspective. It's generally customary to quote price in the local currency of the audience you are writing for.

Re:Vapourwear

[famebait]

No, "vaporwear" would mean you're shrouded in smoke. This here is not smoke but plasma, and it's not doing the shrouding, it is itself shrouded in a magnetic field ("fluxwear", if you will), which following this discovery can be made more hardwearing than before, which will in turn protect from damage the hardware, which encloses the whole system and as such might be referred to as "hardwear" for the contents. It is important to be wary of the difference lest the reader grow weary. It's not really all that hard.

Didn't Dr. Octopus figure this one out already?

[Benjamin+Shniper]

Using AI -controlled extra metal arms seems like a much cooler way to fix this problem of controlling the reaction to prevent outbursts. Plus you can beat up superheroes.

-Ben

Fe Fusion

[WinPimp2K]

Technically you can fuse iron - ask an astrophysicist for the gory details.

But it takes more energy to fuse than is released. So iron fusion is pretty much the last fusion reaction to be expected from an end-of-life reactor (of the thermostellar variety)

crap!

[cdn-programmer]

The biggest obstacle on nuclear fusion is neutrons. Fusion produces a lot of neutrons and the idea of neutron free fusion using He3 is so far over the horizon that it isn't worth thinking about.

Fission also produces neutrons.

Since both reactions produce neutrons they have the same issues - namely dealing with radioactive wastes.

Fisson is easy to create. A team of boy scouts can do it in their own back yard. Fusion is very difficult.

Fission can be totally safe. It can also be very dangerous. It depends on the reactor design but the issue is that the technology is already on the shelf. IE. We can do it now and we have been able to do it for 50 years.

Now the issue is that with the USA designed high pressure reactors, they only use about 2/10 of 1% of the uranium that is mined. What this means is that with a better design we can get about 475 times the milage from our uranium.

There is so much energy available to us that it is almost beyond our imagination. Consider that there are about 114 reactors in the USA which have been running say about 50 years. 50x475 = 23,750 years. There has literally already been enough uranium mined for almost 24,000 years for a well designed reactor like the IRF (Integral fast reactor - look it up in the wikipedia). If we wish to produce 100% of our energy from uranium we have enough uranium mined already for over 2,000 years. Of course the best solution is to use this energy to free up hydrogen which we can combine with carbon to produce synthetic oil (syncrude!). We need about 75 GWe reactors right now here in Alberta. We have a terrible hydrogen shortage. The price of gasoline at the pumps is a symptom of this problem.

Yet - we keep reading stories about the holly grail - Nuclear Fusion.

Yes, some day will will build a fusion reactor. The research is a good idea. But the idea that it will be problem free is a false idea. The biggest obstacle is not wear and tear due to plasma - the biggest obstacle is neutrons flying around and these are difficult to control. In fact - the best solution might be to pack a bunch of thorium around the plasma and use the neutrons to transmute it into U233 which we can cart off to a fission reactor. As an alternative we can pack U238 around the plasma and cart of the Pu239. These are viable fuel cycles - unfortunately at present they are not politically correct.

Re:crap!

[Phanatic1a]

Fission also produces neutrons.

Fusion produces orders of magnitude more neutrons.

In a fission plant, excess neutrons are bad. You want the pile to be barely critical, a stable, but not runaway, chain reaction. So you actually don't have a lot of neutrons flying out of the pile. You moderate the ones you do produce, and use them to fission additional fuel atoms.

But in a D-T fusion scheme, the bulk of the liberated energy is produced in the form of a very energetic 14 megaelectron-volt neutron. And this neutron doesn't participate in additional reactions, DT fusion isn't a chain-reaction process like fission is. The neutron will leave the plasma. Heck, ideally, that's how you get energy out of the reactor, by trapping that neutron in a surrounding blanket, causing that blanket to heat up so you can use that heat to boil water. Every single D-T fusion generates one of these neutrons, so the neutron flux will be many many times that of a fission plant.

But that's not an issue because of "radioactive waste." The wastes we're concerned about from fission aren't neutrons, they're from fission fragments and decay daughters. Some of those might emit neutrons themselves, but really, that's not the primary concern; neutron-induced radioactivity is actually pretty short-lived.

The reasons neutrons are a concern in a fusion plant is that continuous high-energy neutron bombardment does very bad things to all known materials that you might want to build a reactor vessel out of. When a neutron strikes an atom, it displaces it within the crystal lattice. If that happens once, no big deal, but in a commercial fusion reactor, the reactor vessel will experience 300 to 500 displacements per atom over the lifetime of the device. That means that, right now, we don't even know what to build one of these things out of. Austinitic steels start to swell, crack, and degrade after only about 30dpa, and the very best candidate materials we know of can only handle about 150; those might be acceptable, if the cost of changing the inner wall out isn't too high, but we just don't know.

And ITER won't even begin to explore those issues. ITER's flux will only generate 3 displacements per atom.

Fusion is very very hard. My money says that we'll never use commercial fusion power.

Re:Solution: ditch your TV

[Tx]

Funny, I went the other way. After a long period of wasting time having long conversations with your wife, reading books, going biking, building mame cabinets and remodelling my house, I realised that was all a huge effort to expend just to avoid watching TV. Bought a 42" plasma, never looked back. ;)

Re:Tested in San Diego?

[PhoenixFlare]

I'm not a scientist but is testing Nuclear Fusion in a very populated area a good idea?

I'm not a scientist either, but I have read a little on the subject....And from what I understand, the reaction would peter out and die very quickly - very little fuel is used in comparison to a fisson reactor, and the reaction itself requires very precise control to happen at all.

Comments like yours are part of the reason there's so much nonsensical backlash against this sort of technology - "I have no idea what i'm talking about, but it must be bad just because! Nuclear bombs are evil, so this must be the same!".

Couldn't they have done this in some place a little less populated? Like North Dakota or in the area near Area 51?

I would have one of these reactors in my backyard (well, if I wasn't in an apartment right now, anyway) with no reservation whatsoever.

Natural Organic Save Our Animals Power

[spun]

I suggest calling nuclear fusion "Natural Organic Save Our Animals Power," or NOSOAP. Something tells me hippies would love to have NOSOAP.

Seven links

[Kobun]

http://en.wikipedia.org/wiki/Fusion_power
http://en.wikipedia.org/wiki/Aneutronic_fusion
http://en.wikipedia.org/wiki/Nuclear_fusion
http://en.wikipedia.org/wiki/Neutron_flux
http://en.wikipedia.org/wiki/Neutron_radiation

http://en.wikipedia.org/wiki/Proton-proton_chain
http://en.wikipedia.org/wiki/CNO_cycle

The above links, read in order, should step through nicely outlining the fusion process, and some of the major challanges that are to be overcome in making it a viable power source for use on Earth.

Today, I will have understanding of fusion. Tommorrow I will understand Subscriber trunk dialing, and then, computers. Once I have an understanding of computers, I will rule the world!

My apologies, Terry.

Re:Err...

[ultranova]

I think achieving energy breakeven is just an engineering problem. Once you scale up the reactor to a certain size then it breaks even.

Unfortunately, the big enough size is about 1.424025 × 10^29 kg. So I'd suggest finding out a more efficient solution and not depending just on economics of scale.

Re:And still people will complain...

[OldManAndTheC++]

Clearly we must figure out how to compress environmentalists into super-dense pellets for use as fuel in fusion reactors.

They should vanish in a brilliant flash of green ...

1.54350997

[Doc+Ruby]

The euro started trading at an artifically specified U$1.18, dropped quickly to just over $0.82 in actual markets, and has climbed from that natural valuation to $1.27. That's an over 54% increase. The euro's superiority is clear, defining supremacy over the formerly supreme dollar.

You can't be "sarcastic" simultaneously about both a false euro introduction rate of $2.00, and predicting the imminent supremacy of the euro. Especially when getting the intro rate wrong isn't sarcasm.

Reality check on bad science.

[styryx]

This is too far down for anyone to really see...pity.

Disclaimer: I am a fusion scientist.

The result mentioned in the article has been around for about a year in the fusion community. It is very good work, and opens up further areas of study. However, it is specific to a single Tokamak, and so far has not yet been repeated. Furthermore, the result has not yet been fully understood. (This is linked to it not being repeated.)

This may be sensational news, but it shouldn't be, due to claiming to solve a problem, which so far they haven't fully done. Don't take anything away from the guys who did this. Like I said, excellent work. But until the result is confirmed and understood it should stay out of mainstream media.

There are many big problems for fusion, like plasma instabilites, neo-classical tearing modes, ELMs (as mentioned), ohmic heating in transformer coils. The list goes on, it's a complex subject. Thankfully with all countries signed up, and more than enough money for ITER's budget (even if America pulls out again), the politics can be minimised and the physics can continue.

Re:Garbage -Hydrogen-Energy

[timeOday]

Besides, individuals will never be allowed such a powerful, compact energy source. It's inevitably too useful as a weapon. Even fertilizer sales are tracked by the FBI now. For cars, maybe we'll wind up with hydrogen -> fusion -> electricity -> hydrogen -> fuel cell -> electricity.