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Page added on January 15, 2012
One step closer to controlling nuclear fusion
Using a heating system, physicists have succeeded for the first time in preventing the development of instabilities in an efficient alternative way relevant to a future nuclear fusion reactor. It’s an important step forward in the effort to build the future ITER reactor.
Scientists have achieved a milestone: they have managed to stop the growth of instabilities inside a nuclear fusion reactor. How? Here’s a look at this energy source, which despite being challenging to control, is nevertheless extremely promising.
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Nuclear fusion is an attempt to reproduce the energy of the Sun in an Earth-based reactor system. When gas is heated to several million degrees, it becomes plasma. Sometimes in the plasma, an instability will appear and grow large enough to perturb the plasma, making it vibrate despite the presence of the magnetic field in which it is contained. If the plasma touches the walls of the reactor, it will cool rapidly and create large electromagnetic forces within the structure of the machine.
The challenge is to reduce the instabilities deep within in the interior of the plasma so that they don’t amplify, while at the same time allowing the reactor to continue to function normally. Thus it is necessary to work within the specific configuration of these fusion reactors, where the plasma is strongly confined by a magnetic field. By adjusting an antenna that emits electromagnetic radiation, physicists from EPFL’s Center for Research in Plasma Physics were able to quench the instabilities when they appear, in the precise region where they are forming, and without perturbing the rest of the installation.
From theory to practice
The physicists first conducted simulations to verify the extent to which specific radiation frequencies and locations of application would suppress the growth of instabilities. Then they carried out tests to confirm their calculations. The beauty of their approach is that they were able to use antennas that are used as part of the system to heat the plasma, and that are already present in the Joint European Torus (JET), the largest reactor currently in use. Surprisingly, the simulations and the tests showed that heating and instability suppression can be combined, by aiming the radiation slightly off-center in the plasma.
The next step will be to add a detector system that will make it possible to neutralize instabilities in real time over longer time periods. These improvements can then be implemented in the ITER fusion reactor, currently in development in Southern France.
6 Comments on "One step closer to controlling nuclear fusion"
MrEnergyCzar on Sun, 15th Jan 2012 3:07 am
Are they still decades away?
MrEnergyCzar
BillT on Sun, 15th Jan 2012 3:27 am
More dreams from the ‘free energy’ crowd. Too little, too late. Last article I read said 20 years to ‘maybe’ have a working reactor’ Maybe.
DC on Sun, 15th Jan 2012 10:18 am
I dont really think its accurate to suggest fusion is ‘impossible’ to achieve. Sure, we may run out of money(resources) before we get there, but that does not mean fusion is not possible, as such, just very impractical. What we should we should asking, and are not(again), are things like. Are fusions upsides being exagerated, could we actually afford fusion plants even if we do learn its ‘doable’. Since we cant afford nuclear fission, I suspect the answer to that will be no, we cant afford fusion period. Will fusion ‘solve; the energy crisis? Again , how could it? The problem we got is a civilization designed by chevron and general motors to run on fossil-fuels. Some countries aside, electrical generation atm, is not really a big problem. So what problem is fusion supposed to solve again? Will it supplant fission? Nat-Gas, Coal? Nuclear fission didnt supplant or cause Coal plants or Gas-plents to be shut down, why would anyone expect the ultra-expensive fusion to supplant its cheaper, toxic competitors?
It may be of interest to Physorg they have solved one small part of the problem. But I noticed they didnt mention any of fusions hunderds?…thousands? of problems, both small and large, that are still un-resolved.
SOS on Sun, 15th Jan 2012 5:39 pm
Cold fusion is a reality. Hot fusion is the miracle yet to happen, but this is a step in the right direction.
Samuel on Mon, 16th Jan 2012 3:29 pm
Harnessing aneutronic fusion energy is now one step closer with a more recent and efficient thermoelectric converter. http://www.youtube.com/watch?v=Uqnk19hn7Rc
Bob Owens on Tue, 17th Jan 2012 12:11 am
Fusion is 20 years in the future and always will be. The world could have had free solar water heaters installed on every home and business on the planet for the cost that we have paid for this nonsense. But I guess such a simple source of solar power is beyond our collective abilities.