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Inside job: A new technique to cool a fusion reactor
by Staff Writers
Portland OR (SPX) Nov 06, 2018

This is visible imaging of (a) shell pellet hitting low-field-side boundary of plasma, (b) continuing through plasma toward core, (c) ablating and releasing boron dust in core. (d) Expanded view of (c), highlighting shell and dust. (e) Plasma cross-section with red dot indicating pellet location at time of dust release in (c). Injection velocity ? 230 m/s.

Fusion offers the potential of near limitless energy by heating a gas trapped in a magnetic field to incredibly high temperatures where atoms are so energetic that they fuse together when they collide. But if that hot gas, called a plasma, breaks free from the magnetic field, it must be safely put back in place to avoid damaging the fusion device - this problem has been one of the great challenges of magnetically confined fusion.

During these so-called disruptions, the rapid release of the energy in the plasma can damage the fusion device: Intense heat can vaporize or melt the walls, large electrical currents can generate damaging forces, and high-energy "runaway" electron beams can cause intense localized damage.

Making disruptions less disruptive involves injecting material into the plasma that evenly radiates away the plasma energy. One challenge is that the material has difficulty reaching the middle of the plasma before a disruption occurs. Researchers hope that getting material into the middle can provide "inside-out" cooling of the plasma, preventing the disruption and the production of runaway electrons.

Researchers at the DIII-D National Fusion Facility have demonstrated a revolutionary new technique to achieve this "inside-out" cooling before a disruption occurs. A thin-walled diamond-shelled pellet carries a payload of boron dust deep into the plasma (Figure 1).

The experiments show that shell pellets fired into the core at around 450 miles per hour can deposit boron dust deep in the plasma where it is most effective. The diamond shells gradually disintegrate in the plasma before releasing the dust near the center of the plasma.

The new approach transforms prospects for fusion energy by potentially solving three major problems - efficiently radiating away the plasma's heat, reducing forces by the plasma on the fusion device, and preventing the formation of energetic electron beams.

As DIII-D Science Director, Richard Buttery, comments, "Shell pellets offer the potential of dealing with all three facets of the challenge, eliminating risk of device harm."

Future work is aimed at creating more sophisticated shell designs that can carry larger payloads and penetrate reactor-class plasmas.

Another technique being explored at DIII-D is known as shattered pellet injection. In this approach, solid frozen pellets made of a heavy isotope of hydrogen and neon or argon are fired toward the plasma at high speed. They shatter into small fragments before hitting the edge of the plasma.

Researchers performed experiments and extrapolated the results to the large fusion device, ITER, being developed in France. They believe this technique will be effective in ITER.

"The best way to reliably prevent disruptions remains an open question," said researcher Nick Eidietis, who works at the DIII-D fusion device in San Diego and will be presenting his research at the American Physical Society Division of Plasma Physics meeting in Portland, Oregon.

"But we are making significant progress in developing the understanding and techniques necessary to achieve fusion power. If this new shell technique fulfills its initial promise, it will transform prospects for reliable fusion power plant operation."


Related Links
American Physical Society
Powering The World in the 21st Century at Energy-Daily.com


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ENERGY TECH
Nuclear fusion: wrestling with burning questions on the control of 'burning plasmas'
Bethlehem PA (SPX) Oct 25, 2018
What would it take to meet the world's energy needs, sustainably, far into the foreseeable future? Perhaps creating energy the way the sun does, through nuclear fusion. Fission and fusion are very different nuclear reactions, according to Eugenio Schuster, Professor in the Department of Mechanical Engineering and Mechanics at Lehigh University. Fission, which produces the type of nuclear energy created by reactors here on Earth since the 1950s, involves splitting the nuclei of very heavy elements, ... read more

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