MIT Is Taking on Fusion Power. Could This Be the Time It Actually Works?

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We may be one large step closer to a future driven by fusion power — the elusive, limitless, and zero-carbon energy source that’s even a step-up from renewables. A collaboration between MIT and a new private company, Commonwealth Fusion Systems (CFS), aims to bring the world’s first fusion power plant online in the next 15 years, using a novel approach.

Fusion powers the sun and other stars. It involves lighter atoms like hydrogen smashing together to form heavier elements, like helium, and releasing massive amounts of energy while doing so. This energy release happens, however, at very, very extreme temperatures — in the range of hundreds of millions of degrees Celsius — which would melt any material it came in contact with.

So, in order to experiment with fusion in the laboratory, researchers use magnetic fields to hold that smashed together soup of subatomic particles, called plasma, suspended and away from the walls of the experimental chamber. The trickiness of using fusion as a form of energy is that, to date, every experiment has yielded net negative energy  — meaning more energy goes into heating that subatomic soup than comes out for potential use.

Now, this collaboration is launching an experiment known as SPARC, which will use new, high-temperature superconductors to build smaller, more powerful high-field magnets to power an experimental fusion reactor. SPARC’s goal? The first-ever net positive energy gain from fusion.

Vizualization of proposed SPARC experiment. Image Credit: Visualization by Ken Filar, PSFC research affiliate
Visualization of the proposed SPARC experiment. Image Credit: Visualization by Ken Filar, PSFC research affiliate.

This fusion experiment is designed to produce 100 megawatts of heat, thanks to those new magnets. It won’t turn that heat into electricity, but in 10-second pulses, it could produce twice the power needed to heat the plasma, and as much power as is used by a small city.

“This is an important historical moment: Advances in superconducting magnets have put fusion energy potentially within reach, offering the prospect of a safe, carbon-free energy future,” MIT President L. Rafael Reif told MIT News. 

While this team’s approach to fusion power seems promising; a number of previous collaborations were unable to get fusion energy off the ground. Researchers at the University of New South Wales tried, and failed, to create fusion through hydrogen-boron reactions.

The International Thermonuclear Experimental Reactor (ITER) in France is also making progress, but SPARC is set to dethrone the project in terms of size. SPARC will be only 1/65th of ITER’s volume, because these new high-field magnets make it possible to build smaller fusion plants needed to achieve a given level of power.

If SPARC is successful, and the fusion project design proliferates worldwide, it’s possible fusion energy could start to help meet global energy demands. Researching carbon-free fusion energy is critical during an era in which greenhouse gases continue to drive climate change.

“The aspiration is to have a working power plant in time to combat climate change,” Bob Mumgaard, CEO of Commonwealth Fusion Systems, told The Guardian. “We think we have the science, speed and scale to put carbon-free fusion power on the grid in 15 years.”

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