MIT’s groundbreaking mini fusion reactor could power the world within 10 years

 

by Cat DiStasio, 08/13/15 Engineers at MIT spend a lot of time figuring out how to make things better, faster, and often smaller. Now, powerful new magnet technology has led the way to a groundbreaking design for a small, modular fusion ARC reactor that generates the same amount of power as its larger predecessors. MIT researchers believe this new concept could be realized in as little as 10 years, and this type of power generation could be the clean, renewable energy the world has been waiting for. Nuclear fusion power plants are a dream fusion scientists have been chasing for decades, and it’s always been just out of reach. Until now, the enormous size and heat involved in a fusion reactor large enough to produce utility-scale power made projects like that very expensive. As with many things, the ability to make a fusion reactor smaller also makes it less expensive and easier to build. Related: MIT genius team can measure how fast a technology is developing Researchers have published their design proposal in the journal Fusion Engineering and Design. The new breakthrough design is based on a single advancement in magnet technology. The difference is commercially available superconductors, rare-earth barium copper oxide (REBCO) superconducting tapes, which researchers propose to use in high-magnetic field coils for the reactor. According to Dennis Whyte, a professor of Nuclear Science and Engineering and director of MIT’s Plasma Science and Fusion Center, “It changes the whole thing.” In addition to being more economical to build, the superconductors in the smaller modular fusion reactor are strong enough to increase fusion power by about a factor of 10 compared to standard superconducting technology, says PhD candidate Brandon Sorbom, who co-authored the report with Whyte and 11 others at MIT. For perspective, Sorbom explains the world’s largest planned fusion power plant- a huge device called ITER that is under construction in France – was designed before these new superconductors were available and will cost $40 billion. If the same power capacity were to be achieved using MIT’s new design, Sorbom and the MIT team estimate the reactor would be about half the diameter or ITER and could produce about the same amount of power for a fraction of the cost, while being built in a shorter span of time. Via MIT Images via MIT ARC team and Jose‑Luis Olivares/MIT   http://inhabitat.com/groundbreaking-magnet-technology-from-mit-could-catalyze-renewable-nuclear-fusion-industry-within-10-years/