In order to build the world’s largest nuclear fusion reactor, the team at France’s International Thermonuclear Experimental Reactor (ITER) brought in an engineering firm with an expertise you might not expect. Spanish company CASA Espacio specializes in aerospace engineering, with more than 20 years of experience building components that have been used for rockets, satellites, and the International Space Station. It turns out that space travel and nuclear energy both share similar challenges—they require machines that can withstand the Sun’s extremely high temperatures. In fact, this is the the main reason why nuclear fusion hasn’t yet lived up to its potential as a clean, safe, and abundant energy source. The sun is a natural fusion reactor, but in order for fusion to occur on Earth, you need to produce and contain temperatures that are six times hotter than the sun’s core.
So, to build the rings that support the powerful magnetic coils inside ITER, engineers borrowed techniques from building launcher and satellite components. Casa Espacio’s Head of Commercial and Strategy, Jose Guillamon explains:
Forces inside ITER present similar challenges to space. We can’t use traditional materials like metal, which expand and contract with temperature and conduct electricity. We have to make a special composite material which is durable and lightweight, non-conductive and never changes shape.
