It’s inevitable that parts of the device will be exposed to radiation and perhaps fusion plasma. The inner walls of the reactor will be shielded by tungsten, which will limit erosion by the conditions. Meanwhile, the vacuum vessel is designed to be replaced every one to two years. The papers note that this flexibility will allow them to make some design changes even after ARC is built. To enable this, the whole tokamak is meant to split in half for maintenance.
Instabilities
The two big uncertainties in the operations of ARC are long-standing challenges for fusion: how to handle magnetic instabilities, and how to handle the helium ash and material that escapes the magnetic containment.
Some of the latter will simply be handled by the resets that happen after every 15 minutes of operation, which will clear the reaction chamber and add fresh fuel. But during operations, this will be handled by what’s called a divertor, an area where the magnetic field lines are shaped to allow some material out of confinement.
“To maximise ARC’s fusion power output while avoiding excessive erosion of the plasma-facing components, we will need to radiatively dissipate most of the power crossing the last-closed flux surface, injecting radiating impurities such as argon or neon to access divertor detachment,” one of the papers says. “Divertor detachment will need to be integrated with a high-performance core plasma, and with efficient impurity pumping to prevent the accumulation of helium ash in the core.”
The models they use predict that the system will keep enough pressure at the diverter to spit out enough of the helium ash to keep it from interfering with the fusion reactions. But that prediction will need to be tested empirically.
Magnetic instabilities can lead to a rapid loss of control of the plasma, potentially leading energetic, charged particles to slam into the reactor walls. The tungsten limits the damage and protects the more sensitive hardware, but will be eroded, and the tungsten that is eroded off can stay in the chamber and contaminate further runs of the system.
