Environment & Energy

Safety in Fusion
An inherently safe process
Carley Willis, Joanne Liou

While nuclear fission derives energy from splitting atomic nuclei, nuclear fusion does so by joining them, releasing energy in the process. Though both atomic reactions produce energy by modifying atoms, their fundamental differences have broad implications for safety.

The conditions required to start and maintain a fusion reaction make a fission-type accident or nuclear meltdown based on a chain reaction impossible. Nuclear fusion power plants will require out-of-this-world conditions — temperatures exceeding 100 million degrees Celsius to achieve high enough particle density for the reaction to take place. As fusion reactions can only take place under such extreme conditions, a ‘runaway’ chain reaction is impossible, explained Sehila González de Vicente, Nuclear Fusion Physicist at the IAEA.

Fusion reactions depend on the continuous input of fuel, and the process is highly sensitive to any variation in working conditions. Given that a fusion reaction could come to a halt within seconds, the process is inherently safe. “Fusion is a self-limiting process: if you cannot control the reaction, the machine switches itself off,” she added.

Furthermore, fusion does not produce highly radioactive, long lived nuclear waste. “Fusion produces only low level radioactive waste — more than fission does — but this low level waste does not pose any serious danger,” said González de Vicente. Contaminated items, such as protective clothing, cleaning supplies and even medical tubes or swabs, are short lived, low level radioactive waste that can be safely handled with basic precautions.

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