01-27-2016, 02:37 PM
Oh yeah, fusion isn't so flawlessly clean either. A core breach would go off like a dirty nuke, scattering radioactive isotopes over a wide area.
The common D-D fusion reaction that is being aggressively pursued by most researchers spews a steady stream of neutrons when in operation. Although these neutrons do not participate in the reaction like their fission counterparts do, they cause the reactor body to be transmuted into unstable isotopes that decay again over time.
Fortunately, fusion is nicer than fission because all you have to do to turn it off is release the pressure or lower the temperature, both of which can be done quite quickly at the pressures and temperatures involved.
The common D-D fusion reaction that is being aggressively pursued by most researchers spews a steady stream of neutrons when in operation. Although these neutrons do not participate in the reaction like their fission counterparts do, they cause the reactor body to be transmuted into unstable isotopes that decay again over time.
Fortunately, fusion is nicer than fission because all you have to do to turn it off is release the pressure or lower the temperature, both of which can be done quite quickly at the pressures and temperatures involved.
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