The reactor is inherently safe, because decay heat can be removed passively. This takes advantage of the high thermal conductivity of the molten metal.
U-238 of a spent nuclear fuel element of a light water reactor can be dissolved in Chlorine-salt, including long-living transuranic isotopes. Breeding and fission could power a 300MW electrical Dual Fluid Reactor for about 25 years. The initial fuel would be completely converted into fission products with radiotoxicity reduced from a hundreds of thousands of years to a few hundred years.[1] This essentially eliminates the need for problematic long term storage.
History
A conceptual predecessor of the Dual Fluid Reactor was the UK 1970s lead-cooled fast spectrum molten salt reactor (MSFR), which dissolved the fissile fuel in a molten salt, with experimental work undertaken over 1968-73, before it lost funding.[2]
The Dual Fluid Reactor was initially developed by a German research institute, the Institute for Solid-State Nuclear Physics in Berlin. In February 2021, the six inventors, along with the existing team, formed Canadian company Dual Fluid Energy Inc. to commercialize the design. In June 2021, the company secured over $6 million in Canadian seed funding.
One patent has been obtained,[3] and another is pending on the liquid metal fuel variant.[4]
The reactor design won the public vote for the Galileo Knowledge Prize in the German GreenTec Awards of 2013, although the award committee presiding over the awards changed the rules to exclude nuclear designs before announcing the winner. Dual Fluid participants successfully sued to remedy this.[5][6][7][8]
In 2023 the company signed a deal signed with the Rwanda Atomic Energy Board (RAEB) to build a demonstrator reactor. The reactor is expected to be complete by 2026 and complete testing by 2028.[9]