| Company type | Private company |
|---|---|
| Industry | Nuclear Power |
| Founded | 2015 |
| Headquarters | , |
| Products | |
Number of employees | >100[1] (2022) |
| Website | https://www.seaborg.com/ |
Seaborg Technologies is a private Danish startup. It is developing small molten salt reactors.[2][3] Founded in 2015 and based in Copenhagen, Denmark, Seaborg emerged as a small team of physicists, chemists, and engineers with educational roots at the Niels Bohr Institute, CERN, ESS (European Spallation Source) and DTU (Technical University of Denmark) who share a common vision of safe, sustainable and cheap nuclear power.[4]
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Daniel Cooper the Chief Chemist of Seaborg Technologies @ ThEC2018
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Glenn Seaborg: Shaking Up the Periodic Table
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Making Nuclear Sustainable with CMSR (Compact Molten Salt Reactor) - Troels Schönfeldt @ ThEC2018
Transcription
Compact Molten Salt Reactor
The reactor designed by Seaborg Technologies is called the Compact Molten Salt Reactor (CMSR). The company claims that it is inherently safe, significantly smaller, better for the environment, and inexpensive even compared to fossil fuel-based electricity.[5][3]
Conventional nuclear reactors have solid fuel rods that need constant cooling, typically using water under high pressure. Water is abundantly available but its low boiling point is a vulnerability creating a potential point of failure. In contrast, in a CMSR, fuel is mixed in a liquid salt whose boiling point is far above the temperatures produced by the fission products. This enables it to operate stably at a pressure of one atmosphere.[3]
Unlike other thermal spectrum molten salt reactors the CMSR does not use graphite as a moderator. Instead it used molten Sodium hydroxide (NaOH) contained in pipes adjacent to and interlaced with pipes that contain the molten fuel salt. This enables a more compact design. It also allows the liquid moderator to be rapidly removed from the core as a fission control mechanism.[6]
In the case of an overheating accident, a frozen salt plug at the base of the reactor melts and the liquid fuel flows out of the reactor core away from the moderator into cooled tanks where the reaction quenches, the fuel cools and solidifies, without dispersing in the surrounding environment.[6]
The approach mitigates the danger of a failure rather than eliminating all failures.[6]
Deployment
The company intends to deploy its shipping container sized reactors on barges. Reactors are manufactured at scale in a central facility, reducing costs. Using barges makes them mobile. Single reactor output is estimated to be 100 MWe. Multiple units could be deployed on a single barge.[7]
The primary design challenge is in preventing the highly corrosive fuel slurry and moderator from damaging the reactor.[6]
The fueling cycle is 12 years. It offers no proliferation risk or military applications.[6]
Seaborg Technologies hopes to deliver the first power barge in 2028.[7]
References
- ^ Mortensen, Cecilie Als (2 September 2022). "Jagter kæmpe millionbeløb: Dansk firma vil udvikle fremtidens atomkraft". Finans (in Danish). Retrieved 13 November 2022.
- ^ "Advances in Small Modular Reactor Technology Developments". International Atomic Energy Agency. Published August 2016. Retrieved 2017-02-07
- ^ a b c Waldrop, M. Mitchell (22 February 2019). "Nuclear goes retro — with a much greener outlook". Knowable Magazine. doi:10.1146/knowable-022219-2. S2CID 186586892.
- ^ "Dansk reaktor brænder farligt atomaffald". DR (in Danish). 20 August 2015. Retrieved 17 June 2021.
- ^ "Seaborg Technologies". Seaborg. Retrieved 17 November 2019.
- ^ a b c d e Blain, Loz (15 June 2021). "Mass-produced floating nuclear reactors use super-safe molten salt fuel". New Atlas. Retrieved 17 June 2021.
- ^ a b "OUR TECHNOLOGY". Seaborg. Retrieved 11 August 2023.
This page was last edited on 2 April 2024, at 21:18