49 min.

Atomic Show #288 – Per Peterson, CNO, Kairos Powe‪r‬ The Atomic Show

    • Natuurwetenschappen

Per Peterson in R-Lab with ETUDE, the scaled water test version of the Engineering Test Unit now in construction in AlbuquerqueImage provided by Kairos Power







Kairos Power Is developing a truly new nuclear fission power technology. Their KP-FHR (Kairos Power - Fluoride Salt Cooled, High Temperature Reactor) combines the solid fuel form usually associated with gas-cooled reactors with the fluoride molten salt often associated with fluid-fuel reactors.







For Atomic Show #288, my guest was Dr. Per Peterson, Kairos Power's chief nuclear officer (CNO). Per explained the technical logic leading his company to make its ground-breaking choices.







Before describing process of making technical choices, Per provided a brief summary of the KP-FHR technological development history. The FHR originated in a conversation with MIT's Dr. Charles Forsberg and later became the subject of an integrated research program between MIT, University of Wisconsin, and Dr. Peterson's academic home at University of California's Berkeley campus.







As Per was careful to point out, the program was primarily funded with Department of Energy (DOE) academic research grants and involved a number of both graduate and undergraduate research students from each of the participating institutions.







This type of project grant program is aimed at giving students practical design experience and providing purpose for experiments, equipment design and testing. Sometimes, as in the case of the FHR, members of the research team recognize that they have a product that can be commercialized because it has characteristics that are superior to similar products in the market.







Three members of the FHR integrated research project team, Per Peterson, Ed Blandford, and Mike Laufer founded Kairos Power in 2016 as a venture-funded Silicon Valley company to refine their ideas and commercialize the technology they had helped to develop within the academic setting.







In 2018, I talked with Ed Blandford and Per about Kairos Power, this show is part of my promise to provide updates on an intermittent basis.







Brief description of the KP-FHR







The nuclear fission heart of the KP-FHR is a pebble-bed reactor with 4 cm diameter fuel elements that each contain thousands of TRISO fuel particles in a graphite matrix. Fission heat generated in the reactor is moved by a pumped flow of fluoride salts through a heat exchanger that transfers the fission heat into nitrate salts similar to those used in concentrated solar thermal power systems.







The nitrate salt is pumped through a second heat exchanger (steam generator) that functions as a water boiler to produce steam with temperature of 585 ℃ and pressure of 19 MPa. As Per explained, that combination of temperature and pressure is equal to the most modern coal fired steam plants.







In fluoride salt the fuel elements have a slight positive buoyancy. To provide long operating periods without a large amount of excess reactivity at the beginning of core life, the KP-FHR includes an online fueling system that removes pebbles at the top...

Per Peterson in R-Lab with ETUDE, the scaled water test version of the Engineering Test Unit now in construction in AlbuquerqueImage provided by Kairos Power







Kairos Power Is developing a truly new nuclear fission power technology. Their KP-FHR (Kairos Power - Fluoride Salt Cooled, High Temperature Reactor) combines the solid fuel form usually associated with gas-cooled reactors with the fluoride molten salt often associated with fluid-fuel reactors.







For Atomic Show #288, my guest was Dr. Per Peterson, Kairos Power's chief nuclear officer (CNO). Per explained the technical logic leading his company to make its ground-breaking choices.







Before describing process of making technical choices, Per provided a brief summary of the KP-FHR technological development history. The FHR originated in a conversation with MIT's Dr. Charles Forsberg and later became the subject of an integrated research program between MIT, University of Wisconsin, and Dr. Peterson's academic home at University of California's Berkeley campus.







As Per was careful to point out, the program was primarily funded with Department of Energy (DOE) academic research grants and involved a number of both graduate and undergraduate research students from each of the participating institutions.







This type of project grant program is aimed at giving students practical design experience and providing purpose for experiments, equipment design and testing. Sometimes, as in the case of the FHR, members of the research team recognize that they have a product that can be commercialized because it has characteristics that are superior to similar products in the market.







Three members of the FHR integrated research project team, Per Peterson, Ed Blandford, and Mike Laufer founded Kairos Power in 2016 as a venture-funded Silicon Valley company to refine their ideas and commercialize the technology they had helped to develop within the academic setting.







In 2018, I talked with Ed Blandford and Per about Kairos Power, this show is part of my promise to provide updates on an intermittent basis.







Brief description of the KP-FHR







The nuclear fission heart of the KP-FHR is a pebble-bed reactor with 4 cm diameter fuel elements that each contain thousands of TRISO fuel particles in a graphite matrix. Fission heat generated in the reactor is moved by a pumped flow of fluoride salts through a heat exchanger that transfers the fission heat into nitrate salts similar to those used in concentrated solar thermal power systems.







The nitrate salt is pumped through a second heat exchanger (steam generator) that functions as a water boiler to produce steam with temperature of 585 ℃ and pressure of 19 MPa. As Per explained, that combination of temperature and pressure is equal to the most modern coal fired steam plants.







In fluoride salt the fuel elements have a slight positive buoyancy. To provide long operating periods without a large amount of excess reactivity at the beginning of core life, the KP-FHR includes an online fueling system that removes pebbles at the top...

49 min.

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