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Heat Exchanger Life Extension Via In-Situ Reconditioning Disclosure Number 201202812 Technology Summary The present invention provides a method to greatly extend the lifetime of nickel superalloy components employed in high temperature thermally-based electricity generation. The method is particularly applicable to components operating under high stress s…

: Fact Cards
: Heat, Reactors, Heating...

Fluoride Salt Cooled Reactor Primary Flowmeter Based on N-16 and/or F-20 Decays Fluoride Salt Cooled Reactor Primary Flowmeter Based on N-16 and/or F-20 Decays Disclosure Number 201303032 Technology Summary Measuring the primary coolant flow in a Fluoride salt-cooled High-temperature Reactor (FHR) is required to operate the plant. Particularly harsh environme…

Method for Dissipating Decay Heat in Nuclear Reactors During an Extended Blackout Method for Dissipating Decay Heat in Nuclear Reactors During an Extended Blackout Disclosure Number 201303060 Technology Summary When a nuclear reactor experiences a blackout, no power is available to run the cooling pumps. Even with the reactor shut down, there is a large amount…

: Fact Cards
: Reactors, Reactor, Heat...

Tritium Stripping from FLiBe Disclosure Number 201403251 Technology Summary The purpose of this invention is to provide an effective and practical mechanism to strip tritium from FLiBe used as the primary coolant of nuclear power plants. Tritium release from FLiBe is a significant safety issue in Fluoride Salt- Cooled High-Temperature Reactors (FHRs), Molten Salt Reactors (MSRs), and …

: Fact Cards
: Reactors, Reactor, Assembly...
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