Type of company approved for a GAIN NE Voucher
The objective of this project was to develop a simple system that allows control of a plant simulator from a workstation. Called the Task Engine for Job and User Notification (TEJUN, also the Japanese word for “procedure”), the system is a web-based application that allows procedures to be authored in an easy-to-read document format.
Argonne National Laboratory (ANL), Idaho National Laboratory (INL), and Kairos Power, LLC partnered to implement a multiscale thermal-fluids hierarchy analysis methodology for Kairos’ fluoride high-temperature reactor (FHR). The project demonstrated Kairos Power’s design optimization process for the heat exchanger, a vital component of the reactor’s design.
The objective of this project was to determine the design feasibility of Micro Nuclear LLC’s Molten Salt Nuclear Battery (MsNB) by performing computational analysis and discussing the likely multiphysics modeling challenges while coupling thermal hydraulics and neutronics.
Development of the Microscale Nuclear Battery Reactor System, Micro Nuclear LLC Read More »
The objective of this project was to explore the applicability of Power Fluidics™ (PF) to molten salt systems and to determine if PF technology may be able to fulfill some of the forced-flow testing required in support of MSR R&D.
The objective of this project was to focus on the coupling of three high fidelity analysis codes for detailed core analysis, an analysis of the Oklo reactor design to assesses the potential for radionuclide release to the environment during accident scenarios, and an assessment and provision of relevant metal fuel data through inspection of post-irradiation examination data from past metal fuel testing. This project had two additional objectives, the experimental characterization of liquid metal heat pipe performance, failure behavior, and phenomena and the testing of generic heat pipes beyond their design limits, providing original data and insights.
Risk-Informed Mechanistic Source Term Calculations for a Compact Fast Reactor, Oklo Inc. Read More »
The objective of this project was to explore the primary flow stability of the SMR-160 and to investigate an unborated core and primary loop, which necessitates active reactivity control with control rods, and the straight tube, once-through steam generator.
Small Modular Reactor-160 Primary Flow Stability, SMR Inventec LLC Read More »
The objective of this project was to procure, prepare, and characterize fluoride salt compositions relevant to Terrestrial Energy USA, Inc.’s Integral Molten Salt Reactor (IMSR®) design. Then, the project set out to investigate the fuel salts’ thermal conductivities, viscosities, and densities.
The objective of this project was to review Columbia Basin Consulting Group (CBCG)’s design concept for a leadbismuth-cooled fast reactor and thereafter to determine how the design might benefit from the functional containment concept, which allows the designer to take credit for a sequence of barriers to contain or confine radionuclides.
The objective of this project was to develop a conceptual design for a full-size transportable thermal energy storage (TES) unit using a molten aluminum alloy as the high-temperature phase change material for use with different energy systems, including a 150-MWth sodium fast reactor, a coal-fired plant, wind turbines, and photovoltaic solar energy systems.
High-Efficiency and Low-Cost Thermal Energy Storage System, BGTL, LLC Read More »
The objective of this project was to determine what performance improvements could be found in Ceramic Tubular Products’ newly formulated silicon carbide (SiC) TRIPLEX cladding coating.
