Tech for use in Advanced Reactors vs. Existing Fleet
This project will perform new measurements of 35Cl(n,p), analyze the experimental data from these measurements, generate new 35Cl and 37Cl cross-section evaluations in ENDF/B format, and assess the impacts of the expected changes to chlorine nuclear data by comparing analysis of MCRE with updated cross-section libraries to results with existing nuclear data.
Chlorine Nuclear Data Measurement and Evaluation, TerraPower Read More »
Previous studies for UF6 limits in shipping containers were limited to enrichment up to 5%. The objectives of this new study will take that enrichment to 10%. The project will review the available literature and update these studies with current techniques, evaluate the impact of higher enrichments in safety criticality cases in transport conditions, and publish a report that will serve as the basis to the safety criticality analysis that will be provided for review and approval to the radioactive material transport regulators, for the DN-30 package with 30B cylinders containing enrichment higher than 5%.
LEU+ UF6 Physical Chemistry Study, Orano Federal Services Read More »
The objective of this project is to evaluate a metalorganic framework (MOF) for continuous separation of Xe and Kr from the off-gas in the FCMSR in order to optimize the noble gas management of the FC-MSR and chemical processes for fuel salt production and conditioning and support the safety and licensing bases.
This project will include the analysis of fuel performance under Micro Modular Reactor (MMR) operating conditions and assess if using recycled uranium in Fully Ceramic Microencapsulated (FCM) fuel is viable.
This project seeks to perform baseline studies on surface-treated A709 for corrosion resistance and mechanical properties to understand long-term corrosion protection when subject to periods of sustained and cyclic loading at high temperatures and its potential use in the IMSR®.
Kairos seeks to optimize electroanalytical sensors to enable stable measurements of industrial-scale FLIBE salt in the Kairos Power Engineering Test Unit (ETU). The work proposed would provide a direct benefit to the development of the HERMES reactor.
This project focuses on the development, implementation, and initial validation of the STAR-CCM+® user-defined functionality for the two-fluid two-phase model (2F-2P). The focus will be on modeling two-phase boiling flow in realistic fuel-bundle geometries, including specific spacer geometries.
By leveraging Oak Ridge National Laboratory’s lab capabilities, Ultra Safe Nuclear Corporation will further the efficient deployment and operation of manufacturing modules at their facilities.
The objective of this project is to close the gap in the detection and quantification of radiation aging and combined thermal and radiation aging in nuclear cable applications using electrical test methods.
Vega Wave Systems has developed a camera head and needs to complete radiation testing to achieve market acceptance and verify radiation tolerance limits.
