Abstract
This work demonstrates how ICP-MS can be employed to evaluate cesium volatilization from LiF-BeF2 (Flibe) salt with ab initio molecular dynamics studies used as corroborating data to better understand cesium behavior. Using mixtures of Flibe with 2 mol% CsF, it was found that cesium was stable within the salt melt at temperatures between 500-650°C over a time span of 8 hours. At 800°C, cesium vaporized from the salt at a rate of 0.83% / hr with a mass flux of 0.0023 g Cs / cm2hr. The atomistic modeling results show poor solvation of Cs at 500°C and 800°C, with stability preferred at 650°C. Specialized equipment and procedures were needed to enable this work, especially those required for safe handling of beryllium containing salts. The methods, custom equipment, and important considerations for working with high-temperature fluoride salts are detailed in this thesis.
Degree
MS
College and Department
Ira A. Fulton College of Engineering; Chemical Engineering
Rights
https://lib.byu.edu/about/copyright/
BYU ScholarsArchive Citation
Williams, Johnny Hedrick, "Cesium Voltilization in LiF-BeF2: Predicting Release in the Event of FHR Fuel Failure" (2023). Theses and Dissertations. 10434.
https://scholarsarchive.byu.edu/etd/10434
Date Submitted
2023-06-22
Document Type
Thesis
Handle
http://hdl.lib.byu.edu/1877/etd13272
Keywords
nuclear energy, molten salt, cesium fluoride, flibe, FHR, MSR, AIMD, ICP-MS
Language
english