Design and operation of a molten salt electrochemical cell.
MethodsX
; 9: 101626, 2022.
Article
em En
| MEDLINE
| ID: mdl-35251944
Molten salts such as 2LiF-BeF2 (FLiBe) have been proposed as coolants for advanced nuclear fission and fusion reactors. Critical to the design, licensing and operation of these reactors is characterization and understanding of the chemical behavior and mass transport of activation and fission products, corrosion products, and other solutes in the coolant. Electrochemical techniques are a powerful suite of tools for probing these phenomena. The design of an experimental cell for molten salt electrochemistry is described herein. As a demonstration of this design, details of the experimental methods used to conduct electrochemical experiments with molten FLiBe with addition of LiH are provided. Decommissioning of the cell is considered from the point of view of decontamination and waste generated. Main features of the cell include:â¢Suitable for operation up to 800 °C; suitable for operation inside and outside of a glovebox.â¢Enables sweep gas, gas sampling and analysis; enables addition of solid and liquid materials during operation.â¢Supports a variety of electrode materials and arrangements.
CA, chronoamperometry; CE, counter electrode; CV, cyclic voltammetry; DRE, dynamic reference electrode; FHR, fluoride salt-cooled high temperature reactor; FLiBe; FLiBe, LiF-BeF2 (6733 mol %); FLiNaK, LiF-NaF-KF (46.511.542 mol%); Gas control; High temperature; Hydrogen; LSV, linear sweep voltammetry; MSR, molten salt reactor; RE, reference electrode; Voltammetry; WE, working electrode
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MEDLINE
Idioma:
En
Ano de publicação:
2022
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Article