Resum
Different breeding blankets are proposed for tritium generation in nuclear fusion reactors. Some of the proposed strategies are based on the molten eutectic alloy Lithium - Lead. Since lithium will be consumed, this alloy's physical and chemical properties will vary as its composition changes. For this reason, analytical tools able to perform real-time and in-situ lithium monitoring are of great interest. Electrochemical sensors, based on lithium conducting solid-state electrolytes, are good candidates to fulfil these requirements and withstand the harsh chemical environment of the molten alloy. In this work, the synthesis and sintering conditions of the solid-state electrolyte Li6La3Ta1.5Y0.5O12 were optimized to obtain high-crystalline electrolyte pellets. XRD was used to verify the garnet structure needed for Li conduction. The quality of the sintering was evaluated using SEM-EDS and its ionic conductivity was measured using Electrochemical Impedance Spectroscopy (EIS) in argon, at temperatures between 30 °C and 200 °C. Finally, a lithium sensor was constructed and used in molten alloys. The obtained results were in good agreement with potentials calculated using the Nernst equation.
Idioma original | Anglès |
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Número d’article | 113402 |
Nombre de pàgines | 6 |
Revista | Fusion Engineering and Design |
Volum | 187 |
DOIs | |
Estat de la publicació | Publicada - de febr. 2023 |