Abstract The chemical and transport behavior of hydrogen isotopes in molten 2LiF-BeF2 (FLiBe) is of interest for the design of tritium management systems in nuclear fission and fusion reactors that… Click to show full abstract
Abstract The chemical and transport behavior of hydrogen isotopes in molten 2LiF-BeF2 (FLiBe) is of interest for the design of tritium management systems in nuclear fission and fusion reactors that use FLiBe. The chemical reaction of LiH with FLiBe is used to introduce hydrogen in the molten salt and electrochemical methods are used for in situ studies of hydrogen in FLiBe. LiH reacts with molten FLiBe to generate an electroactive species whose voltammetry peak is proportional to the added quantity of LiH. The cyclic voltammetry reaction potential of 2.009 ± 0.050 V v s B e B e F 2 and the electron exchange of n = 0.8 ± 0.5 are consistent with the one-electron oxidation of Ho to H+. The concentration of dissolved H in zero valence state, Ho, is estimated by linear sweep voltammetry at 60% to 80% of the hydrogen introduced by reaction of 0.42 mol% LiH with FLiBe; over eleven hours the concentration decreases to about 40%. It is postulated that covalent BeH2 is formed in FLiBe upon LiH addition, as a FLiBe-soluble quasi-stable intermediate product. The results provide an evaluation of LiH as a means of introducing dissolved hydrogen in FLiBe, enabling electrochemical methods as tools to advance the understanding the chemistry of hydrogen isotopes in FLiBe.
               
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