Self-diffusion of lithium, sodium, potassium and fluorine in a molten LiF + NaF + KF eutectic mixture
Abstract
The self-diffusion coefficients of lithium, sodium, potassium and fluorine in a molten LiF + NaF + KF (46.5 + 11.5 + 42.0 mol%: FLINAK) eutectic mixture have been measured by the capillary reservoir technique using the tracers 6Li, 24Na, 42K and 18F. The observed self-diffusion coefficients D(in m2 s–1) are expressed according to the Arrhenius equation as follows: DLi= 3.87 × 10–7 exp [–(37.2 ± 4.2)× 103/RT](480–663 °C), DNa= 4.28 × 10–7 exp [–(36.2 ± 7.1)× 103/RT](504–616 °C), DK= 2.05 × 10–7 exp [–(32.0 ± 7.5)× 103/RT](491–613 °C) and DF= 1.77 × 10–7 exp [–(30.8 ± 6.7)× 103/RT](480–663 °C), where R is the gas constant (in J mol–1K–1) and T the absolute temperature (in K). The observed self-diffusion coefficients of the ions in molten FLINAK give very similar values to each other and smaller values than given in the literature for other molten salts. These results are explained in terms of the interaction between cations and anions and the volume change on fusion.