Vaporization and thermodynamics of the Cs 2 O-MoO 3 system studied by high temperature mass spectrometry.
2021
RATIONALE Cesium and molybdenum are fission products of uranium dioxide fuel in nuclear reactors, which interact with each other depending on oxygen potential of the fuel. This leads to formation of various compounds of the Cs2 O-MoO3 system, which are exposed to high temperatures during operation of the reactor or a severe accident at the nuclear power plant. This is why the study of the vaporization and thermodynamics of compounds in the Cs2 O-MoO3 system is important. METHODS Synthesis of the compounds in the Cs2 O-MoO3 system was carried out by sintering Cs2 MoO4 and MoO3 . Characterization of the samples was accomplished with the use of XRD, TGA/DSC/DTA, IR spectroscopy, and ICP. Vaporization of the samples under study was carried out from a platinum effusion cell using the MS-1301 mass spectrometer developed for high temperature studies of low volatile substances. RESULTS The temperature dependences of partial pressures of vapor species were determined over pure MoO3 and Cs2 MoO4 in the ranges 870-1000 K and 1030-1198 K, respectively. MoO3 , Mo2 O6 , Mo3 O9 , Mo4 O12 , and Mo5 O15 were shown to be the main vapor species over the Cs2 O-MoO3 system in the temperature range 850-1020 K. The component activities, Gibbs energies of mixing, and excess Gibbs energies were obtained as functions of the component concentration at 900 K, 950 K, and 1000 K. CONCLUSIONS The thermodynamic properties of the Cs2 O-MoO3 system found in the present study evidenced negative deviations from the ideality. The MoO3 and Cs2 MoO4 partial molar enthalpies of mixing, the Cs2 MoO4 partial vaporization enthalpy, and the total enthalpy of mixing in the Cs2 O-MoO3 system at 1000 K were obtained for the first time.
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