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Article Dans Une Revue Journal of Chemical Physics Année : 2017

Facing the challenge of predicting the standard formation enthalpies of n -butyl-phosphate species with ab initio methods

Résumé

Tributyl-phosphate (TBP), a ligand used in the PUREX liquid-liquid separation process of spent nuclear fuel, can form explosive mixture in contact with nitric acid, that might lead to violent explosive thermal runaway. In the context of safety of a nuclear reprocessing plant facility, it is crucial to predict the stability of TBP at elevated temperatures. So far, only the enthalpies of formation of TBP is available in the literature with a rather large uncertainties, while those of its degradation products, di-(HDBP) and mono-(H2MBP) are unknown. In this goal, we have used state-of-the art quantum chemical methods to compute the formation enthalpies and entropies of TBP and its degradation products di-(HDBP), mono-(H2MBP) in gas and liquid phases. Comparisons of levels of quantum chemical theory revealed that there are significant effects of correlation on their electronic structures, pushing for the need of not only high level of electronic correlation treatment, namely local coupled cluster with single and double excitation operators and perturbative treatment of triple excitations [LCCSD(T)], but also extrapolations to the complete basis to produce reliable and accurate thermodynamics data. Solvation enthalpies were computed with the conductor like screening model for real solvents [COSMO-RS], for which we observe errors not exceeding 22 kJ mol-1. We thus propose with final uncertainty of about 20 kJ mol-1 standard enthalpies of formation of TBP, HDBP, and H2MBP which amounts to -1281.7±24.4, -1229.4±19.6 and -1176.7±14.8 kJ mol-1, respectively, in the gas phase. In the liquid phase, the predicted values are -1367.3±24.4, -1348.7±19.6 and -1323.8±14.8 kJ mol-1, to which we may add about -22 kJ mol-1 error from the COSMO-RS solvent model. From these data, the complete hydrolysis of TBP is predicted as an exothermic phenomena but showing a slightly endergonic process.
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Dates et versions

hal-01494184 , version 1 (25-09-2020)

Identifiants

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Mohamad Saab, Florent Réal, Martin Šulka, Laurent Cantrel, François Virot, et al.. Facing the challenge of predicting the standard formation enthalpies of n -butyl-phosphate species with ab initio methods. Journal of Chemical Physics, 2017, 146 (24), pp.244312. ⟨10.1063/1.4986953⟩. ⟨hal-01494184⟩
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