Absorption of Neptunium to Muscovite With Different Particle Sizes

Neptunium is one of long-life radioelements, whose speciation in different condition of underground water and soil type, including the adsorption characteristics and adsorption mechanism on some soils, is a critical field. The adsorption behavior of Np(Ⅴ) on muscovite minerals was studied by combining theoretical calculations and static adsorption experiments, providing a reference for evaluating the safety of nuclear waste disposal sites in this work. The adsorption behavior of 239Np(Ⅴ) by different particle sizes of muscovite was studied using characterization methods such as X-ray diffraction(XRD), scanning electron microscopy(SEM), material specific surface area(BET), and NaI(Tl) gamma spectroscopy. Explored the effects of factors such as time, pH value, and the presence or absence of \begin{document}${\mathrm{CO}}_3^{2-} $\end{document} on the adsorption of Np(Ⅴ) by muscovite with different particle sizes. Combining density functional based on first principles, B3LYP was selected as the functional and 6-