Evaluation of Thermodynamic Model of Pd(II) Complex Formation with Isosaccharinic Acid

Author:

Kimuro ShingoORCID,Taneichi Yayoi,Iwata Hajime,Ishidera Takamitsu,Kitamura Akira,Tachi Yukio,Tanaka Takeru,Hirano Kana,Hieda Manami,Miyabe Shunsuke,Kawamoto Daisuke

Abstract

AbstractPalladium-107 is one of the selected radionuclides in the safety assessment of geological disposal of radioactive waste. Although isosaccharinic acid (ISA) forms strong complexes with many elements and enhances element solubility, the thermodynamic evaluation of the complex of Pd with ISA has not been conducted. In this study, the solubility of Pd(OH)2 at pH 8.5–12.5 in the presence of ISA was investigated under inert gas (N2) atmosphere. Furthermore, the coordination state of aqueous Pd and ISA was investigated by X-ray absorption and Fourier transform infrared spectroscopy, respectively. According to experimental results, the number of OH ligands in the mixed complex depends on pH. The thermodynamic model and conditional equilibrium constants of the Pd-ISA complex were estimated by slope analyses of solubility experiments at different pH levels and ionic strengths based on the specific ion interaction theory. Hence, the impact of complexation with ISA on Pd(II) solubility under disposal conditions could be quantified using the proposed thermodynamic models in this study.

Publisher

Springer Science and Business Media LLC

Reference19 articles.

1. The Nuclear Waste Management Organization of Japan (NUMO): : The NUMO Pre-siting SDM-based Safety Case., NUMO-TR21-01, (2021). https://www.numo.or.jp/technology/technical_report/pdf/NUMO-TR21-01_rev220222.pdf Accessed 8 June 2023

2. Glaus, M.A., Van Loon, L.R.: Degradation of cellulose under alkaline conditions: New insights from a 12 years degradation study. J. Environ. Polym. Degrad. 42, 2906–2911 (2008)

3. Glaus, M.A., Van Loon, L.R., Schwyn, B., Vines, S., Williams, S.J., Larsson, P., Puigdomenech, I.: Long-term prediction of the concentration of a-isosaccharinic acid in cement pore water. Mater. Res. Soc. Symp. Proc. 1107, 605–612 (2008)

4. Greenfield, B.F., Holtom, G.J., Hurdus, M.H., et al.: The identification and degradation of isosaccharinic acid, a cellulose degradation product. Mater. Res. Soc. Symp. Proc. 353, 1151–1158 (1995)

5. Tits, J., Wieland, E., Bradbury, M.H.: The effect of isosaccharinic acid and gluconic acid on the retention of Eu(III), am(III), and th(IV) by calcite. Appl. Geochem. 20, 2082–2096 (2005)

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