Аннотация:
Supercritical fluid extraction of caesium, potassium and sodium from aqueous solutions in the presence of dicyclohexano-21-crown-7, pentadecafluoro-n-octanoic acid (PFOA) and tetraethylammonium perfluoro-1-octanesulfonate (TPFOS) has been investigated at different temperatures of supercritical carbon dioxide, ratios between reagent concentrations and initial concentrations of caesium in the solution.
Тип публикации:
Статья
Язык публикации: английский
Образец цитирования:
Ch. M. Wai, Yu. M. Kulyako, B. F. Myasoedov, “Supercritical carbon dioxide extraction of caesium from aqueous solutions in the presence of macrocyclic and fluorinated compounds”, Mendeleev Commun., 9:5 (1999), 180–181
Arna Pálsdóttir, Christopher A. Alabi, Jefferson W. Tester, “Characterization of 14-Crown-4 Ethers for the Extraction of Lithium from Natural Brines: Synthesis, Solubility Measurements in Supercritical Carbon Dioxide, and Thermodynamic Modeling”, Ind. Eng. Chem. Res., 60:21 (2021), 7926
Andrew W. Ruttinger, Arna Pálsdóttir, Jefferson W. Tester, Paulette Clancy, “A Quantitative Metric for the Design of Selective Supercritical CO2 Extraction of Lithium from Geothermal Brine”, ChemSusChem, 12:15 (2019), 3532
Antoine Leybros, Nathalie Segond, Agnès Grandjean, “Remediation of 137Cs-contaminated concrete rubble by supercritical CO2 extraction”, Chemosphere, 208 (2018), 838
Xin Ding, Qinli Liu, Xiongpo Hou, Tao Fang, “Supercritical Fluid Extraction of Metal Chelate: A Review”, Critical Reviews in Analytical Chemistry, 47:2 (2017), 99
Tao Yang, Jing Fu, Qingde Chen, Xinghai Shen, “Orthogonal array design for the optimization of stripping Sr(II) from ionic liquids using supercritical CO2”, Chinese Journal of Chemical Engineering, 25:1 (2017), 26
Adrien Dartiguelongue, Antoine Leybros, Agnès Grandjean, “Solubility of Perfluoropentanoic Acid in Supercritical Carbon Dioxide: Measurements and Modeling”, J. Chem. Eng. Data, 61:11 (2016), 3902
Antoine Leybros, Agnès Grandjean, Nathalie Segond, Marc Messalier, Olivier Boutin, “Cesium removal from contaminated sand by supercritical CO 2 extraction”, Journal of Environmental Chemical Engineering, 4:1 (2016), 1076
Rossana Sepúlveda, Julio Romero, José Sánchez, “Copper removal from aqueous solutions by means of ionic liquids containing a β‐diketone and the recovery of metal complexes by supercritical fluid extraction”, J of Chemical Tech & Biotech, 89:6 (2014), 899
M. D. Samsonov, A. Yu. Shadrin, D. N. Shafikov, Yu. M. Kulyako, B. F. Myasoedov, “Supercritical fluid extraction in modern radiochemistry”, Radiochemistry, 53:2 (2011), 111
M. D. Samsonov, T. I. Trofimov, Yu. M. Kulyako, B. F. Myasoedov, “Recovery of actinides from their dioxides using supercritical CO2 containing the adduct of tributyl phosphate with nitric acid”, Radiochemistry, 49:3 (2007), 246
Yoshihiro Meguro, Shuichi Iso, Zenko Yoshida, Osamu Tomioka, Youichi Enokida, Ichiro Yamamoto, “Decontamination of uranium oxides from solid wastes by supercritical CO2 fluid leaching method using HNO3–TBP complex as a reactant”, The Journal of Supercritical Fluids, 31:2 (2004), 141
Chien Wai, Supercritical Fluid Technology in Materials Science and Engineering, 2002
Osamu TOMIOKA, Yoshihiro MEGURO, Youichi ENOKIDA, Ichiro YAMAMOTO, Zenko YOSHIDA, “Dissolution Behavior of Uranium Oxides with Supercritical CO2Using HNO3-TBP Complex as a Reactant”, Journal of Nuclear Science and Technology, 38:12 (2001), 1097
T. I. Trofimov, M. D. Samsonov, S. C. Lee, B. F. Myasoedov, Ch. M. Wai, “Dissolution of uranium oxides in supercritical carbon dioxide containing tri-n-butyl phosphate and thenoyltrifluoroacetone”, Mendeleev Commun., 11:4 (2001), 129–130
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