Removal of U(VI) from acidic wastewater by persimmon tannin-functionalized chitosan

With sodium tripolyphosphate (STPP) as cross-linker, Persimmon tannin-chitosan microspheres (PT-CS) were synthesized by hydrothermal for removing U(VI) from acidic effluent. The batch experiments indicated that PT-CS adsorbed U(VI) most effectively at pH 1.5, the maximum adsorption capacity for PT-C...

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Bibliographic Details
Published in:Applied radiation and isotopes 2024-03, Vol.205, p.111145-111145, Article 111145
Main Authors: Zhang, Haibo, Mai, Yingqing, Xie, Shuibo, Wang, Guohua, Wang, Shuiyun
Format: Article
Language:English
Subjects:
Acid wastewater
Adsorption
PT-CS
U(VI)
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Summary:With sodium tripolyphosphate (STPP) as cross-linker, Persimmon tannin-chitosan microspheres (PT-CS) were synthesized by hydrothermal for removing U(VI) from acidic effluent. The batch experiments indicated that PT-CS adsorbed U(VI) most effectively at pH 1.5, the maximum adsorption capacity for PT-CS was 245 mg/g. Compared to pure CS dissolved at pH 3, PT-CS still maintain high stability at pH 1. Moreover, single system of common metal ions in rare earth wastewater only slightly affected the adsorption of uranium at pH 1.5, but this process was inhibited about 30% at pH 5. Those results indicated that the selectivity of PT-CS for uranium removal could be controlled by regulating the pH and there are excellent potentials for PT-CS using in acid metal water treatment. Its adsorption selectivity and ability to adapt different condition was demonstrated with uraniferous rare earth wastewater treatment. The adsorption for PT-CS to U(VI) were well fitted for both Langmuir isothern and pseudo-secondary kinetic model equations, and that meant chemisorption dominated the removal process. Spectroscopic analyses confirmed that the adsorption of U(VI) occurred via surface complexation by –OH and ion exchange with Na+. Therefore, this study provides a high-efficiency, low-cost, valuable and highly adaptable method for the treatment of acidic uranium-containing effluents. [Display omitted] •PT-CS could maintain high stability in acid solution at pH 1.5•PT-CS adsorbed uranyl ions under a wide range of conditions (pH 1.5–6), and the stronger the acidity was, the stronger the adsorption capacity.•PT-CS showed good selectivity for uranium and offers promise for removing uranium from radioactive effluent under a broad range of conditions.
ISSN:0969-8043
1872-9800
DOI:10.1016/j.apradiso.2023.111145