Effect of porosity and surface chemistry on the adsorption-desorption of uranium(VI) from aqueous solution and groundwater

Yakout S. M.

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Effect of porosity and surface chemistry on the adsorption-desorption of uranium(VI) from aqueous solution and groundwater

机译：孔隙率和表面化学对铀（VI）在水溶液和地下水中吸附-解吸的影响

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Rice straw-based biochars modified with different chemical regents were used as an adsorbent for uranium(VI). Effect of pyrolysis temperature and nature of modifying agent's as well as surface chemistry, surface charge, and pore structure on U(VI) removal was investigated. Amount and nature of the surface groups has, in general, more influence than its porosity on U(VI) adsorption. The adsorption was maximum for the initial pH of 5.5. Rice straw derived biochars had comparable U(VI) adsorption as compared to other adsorbents. The U(VI) removal was 90 % from groundwater. NaHCO3 was found to be the most efficient desorbent eluent for U(VI).

机译：以不同化学试剂改性的稻草基生物炭为铀（VI）的吸附剂。研究了热解温度和改性剂的性质以及表面化学，表面电荷和孔结构对U（VI）去除的影响。通常，表面基团的数量和性质比其孔隙度对U（VI）吸附的影响更大。初始pH为5.5时，吸附最大。与其他吸附剂相比，稻草衍生的生物炭具有相当的U（VI）吸附能力。 U（VI）从地下水中的去除率为90％。发现NaHCO3是用于U（VI）的最有效的脱附剂。

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《Journal of Radioanalytical and Nuclear Chemistry: An International Journal Dealing with All Aspects and Applications of Nuclear Chemistry》 |2016年第2期|共11页
作者
Yakout S. M.;
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正文语种 eng
中图分类物理化学（理论化学）、化学物理学;
关键词
Biochar; Rice straw; Characterization; Surface modification; Uranium adsorption;

机译：生物炭;稻草;表征;表面改性;铀吸附;

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1. Effect of porosity and surface chemistry on the adsorption-desorption of uranium(VI) from aqueous solution and groundwater [J] . Yakout S. M. Journal of Radioanalytical and Nuclear Chemistry: An International Journal Dealing with All Aspects and Applications of Nuclear Chemistry . 2016,第2期

机译：孔隙率和表面化学对铀（VI）在水溶液和地下水中吸附-解吸的影响
2. Concentrative isolation of uranium traces in aqueous solutions via resurfaced-magnetic carbon nanotube suspension [J] . Mohannad T. Aljarrah, Mohammad S. Al-harahsheh, Muna A. Alrebaki, Journal of Environmental Management . 2020,第Octa1期

机译：Resurfaced-磁性碳纳米管悬浮液中铀痕量的浓缩分离
3. Sorption of uranium(VI) compounds on fibrous anion exchanger surface from aqueous solutions [J] . Sazonova V. F., Perlova O. V., Perlova N. A., Colloid journal . 2017,第2期

机译：水溶液中纤维阴离子交换器表面铀（VI）化合物的吸附
4. Preliminary Investigations of Ta Surface Chemistry in Aqueous Solutions of TeO_2, and the Possible Formation of TaTe_2 [C] . Chu Tsang, Youn-Geun Kim, Daniel Gebregziabiher, Processes at the semiconductor solution interface 5 . 2013

机译：TeO_2水溶液中Ta表面化学性质及TaTe_2可能形成的初步研究
5. Effects of activated carbon surface chemistry and pore structure on the adsorption of trace organic contaminants from aqueous solution. [D] . Li, Lei. 2002

机译：活性炭表面化学性质和孔结构对水溶液中痕量有机污染物吸附的影响。
6. Physicochemical Parameters of the Methylparaben Adsorptionfrom Aqueous Solution Onto Activated Carbon and Their Relationshipwith the Surface Chemistry [O] . Valentina Bernal, *, Liliana Giraldo, 2021

机译：甲基羟基甲苯吸附的物理化学参数从水溶液到活性炭及其关系中随着表面化学
7. On the Complex Chemistry of the Uranyl Ion. I. The Hydrolysis of the Six-valent Uranium in Aqueous Solutions. [O] . Sten Ahrland, Bertil Jacobson, E. Saluste 1949

机译：在铀酰离子的复合化学。 I.六价铀在水溶液中的水解。

Effect of porosity and surface chemistry on the adsorption-desorption of uranium(VI) from aqueous solution and groundwater

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