Sorption–desorption hysteresis of uranium(VI) on/from GMZ bentonite

被引:1
作者
Shicheng Li
Xiaoli Wang
Zhaoya Huang
Liang Du
Dong Zhang
Zhaoyi Tan
Yibei Fu
Xiaolin Wang
机构
[1] Institute of Nuclear Physics and Chemistry,
[2] China Academy of Engineering Physics,undefined
来源
Journal of Radioanalytical and Nuclear Chemistry | 2016年 / 310卷
关键词
Uranium (VI); Sorption; Desorption; Hysteresis; GMZ bentontie;
D O I
暂无
中图分类号
学科分类号
摘要
In this study, we examined the sorption and desorption behavior of U(VI) on/from a Chinese bentonite in the solid–liquid system using batch experiments, and the influence of pH, ionic strength and humic acid (HA) on the sorption–desorption hysteresis in the solid–liquid system were quantitatively calculated. It was revealed that the hysteresis was enhanced with increasing pH and increasing ionic strength. HA promoted the sorption, but lower the sorption–desorption hysteresis. Meanwhile, hysteresis in ternary bentonite-HA-U system was found to be higher than that in bentonite-U-HA system, indicating different sorption structures formed because of different addition sequence.
引用
收藏
页码:671 / 678
页数:7
相关论文
共 196 条
  • [1] Xu QH(2015)Effects of pH, ionic strength, humic substances and temperature on Th(IV) sorption onto ZSM-5 J Radioanal Nucl Chem 305 1-7
  • [2] Pan DQ(2015)Plutonium sorption and desorption behavior on bentonite J Environ Radioact 141 106-114
  • [3] Wu WS(2015)Effect of fulvic acid surface coatings on plutonium sorption and desorption kinetics on goethite Environ Sci Technol 49 2776-2785
  • [4] Begg JD(2013)Kinetics, equilibrium, and mechanisms of sorption and desorption of 17α-ethinyl estradiol in two natural soils and their organic fractions Sci Total Environ 452–453 404-410
  • [5] Zavarin M(2013)Effects of cations and anions on iron and manganese sorption and desorption capacity in calcareous soils from Iran Environ Earth Sci 68 847-858
  • [6] Tumey SJ(2001)Time scales for sorption–desorption and surface precipitation of uranyl on goethite Environ Sci Technol 35 3332-3337
  • [7] Kersting AB(2002)Sorption–desorption of ionogenic compounds at the mineral-water interface: study of metal oxide-rich soils and pure-phase minerals Environ Sci Technol 36 501-511
  • [8] Tinnacher RM(2016)Decreased salinity and actinide mobility: colloid-facilitated transport or pH change? Environ Sci Technol 50 625-632
  • [9] Begg JD(2011)Mobilization of actinides by dissolved organic compounds at the Nevada Test Site Appl Geochem 26 308-318
  • [10] Mason H(2014)Recent developments in assessment of long-term radionuclide behavior in the geosphere–biosphere subsystem J Environ Radioact 131 89-109
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