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Citation: GUO Zhi-Jun, CHEN Zong-Yuan, WU Wang-Suo, LIU Chun-Li, CHEN Tao, TIAN Wen-Yu, LI Chun. Adsorption of Se(IV) onto Beishan Granite[J]. Acta Physico-Chimica Sinica, ;2011, 27(09): 2222-2226. doi: 10.3866/PKU.WHXB20110918 shu

Adsorption of Se(IV) onto Beishan Granite

  • 1.

    1. Beijing National Laboratory for Molecular Sciences, Radiochemistry & Radiation Chemistry Key Laboratory for Fundamental Science, College of Chemistry and Molecular Engineering, Peking University, Beijing 100871, P. R. China;
    2. School of Nuclear Science and Technology, Lanzhou University, Lanzhou 730000, P. R. China

  • Received Date: 12 April 2011
    Available Online: 12 July 2011

    Fund Project: 国家自然科学基金(10775008, 11075006,91026010,20971061) (10775008, 11075006,91026010,20971061) 教育部博士点基金(20060001032) (20060001032) 国防科工委军工遗留专项基金(科工计[2007]840) (科工计[2007]840) 中央高校基本科研业务费专项资金和北京大学测试基金(第16-18 期)资助项目 (第16-18 期)

  • The adsorption of Se(IV) onto crushed Beishan granite (BS03, 600 m) was studied by a batch experimental method. The results showed that the distribution coefficient (Kd) remained almost constant in the pH range of 3-7 and decreased at pH>7. The adsorption of Se(IV) did not vary with ionic strength. The presence of Ca2+ (4.10×10-3 mol·L-1) and SO42- (3.17×10-3 mol·L-1) had no effect on Se(IV) adsorption. Moreover, we found that the adsorption of Se(IV) (1.46×10-5 mol·L-1) and Eu(III) (3.33×10-6 mol·L-1) on Beishan granite had no effect on each other in the ternary adsorption system consisting of Se(IV)/Eu(III)/ granite. The adsorption of Se(IV) onto Beishan granite was quantitatively interpreted by considering the two surface complexation reactions of HseO3- to form ≡SHSeO3 and ≡SSeO3- on the ≡SOH general adsorption sites.
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    1. [1]

      (1) Chen, F.; Burns, P. C.; Ewing, R. C. J. Nucl. Mater. 1999, 275, 81.  

    2. [2]

      (2) Duc, M.; Lefevre, G.; Fedoroff, M. J. Colloid Interface Sci. 2006, 298, 556.  

    3. [3]

      (3) Catalano, J. G.; Zhang, Z.; Fenter, P.; Bedzyk, M. J. J. Colloid Interface Sci. 2006, 297, 665.  

    4. [4]

      (4) Su, C.; Suarez, D. L. Soil Sci. Soc. Am. J. 2000, 64, 101.  

    5. [5]

      (5) Peak, D. S.; Huang, U. Soil Sci. Soc. Am. J. 2006, 70, 192.  

    6. [6]

      (6) Neal, R. H.; Sposito, G.; Holtzclaw, K.; Traina, S. Soil Sci. Soc. Am. J. 1987, 51, 1161.  

    7. [7]

      (7) Neal, R. H.; Sposito, G.; Holtzclaw, K.; Traina, S. Soil Sci. Soc. Am. J. 1987, 51, 1165.  

    8. [8]

      (8) Sposito, G.; deWit, J.; Neal, R. H. Soil Sci. Soc. Am. J. 1988, 52, 947.  

    9. [9]

      (9) Jan, Y. L.;Wang, T. H.; Li, M. H.; Tsai, S. C.;Wei, Y. Y.; Teng, S. P. Appl. Radiat. Isotopes 2008, 66, 14.  

    10. [10]

      (10) Ticknor, K.; McMurry, J. Radiochim. Acta 1996, 73, 149.

    11. [11]

      (11) Jan, Y. L.;Wang, T. H.; Li, M. H.; Tsai, S. C.;Wei, Y. Y.; Hsu, C. N.; Teng, S. P. J. Radioanal. Nucl. Chem. 2007, 273, 299.  

    12. [12]

      (12) Papelis, C. Adv. Environ. Res. 2001, 5, 151.  

    13. [13]

      (13) de Llano, A. Y.; Bidoglio, G.; Avogadro, A.; Gibson, P.; Rivas Romero, P. J. Contam. Hydrol. 1996, 21, 129.  

    14. [14]

      (14) Wang, J.; Xu, G. Q.; Fan, X. H.; Zheng, H. L.;Wang, C. Z.; Fan, Z.W. Geological Disposal of High Level RadioactiveWaste in China: Progress in the Last Decade (1991-2000). In Geological Disposal of High Level Radioactive Waste in China: Progress in the Last Decade (1991-2000); Wang, J., Fan, X. H., Xu, G. Q., Zheng, H. L. Eds.; Atomic Energy Press: Beijing, 2004; pp 1-12. [王驹, 范显华, 徐国庆, 郑华铃, 王承祖, 范智文.中国高放废物地质处置十年进展. 见王驹, 范显华, 徐国庆, 郑华铃编. 中国高放废物地质处置十年进展. 北京: 原子能出版社, 2004: 1-12.]

    15. [15]

      (15) Guo, Z. J.; Chen, Z. Y.;Wu,W. S.; Liu, C. L.; Chen, T.; Tian,W. Y.; Li, C. Sci. China Ser. B-Chem. 2011, 41, 907. [郭治军, 陈宗元, 吴王锁, 刘春立, 陈涛, 田文宇, 黎春. 中国科学B 辑-化学, 2011, 41, 907.]

    16. [16]

      (16) Parkhurst, D. L.; Appelo, C.; Survey, G. User 's Guide to PHREEQC (Version 2): A Computer Program for Speciation, Batch-reaction, One-dimensional Transport, and Inverse Geochemical Calculations; US Geological Survey, Water-Resources Investigation Report 99-4259, Denver, Colorado, USA, 1999.

    17. [17]

      (17) Hummel,W.; Berner, U.; Curti, E.; Pearson, F.; Thoenen, T. Nagra/PSI Chemical Thermodynamic Data Base 01/01; Universal-Publishers, Parkland, Florida, USA, 2002.

    18. [18]

      (18) Montavon, G.; Guo, Z.; Lützenkirchen, J.; Alhajji, E.; Kedziorek, M.; Bourg, A.; Grambow, B. Colloids and Surfaces A- Physicochemical and Engineering Aspects 2009, 332, 71.  

    19. [19]

      (19) Missana, T.; Alonso, U.; García-Gutiérrez, M. J. Colloid Interface Sci. 2009, 334, 132.  

    20. [20]

      (20) Chen, T.; Sun, M.; Li, C.; Tian,W. Y.; Liu, X.;Wang, L. H.; Wang, X.; Liu, C. L. Radiochim. Acta 2010, 98, 301.  

    21. [21]

      (21) Davis, J. A.; Meece, D. E.; Kohler, M.; Curtis, G. P. Geochim. Cosmochim. Acta 2004, 68, 3621.  

    22. [22]

      (22) Tertre, E.; Hofmann, A.; Berger, G. Geochim. Cosmochim. Acta 2008, 72, 1043.  

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