| INORGANIC MATERIALS AND CERAMIC MATRIX COMPOSITES |
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| Adsorption of Fluoride on Lanthanum or Cerium Modified Mesoporous Alumina |
| LIU Dekun, LIU Hang, YANG Liu, LUO Yongming, HAN Caiyun
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| Faculty of Environmental Science and Engineering, Kunming University of Science and Technology, Kunming 650500 |
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Abstract Nowadays, a kind of highly efficient fluoride adsorbent has that employ La, Ce as the modifier to the surface of certain carriers has aroused wide concerns. However, the loading of La and Ce into mesoporous alumina(MA) is rarely reported. In this study, La and Ce modified mesoporous alumina were prepared they were used for the removal of fluorine. The structural properties of the adsorbent were characterized by N2 desorption isotherm, X-ray diffraction(XRD) and Fourier transform infrared spectroscopy(FTIR). Furthermore, the effects of contact time, initial concentration and pH value on the adsorption of fluoride were investigated. The results showed that the adsorption equilibrium had been achieved at 150 min, with the fluorine removal rate of 92.2%(La/MA). The order of fluorine adsorption capacity was La/MA>Ce/MA>MA. The fluorine adsorption capacity increased with the increase of initial concentration. Satisfactory fluorine removal effect could be acquired under the pH value of 5—9. The adsorption isotherm equation was in accordance with the Langmuir adsorption isotherm model. The La/MA exhibited a maximum adsorption capacity of 27.9 mg/g. The degree of influence of co-existing anions on fluoride removal followed the order of CO32->SO42->NO3->Cl-. Finally, by comparing the FTIR before and after adsorption, it could be seen that La/MA exerted the best effect on fluoride removal.
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Published: 11 March 2019
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| Fund:This work was financially supported by the National Natural Science Foundation of China (21507051,21767016,U1402233). |
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| 1 |
Alagumuthu G, Rajan M. <i>Chemical Engineering Journal</i>,2010,158(3),451.<br />
|
| 2 |
Yeung C A. <i>Evidence-based Dentistry</i>,2008,9(2),39.<br />
|
| 3 |
Cai H D. <i>Modern environmental hygiene,</i> People’s Medical Publishing House, China,2004(in Chinese).<br />
|
|
蔡宏道.现代环境卫生学,人民卫生出版社,1994.<br />
|
| 4 |
Mandal S, Mayadevi S. <i>Chemosphere</i>,2008,72(6),995.<br />
|
| 5 |
Das D P, Das J, Parida K. <i>Journal of Colloid & Interface Science</i>,2003,261(2),213.<br />
|
| 6 |
Min Y M, Hashimoto T, Hoshi N, et al. <i>Water Research</i>,1999,33(16),3395.<br />
|
| 7 |
Castel C, Schweizer M, Simonnot M O, et al. <i>Chemical Engineering Science</i>,2000,55(17),3341.<br />
|
| 8 |
Garmes H, Persin F, Sandeaux J, et al. <i>Desalination</i>,2002,145(1),287.<br />
|
| 9 |
Amor Z, Bariou B, Mameri N, et al. <i>Desalination</i>,2001,133(3),215.<br />
|
| 10 |
Hu K, Dickson J M. <i>Journal of Membrane Science</i>,2006,279(1-2),529.<br />
|
| 11 |
Kemer B, Ozdes D, Gundogdu A, et al. <i>Journal of Hazardous Materials</i>,2009,168(2-3),888.<br />
|
| 12 |
Islam M, Patel R K. <i>Journal of Hazardous Materials</i>,2007,143(1-2),303.<br />
|
| 13 |
Meenakshi S, Sundaram C S, Sukumar R.<i> Journal of Hazardous Mate-rials</i>,2008,153(1-2),164.<br />
|
| 14 |
Tor A, Danaoglu N, Arslan G, et al.<i> Journal of Hazardous Materials</i>,2009,164(1),271.<br />
|
| 15 |
Jiménez-Reyes M, Solache-Ríos M. <i>Journal of Hazardous Materials</i>,2010,180(1-3),297.<br />
|
| 16 |
Bhatnagar A, Kumar E, Sillanp M.<i> Chemical Engineering Journal</i>,2011,171(3),811.<br />
|
| 17 |
Ghosh A, Chakrabarti S, Biswas K, et al. <i>Applied Surface Science</i>,2014,307,665.<br />
|
| 18 |
Tokunaga S, Haron M J, Wasay S A, et al. <i>International Journal of Environmental Studies</i>,1995,48(1),17.<br />
|
| 19 |
Zhang T, Li Q, Liu Y, et al. <i>Chemical Engineering Journal</i>,2011,168(2),665.<br />
|
| 20 |
Wang J, Xu W H, Chen L, et al. <i>Chemical Engineering Journal</i>,2013,231(17),198.<br />
|
| 21 |
Zhang S Y, Lu Y, Lin X Y, et al. <i>Applied Surface Science</i>,2014,303(5),1.<br />
|
| 22 |
Cheng J M, Meng X G, Jing C Y, et al. <i>Journal of Hazardous Materials</i>,2014,278,343.<br />
|
| 23 |
Yu Y, Wang C H, Guo X, et al. <i>Journal of Colloid & Interface Science</i>,2015,441,113.<br />
|
| 24 |
Sing K S W. <i>Pure & Applied Chemistry</i>,2009,57(4),603.<br />
|
| 25 |
Nazari M, Halladj R. <i>Journal of the Taiwan Institute of Chemical Engineers</i>,2014,45(5),2518.<br />
|
| 26 |
Chen Y, Zhang L, Liu Z, et al. <i>Hans Journal of Chemical Engineering and Technology</i>,2017,7(6),275(in Chinese).<br />
|
|
陈越,张力,刘铸,等.化学工程与技术,2017,7(6),275.<br />
|
| 27 |
Hou H, Xie Y, Yang Q. <i>Food Research & Development</i>,2005,16(16),741.<br />
|
| 28 |
Chen Y M, Wang M K, Huang P M, et al. <i>Geoderma</i>,2009,152(3-4),296.<br />
|
| 29 |
Viswanathan N, Meenakshi S. <i>Journal of Colloid & Interface Science</i>,2008,322(2),375.<br />
|
| 30 |
Brito A, Borges M E, Garín M, et al. <i>Energy Fuels</i>,2009,23(6),2952.<br />
|
| 31 |
Sundaram C S, Viswanathan N, Meenakshi S. <i>Journal of Hazardous Materials</i>,2009,163(2-3),618.<br />
|
| 32 |
Kang J X, Li B, Song J, et al. <i>Chemical Engineering Journal</i>,2011,166(2),765.<br />
|
| 33 |
Sugi Y, Kubota Y, Komura K, et al. <i>Applied Catalysis A General</i>,2006,299(1),157.<br />
|
| 34 |
Yang L J, Liu X Y, Jiang X, et al. <i>Chinese Journal of Applied Chemistry</i>,2012,29(11),1278(in Chinese).<br />
|
|
杨丽君,刘雪岩,姜鑫,等.应用化学,2012,29(11),1278.<br />
|
| 35 |
Tang Y L, Guan X H, Su T Z, et al. <i>Colloids & Surfaces A Physicoche-mical & Engineering Aspects</i>,2009,337(1-3),33.<br />
|
| 36 |
Sun X L, Zeng Q X, Feng C G, et al. <i>Journal of Functional Materials</i>,2009,40(10),1734(in Chinese).<br />
|
|
孙小莉,曾庆轩,冯长根,等.功能材料,2009,40(10),1734.<br />
|
| 37 |
Pandey N. Removal efficiency of fluoride by La induced Zr-phosphate po-rous material. ’s thesis, National Institute of Technology, lndia,2012.<br />
|
| 38 |
Hun Z Y, Tang S Y, Wang J, et al. <i>Journal of Henan Chemical Industry</i>,2011,19,36(in Chinese).<br />
|
|
胡之阳,唐思远,王静,等.河南化工,2011(19),36.<br />
|
| 39 |
Zhang S Y, Lu Y, Lin X Y, et al. <i>Applied Surface Science</i>,2014,303(5),1.<br />
|
| 40 |
Viswanathan N, Meenakshi S. <i>Journal of Colloid & Interface Science</i>,2008,322(2),375.<br />
|
| 41 |
Chen H H, Huang L M, Wu H F, et al. <i>Journal of Environment and Health</i>,2010,27(10),868(in Chinese).<br />
|
|
陈红红,黄丽玫,毋福海,等.环境与健康杂志,2010,27(10),868.<br />
|
| 42 |
Teutli-Sequeira A, Solache-Ríos M, Martínez-Miranda V, et al. <i>Journal of Colloid & Interface Science</i>,2014,418,254.<br />
|
| 43 |
Kumar E, Bhatnagar A, Kumar U, et al. <i>Journal of Hazardous Mate-rials</i>,2011,186(2-3),1042.<br />
|
| 44 |
Viswanathan N, Meenakshi S. <i>Applied Clay Science</i>,2010,48(4),607.<br />
|
| 45 |
Zhao X L, Wang J M, Wu F C, et al. <i>Journal of Hazardous Materials</i>,2010,173(1-3),102.<br />
|
| 46 |
Bansiwal A, Pillewan P, Biniwale R B, et al. <i>Microporous & Mesoporous Materials</i>,2010,129(1),54.<br />
|
| 47 |
Rao C R N, Karthikeyan J. <i>Water Air & Soil Pollution</i>,2012,223(3),1101.<br />
|
| 48 |
Tripathy S S, Raichur A M. <i>Journal of Hazardous Materials</i>,2008,153(3),1043.
|
|
|
|
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2019, Vol. 33 
