Abatement of Cr(VI) and As(III) by MnO2 loaded MCM-41 in wastewater treatment

Yunhai Wu; Shengxin Yang; Meili Zhang; Ayinigaer Aierken; Yunying Wu

Korean Journal of Chemical Engineering, Vol.32, No.8, 1667-1677, August, 2015

DOI10.1007/s11814-014-0352-4 Export Citation

Abatement of Cr(VI) and As(III) by MnO2 loaded MCM-41 in wastewater treatment

Yunhai Wu, Shengxin Yang¹, Meili Zhang¹, Ayinigaer Aierken¹, and Yunying Wu^{2, †}

*Key Laboratory of Integrated Regulation and Resources Development of Shallow Lakes, Ministry of Education, Hohai University, Xikang Road #1, Nanjing 210098, China
¹College of Environment, Hohai University, Xikang Road #1, Nanjing 210098, China
²Department of Chemistry, Hanshan Normal University, Chaozhou, Guangdong Province, China

E-mail:

Manganese dioxide (MnO2) loaded MCM-41 (MnO2/MCM-41) was used as adsorbent to remove Cr(VI) and As(III) from aqueous solution. The adsorbent was synthesized and characterized. Effect of pH on the removal of Cr(VI) and As(III) was investigated. The desired pH of aqueous solution was 2 for the removal of Cr(VI) and 4 for the removal of As(III). Besides, the adsorption of As(III) and Cr(VI) can be well described by Langmuir and Freundlich isotherm models, respectively. The kinetic data can be successfully depicted by pseudo-second-order model. Moreover, external and intra-particle diffusion were found to be rate-controlling steps of the adsorption process. Thermodynamic analysis suggested that the adsorption process was spontaneous and endothermic. In a binary system, the presence of Cr(VI) and As(III) slightly reduced the removal efficiency of each other. The desorption study showed 0.1mol/L NaOH liquor held good desorption ability for metal loaded MnO2/MCM-41.

Keywords:MnO2/MCM-41;Adsorption;Isotherm;Kinetic;Thermodynamic;Binary System

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[6] Boddu VM, Abburi K, Talbott JL, Smith ED, Haasch R, Water Res., 42, 633 (2008)

[7] Mandal BK, Suzuki KT, Talanta, 58, 201 (2002)

[8] Salameh Y, Al-Lagtah N, Ahmad MNM, Allen SJ, Walker GM, Chem. Eng. J., 160(2), 440 (2010)

[9] Owlad M, Aroua MK, Daud WAW, Baroutian S, Water Air Soil Pollut., 200, 59 (2009)

[10] Mohan D, Pittman CU, J. Hazard. Mater., 142(1-2), 1 (2007)

[11] Rafatullah M, Sulaiman O, Hashim R, Ahmad A, J. Hazard. Mater., 170(2-3), 969 (2009)

[12] Giri AK, Patel R, Mandal S, Chem. Eng. J., 185, 71 (2012)

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[14] Aryal M, Liakopoulou-Kyriakides M, J. Chem. Technol. Biotechnol., 89(4), 559 (2014)

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[18] Hizal H, Apak R, J. Colloid Interface Sci., 295(1), 1 (2006)

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[20] Samani MR, Borghei SM, Olad A, Chaichi MJ, J. Hazard. Mater., 184(1-3), 248 (2010)

[21] Mello MR, Phanon D, Silveira GQ, Llewellyn PL, Ronconi CM, Microporous Mesoporous Mater., 143, 174 (2011)

[22] Mangrulkar PA, Kamble SP, Meshram J, Rayalu SS, J. Hazard. Mater., 160(2-3), 414 (2008)

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[24] Cao J, Wu Y, Jin Y, Yilihan P, Huang W, J. Taiwan Inst. Chem. Eng., 45, 860 (2014)

[25] Parida K, Mishra KG, Dash SK, J. Hazard. Mater., 241, 395 (2012)

[26] Hu E, Cheng H, Water Res., 57, 8 (2014)

[27] Ge JT, Qu JH, J. Hazard. Mater., 100(1-3), 197 (2003)

[28] Jin H, Yuan J, Hao H, Ji Z, Liu M, Hou S, Mater. Lett., 110, 69 (2013)

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[50] Bagherifam S, Lakzian A, Ahmadi SJ, Rahimi MF, Halajnia A, J. Radioanal. Nucl. Chem., 283, 289 (2010)

[51] Lafferty BJ, Ginder-Vogel M, Sparks DL, Environ. Sci. Technol., 44, 8460 (2010)

[52] Hassan HS, Attallah MF, Yakout SM, J. Radioanal. Nucl. Chem., 286, 17 (2010)

[53] Ho YS, McKay G, Water Res., 34, 735 (2000)

[54] Fritz W, Merk W, Schluender E, Chem. Eng. Sci., 36, 743 (1981)

[55] Ho YS, McKay G, Process Saf. Environ. Protect., 76(2), 183 (1998)

[56] Chen JP, Wu S, Chong KH, Carbon, 41, 1979 (2003)

[57] Behdani FN, Rafsanjani AT, Torab-Mostaedi M, Mohammadpour SMAK, Korean J. Chem. Eng., 30(2), 448 (2013)

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[60] Sheng PX, Ting YP, Chen JP, Ind. Eng. Chem. Res., 46(8), 2438 (2007)

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