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Received September 26, 2013
Accepted February 8, 2014
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Biosorption of Zn2+ and Pb2+ from aqueous solutions using native and microwave treated Flammulina velutipes stipe
School of Resources and Environmental Engineering, Anhui University, Hefei 230039, P. R. China 1Modern Experiment Technology Center, Anhui University, Hefei 230039, P. R. China
Korean Journal of Chemical Engineering, August 2014, 31(8), 1444-1450(7), 10.1007/s11814-014-0048-9
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Abstract
Native stipe (NS) and microwave treated stipe (MTS) of Flammulina velutipes were utilized for the biosorption of Zn2+ and Pb2+ ions from aqueous solution. The effects of pH, contact time, and initial concentration on the biosorption were studied for each metal separately. The desired pH of aqueous solution was found to be 6.0 for the removal of Zn2+ ions and 5.0 for the removal of Pb2+ ions. The percent removal of both metals was found to increase with the increase in contact time; biosorption equilibrium was established in about 60 min. The maximum biosorption of Zn2+ and Pb2+ ions from single component systems can be successfully described by Langmuir and Freundlich models; the biosorption kinetics can be accurately described by a second-order kinetic model. The present data from these studies confirms that the native and microwave treated forms of Flammulina velutipes stipe have the potential to be used for the biosorption of Zn2+ and Pb2+ ions from aqueous solution. The metal biosorption capacities of NS for Zn2+ and Pb2+ were 58.14 and 151.51 mg g-1, respectively, while the biosorption capacities of MTS for the both metals were 95.24 and 172.41 mg g-1, respectively.
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References
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Hashim MA, Mukhopadhyay S, Sahu JN, Sengupta B, J. Environ. Manage., 92, 2355 (2011)
Bayhan YK, Keskinler B, Cakici A, Levent M, Akay G, Water Res., 35, 2191 (2001)
Bailey SE, Olin TJ, Bricka RM, Adrian DD, Water Res., 33, 2469 (1999)
Rostamian R, Najafi M, Rafati AA, Chem. Eng. J., 171(3), 1004 (2011)
Juang RS, Shiau RC, J. Membr. Sci., 165(2), 159 (2000)
Lalwani SB, Wiltowski T, Hubner A, Weston A, Mandich N, Carbon, 36, 1219 (1998)
Lodeiro P, Herrero R, De Vicente MES, Environ. Chem., 3, 400 (2006)
Arica MY, Tuzun I, Yalcin E, Ince O, Bayramoglu G, Process Biochem., 40(7), 2351 (2005)
Shaker MA, J. Appl. Sci., 4, 605 (2007)
Kumar R, Bhatia D, Singh R, Rani S, Bishnoi NR, Int. Biodeterior. Biodegrad., 65, 1133 (2011)
Lesmana SO, Febriana N, Soetaredjo FE, Sunarso J, Ismadji S, Biochem. Eng. J., 44, 19 (2009)
Omraei M, Esfandian H, Katal R, Ghorbani M, Desalination, 271(1-3), 248 (2011)
Mouni L, Merabet D, Bouzaza A, Belkhiri L, Desalination, 276(1-3), 148 (2011)
Kurniawan TA, Chan GYS, Lo WH, Babel S, Sci. Total Environ., 366, 409 (2006)
Ghorbani F, Younesi H, Ghasempouri SM, Zinatizadeh AA, Amini M, Daneshi A, Chem. Eng. J., 145(2), 267 (2008)
Sari A, Tuzen M, J. Hazard. Mater., 157(2-3), 448 (2008)
Vimala R, Das N, J. Hazard. Mater., 168(1), 376 (2009)
Chen GQ, Zeng GM, Tu X, Niu CG, Huang GH, Jiang W, J. Hazard. Mater., 135(1-3), 249 (2006)
Bayramoglu G, Arica MY, Chem. Eng. J., 143(1-3), 133 (2008)
Sander A, Chem. Eng. Process., 46(12), 1324 (2007)
Therdthai N, Zhou WB, J. Food Eng., 91(3), 482 (2009)
Bayramoglu G, Arica MY, Bioresour. Technol., 100(1), 186 (2009)
Johnson SB, Franks GV, Scales PJ, Boger DV, Healy TW, Int. J. Miner. Process., 58(1), 267 (2000)
Bayramoglu G, Arica MY, Adiguzel N, Chemosphere, 89, 302 (2012)
Tewari N, Vasudevan P, Guha BK, Biochem. Eng. J., 23, 185 (2005)
Hao JY, Han W, Deng X, Chinese Tradit. Herb. Drugs., 33, 739 (2002)
Pagnotta M, Pooley CLF, Gurland B, Choi M, J. Phys. Org. Chem., 6, 407 (1993)
Li DF, Mu CD, Zhang Q, Zhou YL, Lin W, J. Food Biochem., 34, 1319 (2010)
Weber WJ, Morris JC, J. Saint. Eng. Div. Am. Soc. Civ. Eng., 89, 31 (1963)
Lagergren S, K. Sven. Vetenskapsakad. Handl., 24, 1 (1898)
Ho YS, McKay G, Process Biochem., 34(5), 451 (1999)
Bhattacharya AK, Naiya TK, Mandal SN, Das SK, Chem. Eng. J., 137(3), 529 (2008)
Bayramoglu G, Arica MY, J. Hazard. Mater., 187(1-3), 213 (2011)
Yuan L, Liu YS, Chem. Eng. J., 215, 432 (2013)
Langmuir I, J. Am. Chem. Soc., 40, 1361 (1918)
Freundlich H, Z. Phys. Chem., 40, 1361 (1906)
Dogan M, Alkan M, Turkyilmaz A, Ozdemir Y, J. Hazard. Mater., 109(1-3), 141 (2004)
Gerente C, du Mesnil PC, Andres Y, Thibault JF, Le Cloirec P, React. Funct. Polym., 46(2), 135 (2000)
Reddad Z, Gerente C, Andres Y, Le Cloirec P, Environ. Sci. Technol., 36, 2242 (2002)
Vimala R, Das N, J. Hazard. Mater., 168(1), 376 (2009)
Pardo R, Herguedas M, Barrado E, Vega M, Anal. Bioanal. Chem., 376, 26 (2003)
Low KS, Lee CK, Liew SC, Process Biochem., 36(1-2), 59 (2000)
Ronda A, Martin-Lara MA, Calero M, Blazquez G, Ecol. Eng., 58, 278 (2013)
Li Q, Zhai JP, Zhang WY, Wang MM, Zhou J, J. Hazard. Mater., 141(1), 163 (2007)
Sekimoto Y, Okiharu T, Nakajima H, Fujii T, Shirai K, Moriwaki H, Environ. Sci. Pollut. Res., 20, 6531 (2013)
Wong KK, Lee CK, Low KS, Haron MJ, Chemosphere, 50, 23 (2003)
Bayramoglu G, Arica MY, Chem. Eng. J., 143(1-3), 133 (2008)
SenthilKumar P, Ramalingam S, Abhinaya RV, Kirupha SD, Vidhyadevi T, Sivanesan S, Can. J. Chem. Eng., 90(4), 973 (2012)
Sheng PX, Ting YP, Chen JP, Hong L, J. Colloid Interface Sci., 275(1), 131 (2004)
Ghoul M, Bacquet M, Morcellet M, Water Res., 37, 729 (2003)
Filipovic-Kovacevic Z, Sipos L, Briski F, Food Technol., 38, 211 (2000)
Velazquez-Jimenez LH, Pavlick A, Rangel-Mendez JR, Ind. Crop. Prod., 43, 200 (2013)
Gorgievski M, Bozic D, Stankovic V, Strbac N, Serbula S, Ecol. Eng., 58, 113 (2013)
Coleman NJ, Lee WE, Slipper IJ, J. Hazard. Mater., 121(1-3), 203 (2005)
