Application of the electrocoagulation technique for treating heavy metals containing wastewater from the pickling process of a billet plant

Chaloempan Petsriprasit; Jirachaya Namboonmee; Mali Hunsom

Korean Journal of Chemical Engineering, Vol.27, No.3, 854-861, March, 2010

DOI10.1007/s11814-010-0145-3 Export Citation

Application of the electrocoagulation technique for treating heavy metals containing wastewater from the pickling process of a billet plant

Chaloempan Petsriprasit¹, Jirachaya Namboonmee², and Mali Hunsom^{1, 2, †}

¹Department of Chemical Technology, Faculty of Science, Chulalongkorn University, Bangkok 10330, Thailand
²Center for Petroleum, Petrochemicals, and Advanced Materials, Chulalongkorn University, Bangkok 10330, Thailand

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This work was carried out to study the removal of various heavy metals, including Cu, Cr, Pb and Zn, from billet industry wastewater by the electrocoagulation process in both batch and continuous experiments at a laboratory scale and ambient temperature (30 ℃). In the batch experiment, the effect of various parameters including the current density, initial wastewater pH and electrolysis time, on the metal removal efficiency was examined. Optimal metal ion depletion was attained with a current density of 98 A/m2, an initial wastewater pH of 5 and a 30 min electrolysis time. Under these conditions, greater than 99% of Cu, Cr and Zn was removed, whilst the outlet wastewater contained Cu, Cr, Pb and Zn at less than 0.02, 0.01, 0.07 and 0.05 mg/l, respectively. For the continuous process, the results indicated that the treatment system reached its steady state condition within 120 min, and the optimum condition for the continuous treatment was found at an initial wastewater pH of 3 and flow rate of 55 ml/min. At this condition, a complete removal of Cu and Pb and greater than 99% removal of Cr and Zn were achieved.

Keywords:Electrocoagulation;Metal Removal;Current Efficiency;Pickling Process

[References]

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Saracco G, Onofrio M, Resources Conserv. Recycling, 9, 141 (1993)
Tomaszewska M, Gryta M, Morawski AW, Sep. Purif. Technol., 22-23, 591 (2001)
Stocks C, Wood J, Guy S, Resources Conserv. Recycling, 44, 153 (2005)
Agrawal A, Kumari S, Ray BC, Sahu KK, Hydrometallurgy, 88, 58 (2007)
Kladnig WF, J. Iron Steel Res., 15, 1 (2008)
Manisankar P, Viswanathan S, Rani C, Green Chemistry, 5, 270 (2003)
Pitcher SK, Slade RCT, Ward NI, Sci. Total Environ., 334-335, 161 (2004)
Lee CI, Yang WF, Environ. Technol., 26, 1345 (2005)
Drogui P, Blais JF, Mercier G, Water Environ. Res., 77, 372 (2005)
Kerney U, Resources Conserv. Recycling, 10, 145 (1994)
Mansur MB, Rocha SDF, Magalhaes FS, Benedetto JS, J. Hazard. Mater., 150, 669 (2008)
Bes-Pia A, Cuartas-Uribe B, Mendoza-Roca JA, Galiana-Aleixandre MV, Desalination, 221, 255 (2008)
Alverez-Gallegos A, Pletcher D, Electrochim. Acta, 44(14), 2483 (1999)
Vlyssides AG, Israilides CJ, Loizidou M, Karvouni G, Mourafeti V, Water Sci. Technol., 36, 271 (1997)
Piya-areetham P, Shenchunthichai K, Hunsom M, Water Res., 40, 2857 (2006)
Chou S, Huihuang Y, Lee SN, Water Res., 33, 751 (1999)
Zhang H, Zhang D, Zhou J, J. Hazard. Mater. B, 135, 135 (2006)
Zhang GQ, Yang FL, Gao MM, Fang XH, Liu LF, Electrochim. Acta, 53(16), 5155 (2008)
Adhoum N, Monser L, Bellakhal N, Belgaied JE, J. Hazard. Mater., 112(3), 207 (2004)
Kongjao S, Damronglerd S, Hunsom M, Korean J. Chem. Eng., 25(4), 703 (2008)
Kobya M, Ciftci C, Bayramoglu M, Sensoy MT, Sep. Purif. Technol., 60(3), 285 (2008)
Kumar PR, Chaudhari S, Khilar KC, Mahajan SP, Chemosphere, 55, 1245 (2004)
Gomes JAG, Daida P, Kesmez M, Weir M, Moreno H, Parga JR, Irwin G, McWhinney H, Grady T, Peterson E, Cocke DL, J. Hazard. Mater., 139(2), 220 (2007)
Mollah MYA, Morkovsky P, Gomes JAG, Kesmez M, Parga J, Cocke DL, J. Hazard. Mater., 114(1-3), 199 (2004)
Chen GH, Sep. Purif. Technol., 38(1), 11 (2004)
Kongsricharoern N, Polprasert C, Water Sci. Technol., 31, 109 (1995)
Jai PH, Wook JS, Kyu YJ, Gil KB, Mok LS, J. Environ. Sci., 19, 1436 (2007)
Panayotova T, Dimova-Todorova M, Dobrevsky I, Desalination, 206(1-3), 135 (2007)
Congeevaram S, Dhanarani S, Park J, Dexilin M, Thamaraiselvi K, J. Hazard. Mater., 146(1-2), 270 (2007)
Feng X, Wu ZC, Chen XF, Sep. Purif. Technol., 57(2), 257 (2007)
Kumbasar RA, Sep. Purif. Technol., 64(1), 56 (2008)
Beauchesne I, Meunier N, Drogui P, Hausler R, Mercier G, Blais JF, J. Hazard. Mater., 120(1-3), 201 (2005)
Thella K, Verma B, Srivastava VC, Srivastava KK, J. Environ. Sci. Health Part A Toxic/Hazard. Subst. Environ. Eng., 43, 554 (2008)

[Referenced By]

[1] Galvez JL, Dufour J, Negro C, Lopez-Mateos F, Hydrometallurgy, 96, 88 (2009)

[2] Saracco G, Onofrio M, Resources Conserv. Recycling, 9, 141 (1993)

[3] Tomaszewska M, Gryta M, Morawski AW, Sep. Purif. Technol., 22-23, 591 (2001)

[4] Stocks C, Wood J, Guy S, Resources Conserv. Recycling, 44, 153 (2005)

[5] Agrawal A, Kumari S, Ray BC, Sahu KK, Hydrometallurgy, 88, 58 (2007)

[6] Kladnig WF, J. Iron Steel Res., 15, 1 (2008)

[7] Manisankar P, Viswanathan S, Rani C, Green Chemistry, 5, 270 (2003)

[8] Pitcher SK, Slade RCT, Ward NI, Sci. Total Environ., 334-335, 161 (2004)

[9] Lee CI, Yang WF, Environ. Technol., 26, 1345 (2005)

[10] Drogui P, Blais JF, Mercier G, Water Environ. Res., 77, 372 (2005)

[11] Kerney U, Resources Conserv. Recycling, 10, 145 (1994)

[12] Mansur MB, Rocha SDF, Magalhaes FS, Benedetto JS, J. Hazard. Mater., 150, 669 (2008)

[13] Bes-Pia A, Cuartas-Uribe B, Mendoza-Roca JA, Galiana-Aleixandre MV, Desalination, 221, 255 (2008)

[14] Alverez-Gallegos A, Pletcher D, Electrochim. Acta, 44(14), 2483 (1999)

[15] Vlyssides AG, Israilides CJ, Loizidou M, Karvouni G, Mourafeti V, Water Sci. Technol., 36, 271 (1997)

[16] Piya-areetham P, Shenchunthichai K, Hunsom M, Water Res., 40, 2857 (2006)

[17] Chou S, Huihuang Y, Lee SN, Water Res., 33, 751 (1999)

[18] Zhang H, Zhang D, Zhou J, J. Hazard. Mater. B, 135, 135 (2006)

[19] Zhang GQ, Yang FL, Gao MM, Fang XH, Liu LF, Electrochim. Acta, 53(16), 5155 (2008)

[20] Adhoum N, Monser L, Bellakhal N, Belgaied JE, J. Hazard. Mater., 112(3), 207 (2004)

[21] Kongjao S, Damronglerd S, Hunsom M, Korean J. Chem. Eng., 25(4), 703 (2008)

[22] Kobya M, Ciftci C, Bayramoglu M, Sensoy MT, Sep. Purif. Technol., 60(3), 285 (2008)

[23] Kumar PR, Chaudhari S, Khilar KC, Mahajan SP, Chemosphere, 55, 1245 (2004)

[24] Gomes JAG, Daida P, Kesmez M, Weir M, Moreno H, Parga JR, Irwin G, McWhinney H, Grady T, Peterson E, Cocke DL, J. Hazard. Mater., 139(2), 220 (2007)

[25] Mollah MYA, Morkovsky P, Gomes JAG, Kesmez M, Parga J, Cocke DL, J. Hazard. Mater., 114(1-3), 199 (2004)

[26] Chen GH, Sep. Purif. Technol., 38(1), 11 (2004)

[27] Kongsricharoern N, Polprasert C, Water Sci. Technol., 31, 109 (1995)

[28] Jai PH, Wook JS, Kyu YJ, Gil KB, Mok LS, J. Environ. Sci., 19, 1436 (2007)

[29] Panayotova T, Dimova-Todorova M, Dobrevsky I, Desalination, 206(1-3), 135 (2007)

[30] Congeevaram S, Dhanarani S, Park J, Dexilin M, Thamaraiselvi K, J. Hazard. Mater., 146(1-2), 270 (2007)

[31] Feng X, Wu ZC, Chen XF, Sep. Purif. Technol., 57(2), 257 (2007)

[32] Kumbasar RA, Sep. Purif. Technol., 64(1), 56 (2008)

[33] Beauchesne I, Meunier N, Drogui P, Hausler R, Mercier G, Blais JF, J. Hazard. Mater., 120(1-3), 201 (2005)

[34] Thella K, Verma B, Srivastava VC, Srivastava KK, J. Environ. Sci. Health Part A Toxic/Hazard. Subst. Environ. Eng., 43, 554 (2008)