Korean Journal of Chemical Engineering, Vol.18, No.6, 955-960, 2001
Removal of Heavy Metals in Plating Wastewater Using Carboxylated Alginic Acid
Potentially, biosorption is an economic process for metal sequestering from water. Carboxylated alginic acid showed high uptake capacities for heavy metals of 5-6 meq/g dry mass. For application to actual plating wastewater, the carboxylated alginic acid was immobilized using PVA. In order to remove chelating or organic materials in plating wastewater, oxidation using sodium hypochlorite was performed as a pretreatment. When carboxylated alginic acid bead was applied in a packed-bed contactor, the breakthrough point of copper ion in the acid-alkaline wastewater appeared around 350 bed volumes; the breakthrough point of nickel ion in the chelating wastewater emerged around 200 bed volumes. The adsorption capacity for heavy metal of the carboxylated alginic acid bead was higher than that of a commercial ion exchanger (IR-120 plus) in plating wastewater.
[References]
Bolto BA, Pawlowski L, "Wastewater Treatment by Ion-Exchange," 1th ed., Great Britain, New York, U.S.A., 209, 1988
Chen JP, Chen WR, Hsu RC, J. Ferment. Bioeng. , 81 (5), 458, 1996
Dawson RMC, Elliot DC, Elliot WH, Jones KM, "Data for Biochemical Research," 3rd ed., Oxford Science Pub., 250, 1986
Franson HAN, "Standard Method," Port City Press, Maryland, U.S.A., 1989
Jeon C, Park JY, Yoo YJ, "Immobilization of Alginic Acid Using PVA for Lead Adsorption," 216th ACS National Meeting, Boston, August 21-28, 1998
Joseph DE, "Industrial Wastewater Treatment (A Guide Book)," 1st ed., CRC Press, Inc., New York, 51, 1995
Kim HT, Lee K, Korean J. Chem. Eng. , 16 (3), 298, 1999
Kim JS, Chah S, Yi J, Korean J. Chem. Eng. , 17 (1), 118, 2000
Kim SJ, Hwang KR, Cho SY, Moon H, Korean J. Chem. Eng. , 16 (5), 664, 1999
Kratochvil D, Pimentel P, Voleky B, Environ. Sci. Technol. , 32 , 2693, 1998
Lee DH, Kim SJ, Moon H, Korean J. Chem. Eng. , 16 (4), 525, 1999
Lee HS, Suh JH, Korean J. Chem. Eng. , 17 (4), 477, 2000
Muthukumran K, Balasubramanian N, Ramakrushna TV, Water Sci. Technol. , 31 (9), 109, 1995
Park JY, Jeon C, Yoo YJ, J. Microbiol. Biotechnol. , 9 (5), 650, 1999
Patterson JW, "Industrial Wastewater Treatment Technology," 2nd ed., Butterworth, 156, 1985
Pradhan S, Sarita S, Lal CR, Dorothy LP, J. Microbiol. Biotechnol. , 8 , 53, 1998
Volesky B, "Biosorption of Heavy Metals," 1st ed., CRC Press, Inc., New York, 320, 1990
Watson MR, "Pollution Control in Metal Finishing," 1st ed., NDC, 253, 1987
[Cited By]
Kim SJ, Lim KH, Joo KH, Lee MJ, Kil SG, Cho SY, Korean Journal of Chemical Engineering , 19 (6), 1078, 2002
Kang CD, Sim SJ, Cho YS, Kim WS, Korean Journal of Chemical Engineering , 20 (3), 482, 2003
Kim TY, Jeung SY, Cho SY, Kang Y, Kim SJ, Journal of Industrial and Engineering Chemistry , 10 (5), 695, 2004
Son BC, Park K, Song SH, Yoo YJ, Korean Journal of Chemical Engineering , 21 (6), 1168, 2004
Kim TY, Park SK, Cho SY, Kim HB, Kang Y, Kim SD, Kim SJ, Korean Journal of Chemical Engineering , 22 (1), 91, 2005
Badmus MOA, Audu TOK, Anyata B, Korean Journal of Chemical Engineering , 24 (2), 246, 2007
Kazmi M, Feroze N, Naveed S, Javed SH, Korean Journal of Chemical Engineering , 28 (10), 2033, 2011
Chowdhury ZZ, Zain SM, Khan RA, Islam MS, Korean Journal of Chemical Engineering , 29 (9), 1187, 2012
Feroze N, Kazmi M, Ramzan N, Korean Journal of Chemical Engineering , 30 (1), 95, 2013
Jeon C, Cha JH, Choi JY, Journal of Industrial and Engineering Chemistry , 27 , 201, 2015
Li X, Li F, Fang L, Korean Journal of Chemical Engineering , 32 (12), 2449, 2015
Jeon C, Journal of Industrial and Engineering Chemistry , 40 , 93, 2016
Sadeghi M, Yekta S, Babanezhad E, Korean Chemical Engineering Research , 54 (5), 636, 2016
이전 논문 다음 논문
Result Search