Development of Pellet-type Adsorbents for Removal of Heavy Metal Ions from Aqueous Solutions Using Red Mud

Sang Won Han; Dong Keun Kim; In Gook Hwang; Jae Heum Bae

Journal of Industrial and Engineering Chemistry, Vol.8, No.2, 120-125, March, 2002

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Development of Pellet-type Adsorbents for Removal of Heavy Metal Ions from Aqueous Solutions Using Red Mud

Sang Won Han, Dong Keun Kim, In Gook Hwang, and Jae Heum Bae^†

Department of Chemical Engineering, The University of Suwon, Kyungki-Do 445-743, Korea

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Pellet-type adsorbents were made from red mud, generated as a by-product during the production of aluminum hydroxide from bauxite ore. Adsorption experiments of heavy metal ions (Pb(2+), Cu(2+), Cd(2+)) in aqueous solutions by the pellet-type red mud adsorbents were studied under various experimental conditions. It was found that pellet-type red mud adsorbents made from a mixture of 58.7 wt% red mud, 25.2 wt% kaolin, 11.7 wt% sodium silicate solution, 2.9 wt% fly ash, and 1.5 wt% magnesium chloride at 600℃ exhibited the highest removal efficiency of the heavy metal ions. The removal efficiency of Pb(2+), CU(2+), and Cd(2+) after 24 h of operation was more than 95%. The pellet-type red mud adsorbents in the present study were found to follow a Langmuir equilibrium isotherm. A continuous adsorption experiment showed that the pellet-type red mud adsorbents were effective in removing Pb(2+).

Keywords:red mud;adsorption;desorption;heavy metal ions;recycling of waste materials

[References]

Aggarwal PS, Lele RV, Sen SK, Chem. Age Ind., 28, 114 (1977)
Thakur RS, Sant BR, J. Scient. Ind. Res., 42, 87 (1983)
Thakur RS, Sant BR, J. Scient. Ind. Res., 42, 456 (1983)
Wagh AS, Douse VE, J. Mater. Res., 6, 109 (1991)
Apak R, J. Nucl. Sci. Technol., 32, 1008 (1995)
Apak R, Guclu K, Turgut MH, J. Colloid Interface Sci., 203(1), 122 (1998)
Lopez E, Soto B, Arias M, Nunez A, Rubinos D, Barral MT, Wat. Res., 32, 1314 (1998)
Namasivayam C, Chandrasekaran B, J. IAEM., 18, 93 (1991)
Zouboulis AI, Kydros KA, Wat. Sci. Tech., 27, 83 (1993)
Gupta VK, Gupta M, Sharma S, Wat. Res., 35, 1125 (2001)
Altundogan HS, Altundogan S, Tumen F, Bildik M, Waste Manage., 20, 761 (2000)
Kim JS, Bae JH, J. Korean Soc. Env. Eng., 20, 543 (1998)
Han SW, Hwang IG, Bae JH, J. Korean Solid Wastes Eng. Soc., in press (2001)
Kim JS, Han SW, Hwang IG, Bae JH, Choi WZ, J. Korean Inst. Res. Rec., 9, 44 (2000)
Shin SH, Kim HI, J. Ind. Eng. Chem., 7(3), 147 (2001)
Chung KY, Chang KM, J. Ind. Eng. Chem., 7(4), 250 (2001)

[Referenced By]

[Related Articles]

[1] Aggarwal PS, Lele RV, Sen SK, Chem. Age Ind., 28, 114 (1977)

[2] Thakur RS, Sant BR, J. Scient. Ind. Res., 42, 87 (1983)

[3] Thakur RS, Sant BR, J. Scient. Ind. Res., 42, 456 (1983)

[4] Wagh AS, Douse VE, J. Mater. Res., 6, 109 (1991)

[5] Apak R, J. Nucl. Sci. Technol., 32, 1008 (1995)

[6] Apak R, Guclu K, Turgut MH, J. Colloid Interface Sci., 203(1), 122 (1998)

[7] Lopez E, Soto B, Arias M, Nunez A, Rubinos D, Barral MT, Wat. Res., 32, 1314 (1998)

[8] Namasivayam C, Chandrasekaran B, J. IAEM., 18, 93 (1991)

[9] Zouboulis AI, Kydros KA, Wat. Sci. Tech., 27, 83 (1993)

[10] Gupta VK, Gupta M, Sharma S, Wat. Res., 35, 1125 (2001)

[11] Altundogan HS, Altundogan S, Tumen F, Bildik M, Waste Manage., 20, 761 (2000)

[12] Kim JS, Bae JH, J. Korean Soc. Env. Eng., 20, 543 (1998)

[13] Han SW, Hwang IG, Bae JH, J. Korean Solid Wastes Eng. Soc., in press (2001)

[14] Kim JS, Han SW, Hwang IG, Bae JH, Choi WZ, J. Korean Inst. Res. Rec., 9, 44 (2000)

[15] Shin SH, Kim HI, J. Ind. Eng. Chem., 7(3), 147 (2001)

[16] Chung KY, Chang KM, J. Ind. Eng. Chem., 7(4), 250 (2001)