STUDY OF NaOH - ACTIVATION TEMPERATURE INFLUENCE TOWARD CHARACTER OF MESOPOROUS CARBON BASED ON TEXTILE SLUDGE WASTE
Tutik Setianingsih(1*), Uswatun Hasanah(2), Darjito Darjito(3)
(1) Department of Chemistry, Brawijaya University, Jl. Veteran 169 Malang 65145
(2) Department of Chemistry, Brawijaya University, Jl. Veteran 169 Malang 65145
(3) Department of Chemistry, Brawijaya University, Jl. Veteran 169 Malang 65145
(*) Corresponding Author
Abstract
Textile sludge waste contains many organic matters so that it is potential to be used as mesoporous carbon precursor. Actived carbon with mesopore character is effective as adsorbent and catalyst carrier of large molecules. Synthesis of the activated mesoporous carbon was done with purpose to study influence of activation temperature toward characters of the carbon. Process of the synthesis involved dry sludge (50 g) as precursor, concentrated sodium silicate solution SiO2 24.5% and Na2O 7.5% (50 mL) as template source, 1 M HCl solution (50 mL) as polimering agent, carbonization condition at 600 °C 3 h under nitrogen gas flow, activation conditions with NaOH 50% and various temperatures (400, 500, 600, 700, and 800 °C), and demineralizatin conditions with 0.1 M HCl solution for 4 h and 125 rpm. All of the products were characterized with methylen blue method to determine specific pore volume and specific surface area. The carbon obtained at optimum temperature was characterized again with surface area analyzer. Result of the research showed that the optimum condition was achieved at activation temperature of 500 °C. Characters of the synthesized carbon at the optimum condition were specific surface area of 638.32 m2/g, specific pore volume of 0.35 cm3/g, average pore diameter of 21.78 Å, and methylene blue number of 358.87 mg/g.
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[1] Albanis, T.A., Hella, D.G., Sakellarides, T.M., and Danis, T.G., 2000, Global Nest : the Int.J., 2, 3, 237
[2] Longhinnotti, E., Pozza, F., Furian, L., and Klug, M., 1998, Braz.Chem.Soc., 9, 5, 2
[3] Anonimous, 1996, Buku Panduan : Teknologi Pengendalian Dampal Lingkungan Industri tekstil, BAPEDAL, Jakarta
[4] Setianingsih, T., 2006, Sintesis Karbon Mesopori dari Sludge Industri Tekstil untuk Adsorpsi Zat Warna Bermolekul Besar, laporan Penelitian PHK-A2, Kimia, FMIPA, UB
[5] Joo, S.H., and Ryoo, R., 2003, Structural Characterization of Noble Metal Clusters Supported on Ordered Mesoporous Carbons by XAFS, http://www.kek.jp/acr2002pdf/part_b/pf02b003. pdf
[6] Han, S., Kim, M., and Hyeon, T., 2003, Carbon, 41,1525
[7] Setianingsih,T., and Hasanah, U., 2004, Sintesis Karbon Mesopori dengan Template Silikagel dan Natrium Silikat, laporan penelitian DPP/SPP, FMIPA, UB
[8] Setianingsih,T., and Hasanah, U., 2005, Sintesis Karbon Mesopori dengan Metode Polimerisasi Sertentak, laporan penelitian DPP/SPP, FMIPA, UB
[9] Wu, CC., WP Walawender., LT Fan.,2001, Proceeding of American Carbon Society, 11
[10] Jansen, K., 1992, Zeolite Crystal Growth and The Structure on An Atomic Scale, Chapman & Hall, Den Haag, 49-50
[11] Nuryono and Narsito, 2005, Indo. J. Chem, 5(1), 23-30.
[12] Vilar, V.J.P., Botelho, C.M.S., and Boaventura, R.A.R., 2006, J.Hazardous Materials, 147, 1-2
[13] Hang, P.T., and Brindley, G.W., 1970, J.Clays & Clay Minerals, 18, 203-212
DOI: https://doi.org/10.22146/ijc.21590
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