Elaboration and Characterization of an Activated Carbon from Diss and Esparto Grass for the Wastewater Treatment

Lenuard Khaled; Lounis Azeddine; Osmane Khaled; K. Taibi; Mohammed Azzaz

doi:10.4028/www.scientific.net/AMM.295-298.1508

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Elaboration and Characterization of an Activated Carbon from Diss and Esparto Grass for the Wastewater Treatment

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Applied Mechanics and Materials (Volumes 295-298)

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Lenuard Khaled, Lounis Azeddine, Osmane Khaled, K. Taibi, Mohammed Azzaz

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References

[1] D.D. Do, Adsorption Analysis: Equilibrium and Kinetics, Imperial College Press, London, p.2 (1998).

Google Scholar

[2] Z. Hu, M.P. Srinivasan. Microporous Mesoporous Mater. 27 (1999), p.11.

Google Scholar

[3] G.G. Stavropoulos, A.A. Zabaniotou. Microporous Mesoporous Mater. 83 (2005), p.79.

Google Scholar

[4] G. Özgül, A. Özcan, A.S. Özcan, H.F. Gerc. J. Appl. Surf. Sci. 253 (2007), p.4843.

Google Scholar

[5] B.H. Hameed, F.B.M. Daud. J. Chem. Eng. 139 (2008), p.48.

Google Scholar

[6] S. Senthilkumaar, P.R. Varadarajan, K. Porkodi, C.V. Subbhuraam. J. Colloid Interface Sci. 284 (2005), p.78.

DOI: 10.1016/j.jcis.2004.09.027

Google Scholar

[7] A.H. El-Sheikh, A.P. Newman, H.K. Al-Daffaee, S. Phull, N. Cresswell. J. Anal. Appl. Pyrol. 71 (2004), p.151.

Google Scholar

[8] Y. Guo, J. Zhao, H. Zhang, S. Yang, J. Qi, Z. Wang, H. Xu, J. Dyes Pigments 66 (2005), p.123.

Google Scholar

[9] I.A.W. Tan, A.L. Ahmad, B.H. Hameed. J. Chem. Eng. J. 137 (2008), p.462.

Google Scholar

[10] I.A.W. Tan, B.H. Hameed, A.L. Ahmad. J. Chem. Eng. 127 (2007), p.111.

Google Scholar

[11] T. Yang, A.C. Lua. Mater. Chem. Phys. 100 (2006), p.438.

Google Scholar

[12] E. Gonzalez-Serrano, T. Cordero, J. Rodriguez-Mirasol, J.J. Rodriguez. Ind. Eng. Chem. Res. 36 (1997), p.4832.

Google Scholar

[13] Y. Sudaryanto, S.B. Hartono, W. Irawaty, H. Hindarso, S. Ismadji. Bioresour. Technol. 97 (2006), p.734.

DOI: 10.1016/j.biortech.2005.04.029

Google Scholar

[14] A. Ahmadpour, D.D. Do. Carbon 34 (1996), p.471.

Google Scholar

[15] V. Meshko, L. Markovska and M. Minceva, 7th Int. Conf. on Fundamentals of Adsorption, Nagasaki (Japan), May 2001, p.188.

Google Scholar

[16] H. Tamai, T. Yoshida and M. Sosaki. Carbon 37 (1999), p.983.

Google Scholar

[17] C. Pelekani and V.L. Snoeyink. Carbon 38 (2000), p.1423.

Google Scholar

[18] S.S. Barton . Carbon 25 (1987), p.343.

Google Scholar

[19] D. Adinata, M. Ashri Wan, W. Daud, M. K. Aroua. Bioresource Technology 98 (2007), p.145.

Google Scholar

[20] F. Banat, S. Al-Asheh, L. Al-Makhadmeh. Process Biochemistry 39 (2003), p.192.

Google Scholar

[21] C. Kaewprasit, E. Hequet, N. Abidi, J.P. Gourlot. Journal of Cotton Science 2 (1998), p.164.

Google Scholar

[22] K. Mohanty, M. Jha, B.C. Meikap, M.N. Biswas. Ind. Eng. Chem. Res. 44 (2005), p.4128.

Google Scholar

[23] H. Demiral, I. Demiral. Surf. Interface Anal. 40 (2008), p.612.

Google Scholar

[24] R.C. Sun, J. Tomkinson. . Separation Purification Technology 24 (2001), p.529.

Google Scholar

[25] C. Moreno-Castilla. Adsorption of organic molecules from aqueous solutions on carbon materials. Carbon 42 (2000), p.83.

DOI: 10.1016/j.carbon.2003.09.022

Google Scholar

[26] Y. Al-Degs, M.A. Khraisheh, S.J. Alle, M.N. Ahmad Water Research 34 (2000), p.927.

Google Scholar

[27] C. Aguilar, R. Garcıˇıa, G. Soto-Garrido, R. Arriagada J. Appl. Catal. B: Environ. Appl. Catal. B Environ. 46 (2003), p.229.

Google Scholar

[28] V. Boonamnuavitaya, S. Sae-ung, W. Tanthapanichakoon. Sep. Purif. Technol. 42 (2005), p.159.

Google Scholar

[29] S. Aroua, A. Lounis, S. Condom and F. Sémaoune, Asian Journal of Chemistry 2 (2009), p.2293.

Google Scholar

[30] S. Brunauer, L.S. Deming, W.E. Deming, E. Teller J Am Chem Soc 62 (1940), p.1723.

Google Scholar

[31] A.C. Lua, T. Yang. Letters to the Editor. Carbon 42 (2004), p.219.

Google Scholar

[32] Z.H. Hu, M.P. Srinivasan, Y.M. Ni. Carbon 39 (2001), p.877.

Google Scholar

[33] J. Bujdak, P. Komadel. Interaction of methylene blue with reduced charge montmorillonite, J. Phys. Chem., B 101(1997), p.9065.

DOI: 10.1021/jp9718515

Google Scholar

[34] A.P.P. Cionem, M.G. Neumann, F. Gessner. J. Cooloid Interf. Sci. 198 (1998), p.106.

Google Scholar

[35] A. Ahmad, M. Rafatullah, O. Sulaiman, M. H Ibrahim, R. Journal of Hazardous Materials 170 (2009), p.357.

Google Scholar