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http://dx.doi.org/10.12989/mwt.2013.4.4.277

Recovery of Levafix brilliant red E-4BA and Levafix brilliant red E-6BA from aqueous solution by supported liquid membrane  

Muthuraman, G. (University of Madras, Department of Chemistry, Presidency College)
Sathya, M. (University of Madras, Department of Chemistry, Presidency College)
Soniya, M. (University of Madras, Department of Chemistry, Presidency College)
Elumalai, S. (University of Madras, Department of Chemistry, Presidency College)
Publication Information
Membrane and Water Treatment / v.4, no.4, 2013 , pp. 277-291 More about this Journal
Abstract
The transport and recovery of Levafix brilliant red E-4BA and Levafix brilliant red E-6BA were investigated using polytetrafluoroethylene (PTFE) fiber based supported liquid membrane containing tetra butyl ammonium bromide (TBAB) in coconut oil as a carrier. The influencing parameters studied are: pH of the feed solution, concentration of dye in the feed solution, extractant concentration, and various kind of stripping agent, rate of stirring, time of transport, reusability of membrane and stability of membrane. Increase in TBAB concentration inside the membrane enhances the flux with its maximum value at $1.553{\times}10^{-4}$ M TBAB. Further increase in the concentration of TBAB leads to decreased rate of transport due to increase in viscosity of membrane liquid. The optimum conditions for dye transport are: pH of feed ($7{\pm}0.1$), $1.553{\times}10^{-4}$ M extractant concentration, 350 rpm for stirring, $4.9{\times}10^{-1}$ M potassium hydrogen phthalate as a stripping solution, the time of transport 6 h. It was noticed that flux values were increased with increasing dye concentration in the feed phase. Applying this study to textile wastewater, dyes were transported up to 98% in 6 h. This recovery technique is rewarding to environment and economic.
Keywords
transport; supported liquid membrane; polytetrafluoroethylene; extractant; reusability; viscosity;
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1 Chudry, M.A. and Ahmed, B. (1992), "Supported liquid membrane extraction study of $(MoO_4)^{2-}$ ions using tri-n-octylamine as carrier", Sep. Sci. Technol., 27(8-9), 1161-1171.
2 Ciardelli, G., Brighetti, G. and Ranieri, N. (1999), "Oxidation and separation treatment for textile wastewaters recycling", Proceedings TMS Fall Extraction Process Conference, 3, 2357-2366.
3 Clark, J.D., Han, B.B., Bhown, A.S. and Wickramasinghe, S.R. (2005), "Amino acid resolution using supported liquid membrane", Sep. Pur. Technol., 42(3), 201-211.   DOI   ScienceOn
4 Dogan, M., Ozdemir, Y. and Alkan, M. (2007), "Adsorption kinetics and mechanism of cationic methyl violet and methylene blue dyes onto sepiolite", Dyes Pigments, 75(3), 701-713.   DOI   ScienceOn
5 Drapata, A. and Wieczorek, P. (2004), "Facilitated supported liquid membrane extraction of peptides with D2EHPA as a carrier", Desalination, 163(1-3), 47-53.   DOI   ScienceOn
6 Gherrou, A., Kerdjoudj, H., M.olinari, R. and Drioli, E. (2002), "Removal of silver and copper ions from acidic thiourea solutions with a supported liquid membrane containing D2EHPA as carrier", Sep. Puri. Technol., 28(3), 235-244.   DOI   ScienceOn
7 Guan, Z., Huang, X., Wang, L., Mu, R. and Luo, B. (2001), "A study on dye wastewater by application of high impulse current in proceedings of the IEEE international conference on Plasma Science", Sporded by IEEE, 17-22.
8 Ho, Y.S., Chiang, T.H. and Hsueh, Y.M. (2005), "Removal of basic dye from aqueous solution using tree fern as biosorbent", Process Biochem., 40(1), 119-124.   DOI   ScienceOn
9 Hu, H.S., Yang, M.D. and Dang, J. (2005), "Treatment of strong acid dye wastewater by solvent extraction", Sep. Purif. Technol., 42(2), 129-136.   DOI   ScienceOn
10 Jian, H.R., Huang, X.W., Li, S.Q., Zhou, S.P., Cen, Y.H. and Tso, W. (1994), "A pilot plant using immobilized cells for dye removal from dye manufacturing wastes", Resour. Conserv. Recy., 11(1-4), 189-195.   DOI   ScienceOn
11 Kalyuzhnvi, S. and Sklyar, V. (2000), "Treatment of textile dyes from effluents", Water. Sci. Technol., 41, 23-30.
12 Kang, S.F., Liao, C.H. and Hung, H.P. (2003), "Peroxidation treatment of dye manufacturing wastewater in the presence of ultraviolet light and ferrous ions", J. Hazard. Mater., 65(3), 317-333.
13 Kojima, T., Nishijima, K. and Matsukata, M. (1995), "Removal and recovery of phenol from FCC effluent", J. Membr. Sci., 102, 43-47.   DOI   ScienceOn
14 Kurbus, T., Slokar, Y.M., Le Marechal, A.M. and Voncina, D.B. (2003), "The use of experiments design for the evaluation of the influence of variables on the H2O2/UV treatment of model textile wastewater", Dyes Pigments, 58(2), 171-178.   DOI   ScienceOn
15 Luo, P., Zou, J.Q. and Xie, Y.S. (1999), "Study on the application of magnesium salts in treating wastewater containing reactive dyes", Jiang Su Hua Gong., 27, 26-28. [In Chinese]
16 Malik, P.K. and Saha, S.K. (2003), "Oxidation of direct dyes with hydrogen peroxide using ferrous ion as catalyst", Sep. Purif. Technol., 31(3), 241-250.   DOI   ScienceOn
17 Meghana, D., Muthuraman, G. and Palanivelu, K. (2005), "Removal of textile dyes from aqueous solution using PEG based aqueous biphasic system", Toxicol. Environ. Chem, 87(4), 499-507.   DOI   ScienceOn
18 Muthuraman, G. and Palanivelu, K. (2004), "Removal and recovery of low salt dye golden yellow LS by liquid-liquid extraction", Ind. J. Chem. Technol., 11, 66-169.
19 Muthuraman, G. and Palanivelu, K. (2006), "Transport of textile dye in vegetable oil based supported liquid membrane", Dyes Pigments, 70(2), 99-104.   DOI   ScienceOn
20 Naheed Bukharia., Ashraf Chaudry, M. and Mazhar, M. (2004), "Cobalt (II) transport through triethanolamine- cyclohexanone supported liquid membrane", J. Membr. Sci., 234(1-2), 157-165.   DOI   ScienceOn
21 Namboodri, C.G. and Walsh, W.K. (1996), "Ultraviolet light hydrogen peroxide oxidation" Am. Dyest Rep., 85, 8-12.
22 Netpradit, S., Thiravetyan, P. and Tow Prayoon, S. (2004) "Adsorption of three azo reactive dyes by metal hydroxide sludge effective of temperature pH and electrolytes", J. Colloid. Interf. Sci., 270(2), 255-261.   DOI   ScienceOn
23 Othman, N., Zailani, S.N. and Mili, N. (2011), "Recovery of synthetic dye from simulated wastewater using emulsion liquid membrane process containing tri-dodecyl amine as a mobile carrier", J. Hazard. Mater., 198(30), 103-112.   DOI   ScienceOn
24 Palacio, S.M., Espinoza-Quinones, F.R., Modenes, A.N., Oliveira, C.C., Borba, F.H. and Silva Jr., F.C. (2009), "Toxicity assessment from electro coagulation treated textile dye wastewaters by bioassays", J. Hazard. Mater., 172(1), 330-337.   DOI   ScienceOn
25 Park, S.W., Kim, K.W., Sohn, I.J. and Kaseger, C.F. (2000), "Facilitated transport of sodium phenolate through supported liquid membrane", Sep. Pur. Technol., 19(1-2), 43-54.   DOI   ScienceOn
26 Rhlalou, T., Ferhat, M., Frouji, M.A., Langevin, D., Metayer, M. and Verchere, J.F. (2000), "Facilitated transport of sugars by a resorcinarene through a supported liquid membrane", J. Membr. Sci., 168(1-2), 63-73.   DOI   ScienceOn
27 Sarangi, K. and Das, R.P. (2004), "Separation of copper and zinc by supported liquid membrane using TOPS-99 as mobile carrier", Hydrometallurgy, 71(3-4), 335-342.   DOI   ScienceOn
28 Zhu, X.P., Ni, J.R., Wei, J.J., Xing, X. and Li, H.N. (2011), "Hongna Li Destination of organic pollutants during electrochemical oxidation of biologically pretreated dye wastewater using boron doped diamong anode", J. Hazard. Mater., 189(1-2), 127-133.   DOI   ScienceOn
29 Ritesh, J. and Pramanik, K. (1999), "Biological activated sludge process for wastewater treatment in dye industry", Chem. Eng. World, 34(12), 81-90.
30 Robinson, T., McMullan, G., Marchant, R. and Nigam P. (2001), "Remediation of dyes in textile effluent: a critical review on current treatment technologies with a proposed alternative", Bioresource Technol., 77(3), 247-255.   DOI   ScienceOn
31 Vande de Voorde, I., Pinoy, L. and De Ketelaere, R.F. (2004), "Recovery of Nickel ions by supported liquid membrane (SLM) extraction", J. Membr. Sci., 234(1-2), 11-21.   DOI   ScienceOn
32 Tan, B.H., Teng, T.T. and Omar, A.K.M. (2000), "Removal of dyes and industrial dye wastes by magnesium chloride", Water Res., 34(2), 597-601.   DOI   ScienceOn
33 Tan, N.C., Borger, A., Slenders, P., Svielskaya, A., Lettinga, G. and Field, J.A. (2000), "Degradation of azo dye Mordant Yellow 10 in a sequential anaerobic and bioaugmented aerobic bioreactor", Water. Sci. Technol., 42(5-6), 337-344.
34 Valenzuela, F.L. and Basualto, C.F. (1993), "Solvent extraction of copper liquid membranes", Minerals, 48, 23-29.
35 Venkateswaran, P., Navaneetha Gopalakrishnan, A. and Palanivelu, K. (2007), "Di (2-ethylhexyl) phosphoric acid-coconut oil supported liquid membrane for the separation of copper ions from copper plating wastewater", J. Environ. Sci., 19(12), 1446-1453.   DOI   ScienceOn
36 Vlyssides, A.G., Loizidou, P.K., Karlis, P.K., Zorpas, A.A. (1999), "Textile dye wastewater treatment with the use of an electrolysis system", Hazard. Ind. Wastes. Proces. Mid. Atlantic ind. Waste Conf, 20 (23), 147-156.
37 Xu, X.R., Wang, W.H. and Li, H.B. (2002), "Study on acid dye wastewater treatment with Fenton's reagent", Huan Jing Ke Xue, 24, 62-70. [In Chinese]
38 Yahya Al Degs, S., Musa EI-Barghouthi, I., Amjad EI-Sheikh, H. and Gavin Walker, M. (2008), "Effect of solution pH, ionic strength and temperature on adsorption behavior of reactive dyes on activated carbon", Dyes Pigments, 77(1), 16-23.   DOI   ScienceOn
39 Yang, X.J. and Fane, A.G. (1999), "Performance and stability of supported liquid membranes using LIX 984N for copper transport", J. Membr. Sci., 156(2), 251-263.   DOI   ScienceOn
40 Yang, X.J. and Fane, T. (1997), "Effect of membrane preparation on the life time of supported liquid membrane", J. Membr. Sci., 133(2), 269-273.   DOI   ScienceOn
41 Yang, X.L., Fane, A.G. and MacNaughton, S. (2001), "Removal and recovery of heavy metals from wastewaters by supported liquid membrane", Water Sci. Technol., 43(2), 341-348.
42 Zhou, S.T., Yang, R.C., Huang, M. and Xie, L. (2001), "Technological study on treatment of high concentration dye wastewater by the wet peroxide oxidation", Chong Qing Huan Jing Ke Xue, 23, 62-70. [In Chinese]
43 Zhu, J.R. and Yang, Y.R. (1994), "Study on the treatment of dye stuff wastewater with an anaerobic/aerobic process", Huan Jing Ke Xue, 15, 31-34. [In Chinese]
44 Alguacil, F.J., Coedo, A.G. and Dorado, M.T. (2000), "Transport of chromium (VI) through a Cyanex 923-xylene flat sheet supported liquid membrane", Hydrometallurgy, 57(1), 51-66.   DOI   ScienceOn
45 Beltran-Heredia, J., Sanchez-Martin, J., Delgado-Regalado, A. and Jurado-Bustos, C. (2009), "Removal of Alizarin Violet 3R (anthraquinonic dye) from aqueous solutions by natural coagulants", J. Hazard. Mater., 170(1), 43-50.   DOI   ScienceOn
46 Bouyakoub, A.Z., Lartiges, B.S., Quhib, R., Kacha, S., Samrani, A.C., Chanbaja, J. and Bares, O. (2011), "$MnCl_2$ and $MgCl_2$ for the removal of reactive dye Levafix Brilliant Blue EBRA from synthetic textile wastewater: An adsorption/aggregation mechanism", J. Hazard. Mater., 187(1-3), 264-271.   DOI   ScienceOn
47 Chen, S.H., Zhu, W.P. and Cany, Y. (2000), "Extraction and stripping of acid orange II wastewater", Huan Jing Ke Xue, 21, 90-93. [In Chinese]
48 Chimuka, L., Cukrowska, E. and Jonsson, J.A. (2004), "Why liquid membrane extraction is an attractive alternative in sample preparation", Pure Appl. Chem., 76(4), 707-722.   DOI   ScienceOn