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Year 2008, Volume: 21 Issue: 4, 123 - 128, 28.03.2010

Abstract

References

  • Ozer, A., Akkaya, G., Turabik, M., “The removal
  • of Acid Red 274 from wastewater: Combined biosorption and biocoagulation with Spirogysa hizopus”, Dyes Pigm., 71(2): 83-89 (2006).
  • Vandervivers, P.C., Bianchi, R., Verstracte, W., “Treatment and reuse of wastewater from the textile wet-processing industry: Review of emerging technologies”, J. Chem. Technol. Biotechnol., 72: 289-302 (1998).
  • Pearce, C.I., Lloyd, J.R., Guthrie, J.T., “The removal of colour from textile wastewater using whole bacterial cells: a review”, Dyes Pigm., 58(3): 179-196 (2003).
  • Kannan, N., Sundaram, M.M., “Kinetics and mechanism of removal of methylene blue by absorption on various carbons: a comparative study”, Dyes Pigm., 51(1): 25-40 (2001).
  • O’Mohany, T., Guibal, E., Tobin, J.M., “Reactive dye biosorption by Rhizopus arrhizus biomass”, Enzyme Microb. Technol., 31(4): 456-463 (2002).
  • Golob, V., Ojstršek, A., “Removal of vat and disperse dyes from residual pod liguars”, Dyes Pigm., 64(1): 57-61 (2005).
  • Papic, S., Koprivanac, N., Bozic, A.L., Metes, A., “Removal of some reactive dyes from synthetic wastewater by combined Al (III) coagulation/carbon adsorption process”, Dyes Pigm., 62(3): 291-298 (2004).
  • Chamam, B., Heran, M., Amar, R.B., Grasmick, A., “Comparison of textile dye treatment by biosorption and membrane bioreactor”, Environ. Technol., 28(12): 1325-1331 (2007).
  • de Brito-Pelegrini, N.N., de Tarso Ferreira Sales, P., Pelegrini, R.T., “Photochemical treatment of industrial textile effluent containing reactive dyes”, Environ. Technol., 28(3): 321-328 (2008).
  • Dilip, M., Muthuraman, G., Palanivelu, K.,
  • “Removal of textile dyes from aqueous solution using PEG based aqueous biphasic system”, Toxicol. Environ. Chem., 87(4): 499-507 (2005).
  • Arslan-Alaton, I., “Pretreatment of textile dye carriers with ozonation and enhanced ozonation”, Environ. Eng. Sci., 21(4): 507-514 (2004).
  • Azbar, N., Yonar, T., Kestioglu, K., “Comparison of various advanced oxidation processes and chemical treatment methods for COD and color removal from a polyester and acetate fiber dyeing effluent”, Chemosphere, 55(1): 35-43 (2004).
  • Ciardelli, G., Ranieri, N., “The treatment and reuse of wastewater in the textile industry by means of ozonation and electroflocculation”, Water Res., 35(2): 567-572 (2001).
  • Naumczyk, J., Szpyrkowicz, L., Zilio-Grandi, F., “Electrochemical treatment of textile wastewater”, Water Sci. Technol., 34(11):17-24 (1996).
  • Körbahti, B.K., Tanyolaç, A., “Electrochemical treatment of simulated textile wastewater with industrial components and Levafix Blue CA reactive dye: Optimization through response surface methodology”, J. Hazard. Mater ., 151(2): 422-431 (2008). [16] López-Grimau, V., Gutiérrez, M.C., “Decolourisation of simulated reactive dyebath effluents by electrochemical oxidation assisted by UV light”, Chemosphere, 62(1): 106-112 (2006).
  • Ghoreishi, S.M., Haghighi, R., “Chemical catalytic reaction and biological oxidation for treatment of non-biodegradable textile effluent”, Chem. Eng. J., 95(1-3): 163-169 (2003).
  • Meriç, S., Selçuk, H., Belgiorno, V., “Acute toxicity removal in textile finishing wastewater by Fenton's oxidation, ozone and coagulation- flocculation processes”, Water Res., 39(6): 1147- 1153 (2005).
  • Maas, R., Chaudhari, S., “Adsorption and
  • biological decolourization of azo dye Reactive Red 2 in semicontinuous anaerobic reactors”, Process Biochem., 40(2): 699-705 (2005).
  • Bandala, E.R., Peláez, M.A., García-López, A.J., de J. Salgado, M., Moeller, G., “Photocatalytic decolourisation of synthetic and real textile wastewater containing benzidine-based azo dyes”, Chem. Eng. Process., 47(2): 169-176 (2008).
  • Tünay, O., Kabdasli, I., Eremektar, G., Orhon, D., “Color removal from textile wastewaters”, Water Sci. Technol., 34(11): 9-16 (1996).
  • Selcuk, H., “Decolorization and detoxification of textile wastewater by ozonation and coagulation processes”, Dyes Pigm., 64(3): 217-222 (2005).
  • Bes-Piá, A., Mendoza-Roca, J.A., Alcaina
  • Miranda, M.I., Iborra-Clar, A., Iborra-Clar, M.I., “Combination of physico-chemical treatment and nanofiltration to reuse wastewater of a printing, dyeing and finishing textile industry”, Desalination, 157(1-3): 73-80 (2003).
  • Kobya, M., Taner Can, O., Bayramoglu, M., “Treatment of textile wastewaters by electrocoagulation using iron and aluminum electrodes”, J. Hazard. Mater., 100(1-3): 163-178 (2003).
  • Arslan-Alaton, I., “A review of the effects of dye- assisting chemicals on advanced oxidation of reactive dyes in wastewater”, Coloration Technology, 119(6): 345-353 (2003).
  • Polasek, P., Mutl, S., “Optimization of reaction conditions of particle aggregation in water purification- back to basics”, Water SA, 31(1): 62- 72 (2005).
  • Choi, J.H., Shin, W.S., Lee, S.H., Loo, D.J., Lee, J.D., Choi, S.J., “Application of synthetic polyamine flocculants for dye wastewater treatment”, Sep. Sci. Technol., 36(13): 2945-2958 (2001).
  • Bodek, I., Lyman, J.W., Rosenblatt, D.H.,
  • Environmental Inorganic Chemistry, Properties, Processes and Estimation Methods, Pergamon Press, Elmsford, New York, (1988).
  • Gebbie, P., “Using Polyaluminium coagulants in water treatment”, Proc. 64th AWIEO Conference, Bendigo, (2001).
  • Mitrakas, M., Bougiouklis, J., Andritsos, N., “Removal of particulates and organics from Aliakman River Water”, Fresenius Environ. Bull., 12(10): 1218-1227 (2003).
  • VanBensehoten, J.E., Edzwald, J.K., “Chemical aspects of coagulation using aluminium salts”, Water Res., 24: 1519-1530 (1990). [32] Edzwald, J.K., Coagulation-sedimentation- flotation processes for removing organic substances from drinking water, EPA Monograph, USEPA, Cincinnati, Ohio, (1984).
  • Hall, E.S., Packham, R.F., The coagulation
  • process. VI Studies of the removal of organic colors with hydrolysing coagulants, W.R.A. Techn. Paper, 39 (1965).
  • Joo, D.J., Shin, W.S., Choi, J.H., Kim, M.C., Han, M.H., Ha, T.W., Kim, Y.H., “Decolorization of reactive dyes using inorganic coagulants and synthetic polymer”, Dyes Pigm., 73(1): 59-64 (2007).
  • Dimzoski, B., Bužarovska, A., Bogoeva-Gaceva, G., “Application of inorganic polymeric coagulant for dye wastewater treatment”, ICOSECS-5, Ohrid, 271 (2006).

Discoloration of Synthetic Dyeing Wastewater Using Polyaluminium Chloride

Year 2008, Volume: 21 Issue: 4, 123 - 128, 28.03.2010

Abstract

The efficiency of polyaluminium chloride (PAC) in discoloration of synthetic dyeing wastewater composed of reactive or direct dye has been investigated, taking into account the proven advantages of PAC in water purification processes (compared to the conventional coagulants such as Al2(SO4)3, FeSO4, etc.). The efficiency of PAC was determined by UV/VIS spectroscopy, controlling the UV/VIS absorbance changes of the wastewater samples after their treatment with the appropriate amount of PAC. Coagulant concentration and pH influence on the removal efficiency was followed in order to derive the optimum results. Excellent efficiency of PAC (100%) was found for the treatment of direct dye, Cuprophenil Blau 3 GL, at optimal pH=7.1 and concentration of 15 mg/L Al. The optimal results for reactive dye Bezaktiv TÜrkisblau V-G, enabling almost 80% dye removal, were obtained at pH=7.1 and PAC concentration of 20 mg/L Al.

 

References

  • Ozer, A., Akkaya, G., Turabik, M., “The removal
  • of Acid Red 274 from wastewater: Combined biosorption and biocoagulation with Spirogysa hizopus”, Dyes Pigm., 71(2): 83-89 (2006).
  • Vandervivers, P.C., Bianchi, R., Verstracte, W., “Treatment and reuse of wastewater from the textile wet-processing industry: Review of emerging technologies”, J. Chem. Technol. Biotechnol., 72: 289-302 (1998).
  • Pearce, C.I., Lloyd, J.R., Guthrie, J.T., “The removal of colour from textile wastewater using whole bacterial cells: a review”, Dyes Pigm., 58(3): 179-196 (2003).
  • Kannan, N., Sundaram, M.M., “Kinetics and mechanism of removal of methylene blue by absorption on various carbons: a comparative study”, Dyes Pigm., 51(1): 25-40 (2001).
  • O’Mohany, T., Guibal, E., Tobin, J.M., “Reactive dye biosorption by Rhizopus arrhizus biomass”, Enzyme Microb. Technol., 31(4): 456-463 (2002).
  • Golob, V., Ojstršek, A., “Removal of vat and disperse dyes from residual pod liguars”, Dyes Pigm., 64(1): 57-61 (2005).
  • Papic, S., Koprivanac, N., Bozic, A.L., Metes, A., “Removal of some reactive dyes from synthetic wastewater by combined Al (III) coagulation/carbon adsorption process”, Dyes Pigm., 62(3): 291-298 (2004).
  • Chamam, B., Heran, M., Amar, R.B., Grasmick, A., “Comparison of textile dye treatment by biosorption and membrane bioreactor”, Environ. Technol., 28(12): 1325-1331 (2007).
  • de Brito-Pelegrini, N.N., de Tarso Ferreira Sales, P., Pelegrini, R.T., “Photochemical treatment of industrial textile effluent containing reactive dyes”, Environ. Technol., 28(3): 321-328 (2008).
  • Dilip, M., Muthuraman, G., Palanivelu, K.,
  • “Removal of textile dyes from aqueous solution using PEG based aqueous biphasic system”, Toxicol. Environ. Chem., 87(4): 499-507 (2005).
  • Arslan-Alaton, I., “Pretreatment of textile dye carriers with ozonation and enhanced ozonation”, Environ. Eng. Sci., 21(4): 507-514 (2004).
  • Azbar, N., Yonar, T., Kestioglu, K., “Comparison of various advanced oxidation processes and chemical treatment methods for COD and color removal from a polyester and acetate fiber dyeing effluent”, Chemosphere, 55(1): 35-43 (2004).
  • Ciardelli, G., Ranieri, N., “The treatment and reuse of wastewater in the textile industry by means of ozonation and electroflocculation”, Water Res., 35(2): 567-572 (2001).
  • Naumczyk, J., Szpyrkowicz, L., Zilio-Grandi, F., “Electrochemical treatment of textile wastewater”, Water Sci. Technol., 34(11):17-24 (1996).
  • Körbahti, B.K., Tanyolaç, A., “Electrochemical treatment of simulated textile wastewater with industrial components and Levafix Blue CA reactive dye: Optimization through response surface methodology”, J. Hazard. Mater ., 151(2): 422-431 (2008). [16] López-Grimau, V., Gutiérrez, M.C., “Decolourisation of simulated reactive dyebath effluents by electrochemical oxidation assisted by UV light”, Chemosphere, 62(1): 106-112 (2006).
  • Ghoreishi, S.M., Haghighi, R., “Chemical catalytic reaction and biological oxidation for treatment of non-biodegradable textile effluent”, Chem. Eng. J., 95(1-3): 163-169 (2003).
  • Meriç, S., Selçuk, H., Belgiorno, V., “Acute toxicity removal in textile finishing wastewater by Fenton's oxidation, ozone and coagulation- flocculation processes”, Water Res., 39(6): 1147- 1153 (2005).
  • Maas, R., Chaudhari, S., “Adsorption and
  • biological decolourization of azo dye Reactive Red 2 in semicontinuous anaerobic reactors”, Process Biochem., 40(2): 699-705 (2005).
  • Bandala, E.R., Peláez, M.A., García-López, A.J., de J. Salgado, M., Moeller, G., “Photocatalytic decolourisation of synthetic and real textile wastewater containing benzidine-based azo dyes”, Chem. Eng. Process., 47(2): 169-176 (2008).
  • Tünay, O., Kabdasli, I., Eremektar, G., Orhon, D., “Color removal from textile wastewaters”, Water Sci. Technol., 34(11): 9-16 (1996).
  • Selcuk, H., “Decolorization and detoxification of textile wastewater by ozonation and coagulation processes”, Dyes Pigm., 64(3): 217-222 (2005).
  • Bes-Piá, A., Mendoza-Roca, J.A., Alcaina
  • Miranda, M.I., Iborra-Clar, A., Iborra-Clar, M.I., “Combination of physico-chemical treatment and nanofiltration to reuse wastewater of a printing, dyeing and finishing textile industry”, Desalination, 157(1-3): 73-80 (2003).
  • Kobya, M., Taner Can, O., Bayramoglu, M., “Treatment of textile wastewaters by electrocoagulation using iron and aluminum electrodes”, J. Hazard. Mater., 100(1-3): 163-178 (2003).
  • Arslan-Alaton, I., “A review of the effects of dye- assisting chemicals on advanced oxidation of reactive dyes in wastewater”, Coloration Technology, 119(6): 345-353 (2003).
  • Polasek, P., Mutl, S., “Optimization of reaction conditions of particle aggregation in water purification- back to basics”, Water SA, 31(1): 62- 72 (2005).
  • Choi, J.H., Shin, W.S., Lee, S.H., Loo, D.J., Lee, J.D., Choi, S.J., “Application of synthetic polyamine flocculants for dye wastewater treatment”, Sep. Sci. Technol., 36(13): 2945-2958 (2001).
  • Bodek, I., Lyman, J.W., Rosenblatt, D.H.,
  • Environmental Inorganic Chemistry, Properties, Processes and Estimation Methods, Pergamon Press, Elmsford, New York, (1988).
  • Gebbie, P., “Using Polyaluminium coagulants in water treatment”, Proc. 64th AWIEO Conference, Bendigo, (2001).
  • Mitrakas, M., Bougiouklis, J., Andritsos, N., “Removal of particulates and organics from Aliakman River Water”, Fresenius Environ. Bull., 12(10): 1218-1227 (2003).
  • VanBensehoten, J.E., Edzwald, J.K., “Chemical aspects of coagulation using aluminium salts”, Water Res., 24: 1519-1530 (1990). [32] Edzwald, J.K., Coagulation-sedimentation- flotation processes for removing organic substances from drinking water, EPA Monograph, USEPA, Cincinnati, Ohio, (1984).
  • Hall, E.S., Packham, R.F., The coagulation
  • process. VI Studies of the removal of organic colors with hydrolysing coagulants, W.R.A. Techn. Paper, 39 (1965).
  • Joo, D.J., Shin, W.S., Choi, J.H., Kim, M.C., Han, M.H., Ha, T.W., Kim, Y.H., “Decolorization of reactive dyes using inorganic coagulants and synthetic polymer”, Dyes Pigm., 73(1): 59-64 (2007).
  • Dimzoski, B., Bužarovska, A., Bogoeva-Gaceva, G., “Application of inorganic polymeric coagulant for dye wastewater treatment”, ICOSECS-5, Ohrid, 271 (2006).
There are 39 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Chemical Engineering
Authors

Gordana Bogoeva-gaceva This is me

Aleksandra Buå½arovska This is me

Bojan Dımzoskı This is me

Publication Date March 28, 2010
Published in Issue Year 2008 Volume: 21 Issue: 4

Cite

APA Bogoeva-gaceva, G., Buå½arovska, A., & Dımzoskı, B. (2010). Discoloration of Synthetic Dyeing Wastewater Using Polyaluminium Chloride. Gazi University Journal of Science, 21(4), 123-128.
AMA Bogoeva-gaceva G, Buå½arovska A, Dımzoskı B. Discoloration of Synthetic Dyeing Wastewater Using Polyaluminium Chloride. Gazi University Journal of Science. March 2010;21(4):123-128.
Chicago Bogoeva-gaceva, Gordana, Aleksandra Buå½arovska, and Bojan Dımzoskı. “Discoloration of Synthetic Dyeing Wastewater Using Polyaluminium Chloride”. Gazi University Journal of Science 21, no. 4 (March 2010): 123-28.
EndNote Bogoeva-gaceva G, Buå½arovska A, Dımzoskı B (March 1, 2010) Discoloration of Synthetic Dyeing Wastewater Using Polyaluminium Chloride. Gazi University Journal of Science 21 4 123–128.
IEEE G. Bogoeva-gaceva, A. Buå½arovska, and B. Dımzoskı, “Discoloration of Synthetic Dyeing Wastewater Using Polyaluminium Chloride”, Gazi University Journal of Science, vol. 21, no. 4, pp. 123–128, 2010.
ISNAD Bogoeva-gaceva, Gordana et al. “Discoloration of Synthetic Dyeing Wastewater Using Polyaluminium Chloride”. Gazi University Journal of Science 21/4 (March 2010), 123-128.
JAMA Bogoeva-gaceva G, Buå½arovska A, Dımzoskı B. Discoloration of Synthetic Dyeing Wastewater Using Polyaluminium Chloride. Gazi University Journal of Science. 2010;21:123–128.
MLA Bogoeva-gaceva, Gordana et al. “Discoloration of Synthetic Dyeing Wastewater Using Polyaluminium Chloride”. Gazi University Journal of Science, vol. 21, no. 4, 2010, pp. 123-8.
Vancouver Bogoeva-gaceva G, Buå½arovska A, Dımzoskı B. Discoloration of Synthetic Dyeing Wastewater Using Polyaluminium Chloride. Gazi University Journal of Science. 2010;21(4):123-8.