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Removal of acetic acid from wastewater by esterification in the membrane reactor
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  • Journal title : Membrane Water Treatment
  • Volume 7, Issue 2,  2016, pp.143-154
  • Publisher : Techno-Press
  • DOI : 10.12989/mwt.2016.7.2.143
 Title & Authors
Removal of acetic acid from wastewater by esterification in the membrane reactor
Unlu, Derya; Hilmioglu, Nilufer Durmaz;
Acetic acid can be removed from wastewater by esterification in a membrane reactor. Pervaporation membrane reactor (PVMR) is an alternative process to conventional separation processes. It is an environmentally friendly process. The main advantages of the PVMR are simultaneous water removal and production of an ester economically. In this study, the synthetic wastewater has been used. Esterification reaction of acetic acid with isopropanol has been studied in the presence of tungstosilicic acid hydrate as a catalyst in a batch reactor and in a PVMR. The effects of important operating parameters such as reaction temperature, initial molar ratio of isopropanol to acetic acid and catalyst concentration has been examined. Removal of acetic acid (conversion of acetic acid) was obtained as 85% using a PVMR by removal of water from the reaction mixture.
acetic acid;esterification;pervaporation membrane reactor;removal;wastewater;
 Cited by
Bianchi, C.L., Ragaini, V., Pirola, C. and Carvoli, G. (2003), "A new method to clean industrial water from acetic acid via esterification", Appl. Catal. B: Environmental, 40(2), 93-99. crossref(new window)

Cloete, F.L.D. and Marais, A.P. (1995), "Recovery of very dilute acatic uising ion exchange", Ind. Eng. Chem. Res., 34(7), 2464-2467. crossref(new window)

Cui, Z., Xiang, Y., Si, J., Yang, M., Zhang, Q. and Zhang, T. (2008), "Ionic interactions between sulfuric acid and chitosan membranes", Carbohyd. Polym., 73(1), 111-116. crossref(new window)

Delgado, P., Sanz, M.T. and Beltran, S. (2009), "Pervaporation of the quaternary mixture present during the esterification of lactic acid with ethanol", J. Membr. Sci., 332(1-2), 113-120. crossref(new window)

Diban, N., Aguayo, A.T., Bilbao, J., Urtiaga, A. and Ortiz, I. (2013), "Membrane reactors for in situ water removal: A review of applications", Ind. Eng. Chem. Res., 52(31), 10342-10354. crossref(new window)

Hasanoǧlu, A., Salt, Y., Keleser, S. and Dincer, S. (2009), "The esterification of acetic acid with ethanol in a pervaporation membrane reactor", Desalination, 245(1-3), 662-669. crossref(new window)

Huang, Z., Shi, Y., Wen, R., Guo, Y.H., Su, J.J. and Matsuura, T. (2006), "Multilayer poly(vinyl alcohol)-zeolite 4A composite membranes for ethanol dehydration by means of pervaporation", Separ. Purif. Technol., 51(2), 126-136. crossref(new window)

Khajavi, S., Jansen, J.C. and Kapteijn, F. (2010), "Application of a sodalite membrane reactor in esterification-Coupling reaction and separation", Catal. Today, 156(3-4), 132-139. crossref(new window)

Ma, J., Zhang, M., Lu, L., Yin, X., Chen, J. and Jiang, Z. (2009), "Intensifying esterification reaction between lactic acid and ethanol by pervaporation dehydration using chitosan-TEOS hybrid membranes", Chem. Eng. J., 155(3), 800-809. crossref(new window)

Marszalek, J., Rdzanek, P. and Kaminski, W. (2014), "Improving performance of pervaporation membranes for biobutanol separation", Desal. Water Treat., 56(13), 1-9.

Menzinger, M. and Wolfgang, R. (1969), "The meaning and use of the arrhenius activation energy", Angew. Chem. Int. Ed. Engl., 8(6) 438-444.

Mulder, M.H.V. (1991), Thermodynamic Principles of Pervaporation, Elsevier, The Netherlands.

Naidu, B.V.K. and Aminabhavi, T.M. (2005), "Pervaporation separation of water/2-propanol mixtures by use of the blend membranes of sodium alginate and (hydroxyethyl) cellulose: Roles of permeatemembrane interactions, zeolite filling, and membrane swelling", Ind. Eng. Chem. Res., 44(19), 7481-7489. crossref(new window)

Nam, A., Kweon, J., Ryu, J., Lade, H. and Lee, C. (2015), "Reduction of biofouling using vanillin as a quorum sensing inhibitory agent in Membrane bioReactors for wastewater treatment", Membr. Water Treat., Int. J., 6(3), 189-203. crossref(new window)

Palmarin, M.J. and Young, S. (2016), "Influence of mixed liquor suspended solids on the removal efficiency of a hybrid membrane bioreactor", Membr. Water Treat., Int. J., 7(1), 11-22. crossref(new window)

Parulekar, S.J. (2007), "Analysis of pervaporation aided esterification of organic acids", Ind. Eng. Chem. Res., 46(25), 8490-8504. crossref(new window)

Ragaini, V., Bianchi, C.L., Pirola, C. and Carvoli, G. (2006), "Increasing the value of dilute acetic acid streams through esterification: Part I. Experimental analysis of the reaction zone", Appl. Catal. B: Environmental, 64(1-2), 66-71. crossref(new window)

Saha, B., Chopade, S.P. and Mahajani, S.M. (2000), "Recovery of dilute acetic acid through esterification in a reactive distillation column", Catal. Today, 60(1-2), 147-157. crossref(new window)

Sanz, M.T. and Gmehling, J. (2006), "Esterification of acetic acid with isopropanol coupled with pervaporation. Part II. Study of a pervaporation reactor", Chem. Eng. J., 123(1-2), 9-14. crossref(new window)

Unlu, D. and Hilmioglu, N. (2014), "Bioadditive synthesis from glycerol by esterification using catalytic chitosan membrane", Proceedings of International Conference on Clean Energy, Istanbul, Turkey, June.

Veerapur, R.S., Gudasi, K.B., Sairam, M., Shenoy, R.V., Netaji, M., Raju, K.V.S.N. and Aminabhavi, T.M. (2007), "Novel sodium alginate composite membranes prepared by incorporating cobalt(III) complex particles used in pervaporation separation of water-acetic acid mixtures at different temperatures", J. Mater. Sci., 42(12), 4406-4417. crossref(new window)

Vijayakumarnaidu, B., Krishnarao, K. and Aminabhavi, T. (2005), "Pervaporation separation of water+1,4-dioxane and water+tetrahydrofuran mixtures using sodium alginate and its blend membranes with hydroxyethylcellulose-A comparative study", J. Membr. Sci., 260(1-2), 131-141. crossref(new window)

Wang, Q.W., Shi, B.L. and Ji, L.Y. (2014), "Pervaporation separation of ethanol via adsorbent-filled silicon rubber membranes", Membr. Water Treat., Int. J., 5(4), 265-279. crossref(new window)

Wasewar, K., Patidar, S. and Agarwal, V.K. (2009), "Esterification of lactic acid with ethanol in a pervaporation reactor: modeling and performance study", Desalination, 243(1-3), 305-313. crossref(new window)

Won, W., Feng, X. and Lawless, D. (2003), "Separation of dimethyl carbonate/methanol/water mixtures by pervaporation using crosslinked chitosan membranes", Separ. Purif. Technol., 31(2), 129-140. crossref(new window)

Xia, S., Dong, X., Zhu, Y., Wei, W., Xiangli, F. and Jin, W. (2011), "Dehydration of ethyl acetate-water mixtures using PVA/ceramic composite pervaporation membrane", Separ. Purif. Technol., 77(1), 53-59. crossref(new window)

Yagyu, D., Ohishi, T., Igarashi, T., Okumura, Y., Nakajo, T., Mori, Y. and Kobayashi, S. (2013), "Recovery of acetic acid from dilute aqueous solutions using catalytic dehydrative esterification with ethanol", Chemosphere, 91(1), 61-67. crossref(new window)

Zhang, F., Rezac, M.E., Majumdar, S., Kosaraju, P. and Nemser, S. (2014), "Improving chemical production processes by selective by-product removal in a pervaporation membrane reactor", Separ. Sci. Technol., 49(9), 1289-1297. crossref(new window)

Zhu, Y. and Chen, H. (1998), "Pervaporation separation and pervaporation-esterification coupling using crosslinked PVA composite catalytic membranes on porous ceramic plate", J. Membr. Sci., 138(1), 123-134. crossref(new window)