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Polymer enhanced ultrafiltration (PEUF) technique economically enables separation and/or retention of various heavy metal ions from aqueous solutions for environmental and engineering problems. Polyethylenimine as the water-soluble complexation agent utilized to interact with heavy metal ions of Cd and Ni as cations in ultrafiltration experiments were modeled with protonation data to understand the mechanism. Test runs showed that an enrichment coefficient (the ratio of Cd over Ni in permeate) up to 10 was obtained at pH 4.2 in the temperature range of 20-22oC, whereas full retention of both cations is possible above pH 5.0 and those results are highly compatible with the model developed.
Rocznik
Tom
Strony
art. no. 151913
Opis fizyczny
Bibliogr. 25 poz., rys.
Twórcy
autor
- Afyon Kocatepe University, Faculty of Engineering, Mining Engineering Department, 03200, Afyonkarahisar, Turkey
autor
- Istanbul Technical University, Mining Faculty, Mineral Process Engineering Department, 34469 Maslak, Istanbul, Turkey
autor
- Istanbul Technical University, Mining Faculty, Mineral Process Engineering Department, 34469 Maslak, Istanbul, Turkey
Bibliografia
- ABDULLAH, N., YUSOF, N., LAU, W.J., JAAFAR, J., ISMAIL, A.F., 2019. Recent trends of heavy metal removal from water/wastewater by membrane technologies, Journal Of Industrial And Engineering Chemistry, 76, 17–38
- AULAS F., RUMEAU M., RENAUD M., TYBURCE B., 1980. Application de l’ultrafütration à la récupération de cations métalliques en solution, Information Chimie, , 204/205, pp. 145–152.
- CAN, M.F., ARSLAN, F., ÇELİK, M.S., 2006. Selective Cd-Ni seperationfrom aqueous solution by polimer in membrane systems, XXIII. International Mineral Processing Congress, 3,2210-2216.
- CANIZARES P., PEREZ A., CAMARILLO R., 2002. Recovery of Heavy Metals by Means of Ultrafiltration with Water-Soluable Polimers: Calculation of Design Parameters, Desalination, 144, 279-285.
- COJOCARU, C., ZAKRZEWSKA-TRZNADEL, G., JAWORSKA, A., 2009. Removal of cobalt ions from aqueous solutions by polymer assisted ultrafiltration using experimental design approach. Part 1: optimization of complexation conditions, Journal Of Hazardous Materials, 169, 1–3, 599-609.
- CRINI, G., MORIN-CRINI, N., FATIN-ROUGE, N., DÉON, S., FIEVET, P., 2017. Metal removal from aqueous media by polymer-assisted ultrafiltration with chitosan, Arabian Journal Of Chemistry, 10, 2, S3826-S3839.
- FU, F. AND WANG, Q., 2011. Removal of heavy metal ions from wastewaters: a review, Journal Of Environmental Management. 92, 407–418.
- GECKELER K.E. AND VOLCEK, K., 1996. Removal of hazardous substances from water using ultrafiltration in conjunction with soluble polymers, Environmental Science and Technology, 30(3), 725-734.
- HESTEKIN J.A., BHATTACHARYYA D., SIKDAR S.K., KIM B.M., 1998. R.A. Meyers (ED.) Encyclopedia of Environmental Analysis and Remedation, John Wiley&Sons Inc.
- JARVIS N.V., WAGENER J.M., 1995. Mechanistic studies of metal ion binding to water soluble polymers using potantiometry, Talanta, 42: 219-226
- LI, C., CHENG, C., CHOO, K., YEN, W., 2008. Polyelectrolyte enhanced ultrafiltration (peuf) for the removal of Cd(ii): effects of organic ligands and solution pH, Chemosphere, 72, 4, 630-635.
- LLANOS J., CAMARILLO R., PÉREZ Á., CANIZARES P., 2010. Polymer supported ultrafiltration as a technique for selective heavy metal separation and complex formation constants prediction, Separation and Purification Technology, 73: 126–134.
- MASSE P., CHOE T.B., VERDIER A., 1987. Selective removal of Cu(II)-Ni(II) by a complexation-ultrafiltration method, Annali di Chimica, 77: 925.
- MOLINARI, R., ARGURIO, P., POERIO, T., GULLONE, G., 2006. Selective separation of copper(ii) and nickel(ii) from aqueous systems by polymer assisted ultrafiltration, Desalination, 200, 1–3, 728-730.
- MOLINARI, R., POERIO, T., ARGURIO, P., 2008. Selective separation of copper(ii) and nickel(ii) from aqueous media using the complexation–ultrafiltration process, Chemosphere, 70, 3, 341-348.
- MÜSLEHIDDINOĞLU, J., ULUDAĞ, Y., ÖZBELGE, H.Ö., YILMAZ, L., 1998. Effect of operating parameters on selective separation of heavy metals from binary mixtures via polymer enhanced ultrafiltration, Journal Of Membrane Science, 140, 2, 251-266.
- NGUYEN Q. T., APTEL P., NEEL J., 1980. Characterization of ultrafiltration membranes. Part II — Mass transport measurements for low and high molecular weight synthetic polymers in water solutions, Journal of Membrane Science, Volume 7, Issue 2, Pages 141-155.
- QASEM, N.A.A., MOHAMMED, R.H., LAWAL, D.U., 2021. Removal of heavy metal ions from wastewater: a comprehensive and critical review, npj Clean Water, 4, 36.
- RIVAS, B.L., PEREIRA, E. AND MAUREIRA, A. 2009. Functional water-soluble polymers: polymer–metal ion removal and biocide properties, Polymer International, 58, 1093-1114.
- RUMEAU M., PERSIN F., SCIERS V., PERSIN M., SARRAZIN J., 1992. Separation by coupling ultrafiltration and complexation of metallic species with industrial water soluble polymers. Application for removal or concentration of metallic cations, Journal of Membrane Science, 73, 312-322.
- SABATE, J., 2016. Heavy metal recovery by polymer-enhanced UF. IN: Drioli E., Giorno L. (Eds) Encyclopedia Of Membranes. Springer, Berlin, Heidelberg.
- SCOTT K.S., HUGHES R., 1996. Industrial Membrane Separation Technology. Kluwer Academic Publishers.
- SCIERS V., PERSIN F., RUMEAU M., 1991. Separation of Metal Ions by Complexation-Ultrafiltration. In: Cecille M.L., Casarci M., Pietrelli L. (eds) New Separation Chemistry Techniques for Radioactive Waste and Other Specific Applications. Springer, Dordrecht
- SHAO, J., QIN, S., DAVIDSON, J., LI, W., HE, Y., ZHOU, H.S., 2013. Recovery of nickel from aqueous solutions by complexation-ultrafiltration process with sodium polyacrylate and polyethylenimine, Journal Of Hazardous Materials, 244–245, 472-477.
- ULUDAG, Y., ÖZBELGE, H.Ö., YILMAZ, L., 1997. Removal of mercury from aqueous solutions via polymer-enhanced ultrafiltration, Journal Of Membrane Science, 129, 1, 93-99.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-9da2f52b-6295-474c-bba2-26969cc09d02