Synthesis And Performance Of Thin Film Composite Nanofiltration Polyester Membrane For Removal Of Natural Organic Matter Substances
Keywords:
nanofiltration, thin-film composite, characteristics, humid acid
Abstract
Nanofiltration (NF) polyester thin-film composite (TFC) membranes have been prepared by interfacial polymerization using commercial polyethersulfone membrane support. At 6% (w/v) triethanolamine (TEAO) concentrations in the aqueous solution and a range of interfacial polymerization times in the organic solution containing trimesoyl chloride (TMC) were studied. Nanofiltration membranes were produced with varying properties through interfacial polymerization technique. The ability to use NF membranes with varying properties will improve overall process efficiency. This study has shown that through interfacial polymerization technique, the variation of reaction time as well as can affect the performance of the membrane produced. As a result, increasing the reaction time resulted in decreasing water permeabilities. Polyester with some amide group produced after interfacial polymerization occurred as shown by FT-IR spectra. Straight lines were obtained between Jw and ΔP and the water flux of distilled water shown that flux is directly proportional to transmembrane pressure (TMP). At low reaction time (5 min), the water flux has no significant effect on water permeance. So, the reaction time has a significant effect on the growth of thin film.References
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2. Ahmad A.L., Ooi B.S. (2005). Properties–performance of thin film composites membrane: study on trimesoyl chloride content and polymerization time. Journal of Membrane Science 255 67–77.
3. Alborzfar, M., Jonsson, G., & GrØn, C. (1998). Removal of natural organic matter from two types of humic ground waters by nanofiltration . Water Research, 32(10) , 2983-2994 .Doi : 10.1016 /S0043-1354(98)00063
4. Beverly S. Rubin. (2011) .Bisphenol A: An endocrine disruptor with widespread exposure and multiple effects, Journal of Steroid Biochemistry & Molecular Biology 127 27– 34
5. Jayarani M.M., Kulkarni S.S. (2000). Thin-film composite poly(esteramide) -based membranes, Desalination 130 17–30.
6. Vandenberg L.N., Hauser R., Marcus M., Olea N., Welshons W.V. (2007). Human exposure to bisphenol A (BPA), Reprod. Toxicol. 24 139–177.
7. Mamba B.B., Krause R.W., Malefetse R.W., Mhlanga S.D., Sithole S.P., Salipira K.L. and Nxumalo E.N. (2007).Removal of geosmin and 2-methylisoborneol (2-MIB) in water from Zuikerbosch Treatment Plant (Rand Water) using β-cyclodextrin polyurethanes. Water SA 33 (2) 223-227.
8. Mohammad A.W., Hilal N., Abu Seman M.N. (2003).A study on producing composite nanofiltration membranes with optimized properties, Desalination 158, 73–78.
9. Siddiqui M., Amy G.L., Ryan J., Odem W. (2000). Membranes for the control of natural organic matter from surface water, Water Res. 34 (13) 3355-3370
10. Silverstein, R.M.;Bassler, G.C.; and Morrill, T.C. (1981).Spectrometric Identification of Organic Compounds. 4th ed. New York: John Wiley and Sons. QD272.S6S5
11. Tang B., Huo Z., Wu P., (2008).Study on a novel polyester composite nanofiltration membrane by interfacial polymerization of triethanolamine (TEOA) and trimesoyl chloride (TMC) I . Preparation, characterization and nanofiltration properties test of membrane, J.Membr. Sci.32
12. Welshons W.V., Nagel S.C., vom Saal F.S., (2006).Large effects from smallexposures. III. Endocrine mechanisms mediating effects of bisphenol A at levels of human exposure, Endocrinology 147 S56–S69.
13. Wuilloud D.E. J.C., Wuilloud R.G., Sadi B.B. and Caruso J.A. (2003) .Trace humic and fulvic acid determination in natural water by cloud point extraction /pre-concentration using non-ionic and cationic surfactants with FI-UV detection. The Analyst 128 (5) 453-458.
Published
2012-12-31
How to Cite
Jalanni, N., Abu Seman, M., & Faizal, C. (2012). Synthesis And Performance Of Thin Film Composite Nanofiltration Polyester Membrane For Removal Of Natural Organic Matter Substances. ASEAN Journal of Chemical Engineering, 12(1), 73-80. Retrieved from https://dev.journal.ugm.ac.id/v3/AJChE/article/view/8125
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