SYHNTHESIS OF CHITOSAN MODIFIED POLYURETHANE FOAM FOR ADSOPRTION OF MERCURY (II) IONS
Abstract
Mercury from the traditional gold mining activities in Aceh Jaya Regency causes water source and thus residents are exposed to mercury metals. In organic and inorganic conditions, mercury is toxic to the human body, causes damage to the nerve system, kidney failure, heart failure, blood pressure disorders, and damage to the immune system. The problem of mercury contamination can be chemically solved in various ways. This research uses polyurethane foam to adsorb mercury from water. The adsorption and selectivity of polyurethane foam adsorption can be improved through modification with Chitosan. In this research, preheating temperature, glycerol and toluene di-isocyanate (TDI) compositions greatly affect the physical form of foam. The condition under which optimal glycerol composition used for synthesizing the polyurethane foams is 20% (w/w of mixture A). This glycerol composition results in polyurethane foams with an optimum ratio of the mixture A/TDI/distilled water of 2 : 1 : 1. The best adsorption is obtained with polyurethane foam added by 2.5% Chitosan. The optimum mercury adsorption 25% is resulted from the operating time of 60 minutes with adsorption capacity of 0.313 mg/g. For Chitosan modified polyurethane foam, research points out that the reaction is the second order reaction. The result concluded that the polymer has semi crystalline crystallization and melting temperatures.
Keywords
Full Text:
PDFReferences
Ashida, K. 2007. Polyurethane and Related Foams: Chemistry and Technology. CRC Press,USA.
Choi, A. L. and Grandjean, P. 2012. Human Health Significance of Dietary Exposures to Methylmercury, In Environmental Chemistry and Toxicology of Mercury (Liu, G., Cai, Y., and O’Driscoll, N). John Wiley & Sons, Canada.
Harian Serambi Indonesia. 2015. Jejak Orang Kaya di Tambang Emas. http://aceh.-tribunnews.com/2015/05/04/jejak-orang-kaya-di-tambang-emas. Accessed on 2 Desember 2016.
Kara, F., Aksoy, E.A., Yuksekdah, Z., Aksoy, S., and Hasirci, N. 2015. Enhancement of Antibacterial Properties of Polyurethanes by Chitosan and Heparin Immobilization. Ap. Sur. Sci. 357: 1692-1702.
Khalik, W. M. A. W. M., Pauzi-Abdullah, M. D., Al-Qaim, F. F. and Yasin, S. Y. M. D. 2014. Adsorption Study of Mercury Species from Aqueous Solution Using Thiocarbamoyl Chitosan. Int. J. Chem. Sci. 12 (4): 1095-1108.
Khan, T. A., Nazir, M., Khan, A. E. and Riaz, U. 2015. Multiwalled Carbon Nanotube-Polyurethane (MWCNT/PU) composite adsorbent for safranin T and Pb(II) Removal from Aqueous Solution: Batch and Fixed-Bed Studies. J. of Mol. Liq. 212: 467-479.
Liu, P., and Guo-Feng, C. 2014. Porous Materials: Processing and Application 1st ed. Elsevier, USA.
Moawed, E. A., El-Hagrasy, M. A., and Embaby, N. E. M. 2017. Substitution Influence of Halo Polyurethane Foam on the Removal of Bismuth, Cobalt, Iron, and Molybdenum Ions from Environmental Samples. J. of the Taiwan Ins. of Chem. Eng. 70: 382-390.
Oppon, C., Hackney, P. M., Shyha, I. and Birkett, M. 2015. Effect of Varying Mixing Ratios and Pre-Heat Temperature on the Mechanical Properties of Polyurethane (PU) Foam. Procedia Engineering. 132: 701-708.
Rae, I. B., and Gibb, S. W. 2003. Removal of Metals from Aqueous Solutions Using Natural Chitinous Materials. Water Sci. Tech. 47 (10): 189-196.
Rahbar, N., Jahangiri, A., Boumi, S., and Khodayar, M. J. 2014. Mercury Removal From Aqueous Solutions with Chitosan-Coated Magnetite Nanoparticles Optimized Using the Box-Behnken Design. Jundishapur J. Nat. Pharm. Prod. 9 (2): e15913.
Riaz, T., Ahmad, A., Saleemi, S., Adrees, M., Jamshed, F., Hai, A. M., and Jamil, T. 2016. Synthesis and Characterization of Polyuretane-Cellulose Acetate Blend Membrane for Chromium (VI) Removal. Car.Pol. 153: 582-591.
Soriano, S. and Casella, R. J. 2013. Solid-Phase Extraction of Cu(II) Using Polyurethane Foam and Eriochrome Black T as Ligand for its Determination in Waters by Flame Atomic Absorption Spectrometry, J. Braz. Chem. Soc., 24 (7): 1172-1179, doi: 10.5935/0103-5053.20130151.
Wool, R. and Sun, X. S. 2011. Bio-Based Polymers and Composites. Academic Press, USA.
World Health Organization. 2016. Mercury and Health. http://www.who.int/mediacentre/fact-sheets/fs361/en/. Accessed on 2 Desember 2016.
Yasemi, M. and Abbasi, Z. 2013. Adsorption Study on Chitosan: Removal of Copper (II), Mercury (II), and Chomium (III) Adsorption from Aquaeous Solution. En. Sci. 8 (4): 142-147.
Refbacks
- There are currently no refbacks.