ADSORPTION OF ACID ORANGE 7 BY CETYLPYRIDINIUM BROMIDE MODIFIED SUGARCANE BAGASSE
DOI:
https://doi.org/10.11113/jt.v78.7276Keywords:
Acid orange 7, adsorption, sugarcane bagasse, surfactantAbstract
In the present study, the adsorption of acid orange 7 (AO7) dye from aqueous solution by sugarcane bagasse (SB) and cetylpyridinium bromide (CPBr) modified sugarcane bagasse (SBC) was examined. SBC was prepared by reacting SB with different concentrations (0.1, 1.0 and 4.0 mM) of cationic surfactant, CPBr. The SB and SBC were characterized using Fourier transform infrared (FTIR) spectroscopy. The adsorption experiments were carried out in a batch mode. The effect of initial AO7 concentrations (5-1000 mg/L), initial CPBr concentrations and pH of AO7 solution (2-9) on the adsorption capacity of SB and SBC were investigated. The experimental adsorption data were analyzed using Langmuir and Freundlich isotherm models. The adsorption of AO7 onto SB and SBC followed Freundlich and Langmuir isotherm models, respectively. The maximum uptake of AO7 was obtained by SBC4.0 (SB treated with 4.0 mMCPBr) with the adsorption capacity of 144.928 mg/g. The highest AO7 removal was found to be at pH 2 and 7 for SB and SBC, respectively. As a conclusion, sugarcane bagasse modified with CPBr can become an alternative adsorbent for the removal of anionic compounds in aqueous solution.
References
Kousha, M., Daneshvar, E., Sohrabi, M. S., Jokar, M., and Bhatnagar, A. 2012. Adsorption of Acid Orange II Dye by Raw and Chemically Modified Brown Macroalga Stoechospermum marginatum. Chemical Engineering Journal. 192: 67-76.
Nor, N. M., Hadibarata, T., Yusop, Z., and Lazim, Z. M. 2015. Removal of Brilliant Green and Procion Red Dyes from Aqueous Solution by Adsorption Using Selected Agricultural Wastes. Jurnal Teknologi. 74(11): 117-112.
Zhao, G., Wu, X., Tan, X., and Wang, X. 2011. Sorption of Heavy Metal Ions from Aqueous Solutions: A review. The Open Colloid Science Journal. 4: 9-31.
Saad, S. A., Isa, K. M., and Bahari, R. 2010. Chemically Modified Sugarcane Bagasse as A Potentially Low-Cost Biosorbent for Dye Removal. Desalination. 264(1): 123-128.
Foroughi-dahr, M., Abolghasemi, H., Esmaieli, M., Nazari, G., and Rasem, B. 2015. Experimental Study on the Adsorptive Behavior of Congo Red in Cationic Surfactant-Modified Tea Waste. Process Safety and Environmental Protection. 95: 226-236.
Sureshkumar, M. V., and Namasivayam, C. 2008. Adsorption Behavior of Direct Red 12B and Rhodamine B from Water onto Surfactant-Modified Coconut Coir Pith. Colloids and Surfaces A: Physicochemical and Engineering Aspects. 317(1): 277-283.
Su, Y., Zhao, B., Xiao, W., and Han, R. 2013. Adsorption Behavior of Light Green Anionic Dye Using Cationic Surfactant-Modified Wheat Straw in Batch and Column Mode. Environmental Science and Pollution Research. 20(8): 5558-5568.
Su, Y., Jiao, Y., Dou, C., and Han, R. 2014. Biosorption of Methyl Orange from Aqueous Solutions Using Cationic Surfactant-modified Wheat Straw in Batch Mode. Desalination and Water Treatment. 52(31-33): 6145-6155.
Zhao, B., Xiao, W., Shang, Y., Zhu, H., and Han, R. 2014. Adsorption of Light Green Anionic Dye Using Cationic Surfactant-Modified Peanut Husk in Batch Mode. Arabian Journal of Chemistry. 2014: 1-8.
Ibrahim, S., Fatimah, I., Ang, H. M., and Wang, S. 2010. Adsorption of Anionic Dyes in Aqueous Solution Using Chemically Modified Barley Straw. Water Science and Technology. 62(5): 1177-1182.
Dezhampanah, H., Mousazadeh, A., and Mousazadeh, I. 2014. Sugarcane Bagasse and Modified Rice Husk for the Removal of Malachite Green from Aqueous Wastes. European Chemical Bulletin. 3(4): 400-406.
Mahmoud Khalifa A. S. 2013. Biosorption of Methylene Blue and Methyl Orange by Sugarcane Bagasse Treated with Cetylpyridinium Bromide. Unpublished dissertation in partial fulfillment of for the degree of Master of Science (Biotechnology), Universiti Teknologi Malaysia, Skudai.
Mandal, A., and Chakrabarty, D. 2011. Isolation of Nanocellulose from Waste Sugarcane Bagasse (SCB) and Its Characterization. Carbohydrate Polymers. 86(3):1291-1299.
Corrales, R. C., Mendes, F. M. T., Perrone, C. C.,Santanna, C., De Souza, W., Abud, Y., Bon E. P., and Ferreira-Leitão, V. 2012. Structural Evaluation of Sugarcane Bagasse Steam Pretreated in the Presence of CO2 and SO2. Biotechnology for Biofuels. 5(1): 36.
Madhav, M., S. Soni, M. Singhal, C.K. Gautam and V. Shanti. 2013. Study of Operational Parameters and Kinetics of Biosorption of Acid Orange 7 by Untreated Sugarcane Bagasse. Journal of Chemical and Pharmaceutical Research. 5(11): 523-531.
Wang, S. B., and Peng, Y. L. 2010. Natural Zeolites as Effective Adsorbents in Water and Wastewater Treatment. Chemical Engineering Journal. 156(1): 11-24.
Zhan, Y., Lin, J., and Zhu, Z. 2011. Removal of Nitrate From Aqueous Solution Using Cetylpyridinium Bromide (CPB) Modified Zeolite as Adsorbent. Journal of Hazardous Materials. 186(2): 1972-1978.
Ma, J., Cui, B., and Li, D. 2011. Mechanism of Adsorption of Anionic Dye from Aqueous Solutions onto Organo Bentonite. Journal of Hazardous Materials. 186(2): 1758-1765.
Sulak, M. T., and Yatmaz, H. C. 2012. Removal of Textile Dyes from Aqueous Solutions with Eco-Friendly Biosorbent. Desalination and Water Treatment. 37(1-3): 169-177.
Bello, O. S., Adelaide, O. M., Hammed M. A., and Popoola, O. A. M. 2010. Kinetic and Equilibrium Studies on Adsorption of Methylene Blue Removal from Aqueous Solution by Adsorption on Treated Sawdust. Madeconian Journal of Chemistry and Chemical Engineering. 29(1): 77-85.
Langmuir, I. 1918. The Adsorption of Gases on Plane Surfaces of Glass, Mica and Platinum. Journal of the American Chemical Society. 40(9): 1361-403.
Freundlich, H. M. F. 1906. Uber Die Adsorption in Losungen. Journal of Physical Chemistry. 57: 385-470.
Silva, J. P., Sousa, S., Rodrigues, J., Antunes, H., Porter, J., Gonçalves, I., and Ferreira-Dias, S. 2004. Adsorption of Acid Orange 7 in Aqueous Solutions by Spent Brewery Grains. Separation and Purification Technology. 40(3): 309-315.
Padmesh, T. V. N., Vijayaraghavan, K., Sekaran, G., and Velan, M. 2006. Application of Azolla rongpong on Biosorption of Acid Red 88, Acid Green 3, Acid Orange 7 and Acid Blue 15 from Synthetic Solutions. Chemical Engineering Journal. 122(1): 55-63.
Izadyar, S., and Rahimi, M. 2007. Use of Beech Wood Sawdust for Adsorption of Textile Dyes. Pakistan Journal of Biological Sciences. 10(2): 287-293.
Gupta, V. K., Mittal, A., Gajbe, V., and Mittal, J. 2006. Removal and Recovery of the Hazardous Azo Dye Acid Orange 7 through Adsorption over Waste Materials:  Bottom Ash and De-Oiled Soya. Industrial and Engineering Chemistry Research. 45(4): 1446-1453.
Abramian, L., and El-Rassy, H. 2009. Adsorption Kinetics and Thermodynamics of Azo-dye Orange II onto Highly Porous Titania Aerogel. Chemical Engineering Journal. 150(2): 403-410.
Bourikas, K., Stylidi, M., Kondarides, D. I. And Verykios, X. E. 2005. Adsorption of Acid Orange 7 on the Surface of Titanium Dioxide. Langmuir. 21(20): 9222-923.
Downloads
Published
Issue
Section
License
Copyright of articles that appear in Jurnal Teknologi belongs exclusively to Penerbit Universiti Teknologi Malaysia (Penerbit UTM Press). This copyright covers the rights to reproduce the article, including reprints, electronic reproductions, or any other reproductions of similar nature.