Removal of Acid red 18 from Water using Polyaniline/Wheat bran Composite
Subject Areas :
Environment Pullotion (water and wastewater)
Sudabeh Sadat jafary
1
,
Tahereh Navaei Diva
2
1 - Department of Food, Science and Technology, Savadkuh Branch, Islamic Azad University, Savadkuh, Iran.
2 - Department of Chemistry, Savadkooh Branch, Islamic Azad University, Savadkooh, Iran *(Corresponding Author)
Received: 2019-08-03
Accepted : 2020-06-02
Published : 2021-04-21
Keywords:
Polyanilin,
Wheat Bran,
Synthetic dyes,
Adsorption,
Aqueous solution,
Abstract :
Background and Objective: Dye is considered as one of the most important environmental pollutants in industrial wastewater due to its harmful effects on both human and environment. The aim of this study is to evaluate the efficiency of the polyaniline/ wheat bran composite in the removal of acid red 18 dyes from aqueous solutions.Method: In this study, removal of acid red 18 from aqueous solution using wheat born loaded by polyaniline was investigated. For this purpose, composite synthesized through in-situ polymerization processes. Adsorption experiments were performed in batch system at laboratory scale. The effects of various parameters including the amount of adsorbent, pH, initial concentration, temperature, and contact time on adsorption were studied. Further kinetic and thermodynamic studies were performed on the data.Findings: The highest absorption rate by 0.1 g of adsorbent was equal to 100% at pH =2 of the solution after 2-hour contact with absorbent. The results show that the kinetic pseudo-second-order model fits the data. The experimental data were adjusted with Langmuir model.Discussion and Conclusion: According to the results, a simple, economical, and efficient method was presented to remove biodegradation-resistant pollutants using polyaniline/wheat bran composite.
References:
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Zhang, W.X., Lai, L., Mei, P., Li, Y., Li, Y.H. and Liu, Y., 2018. Enhanced removal efficiency of acid red 18 from aqueous solution using wheat bran modified by multiple quaternary ammonium salts. Chemical Physics Letters, 710, pp.193-201
Kanwal, F., Rehman, R., Anwar, J. and Saeed, M., 2013. Removal of lead (II) from water by adsorption on novel composites of polyaniline with maize bran, wheat bran and rice bran. Asian Journal of Chemistry, 25(5), pp.2399.
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Monier, M., Ayad, D.M., Wei, Y. and Sarhan, A.A., 2010. Adsorption of Cu (II), Co (II), and Ni (II) ions by modified magnetic chitosan chelating resin. Journal of Hazardous Materials, 177(1-3), pp.962-970.
Ghaemi, A., Shirvani, M., 2019. Prediction of Phenol Adsorption by Sawdust from Wastewater Using Intelligent Methods. J. Env. Sci. Tech., 21(2), pp.37-55. (In Persian)
Zhang, W.X., Lai, L., Mei, P., Li, Y., Li, Y.H. and Liu, Y., 2018. Enhanced removal efficiency of acid red 18 from aqueous solution using wheat bran modified by multiple quaternary ammonium salts. Chemical Physics Letters, 710, pp.193-201.
Diva, T.N., Zare, K., Taleshi, F. and Yousefi, M., 2017. Synthesis, characterization, and application of nickel oxide/CNT nanocomposites to remove Pb 2+ from aqueous solution. Journal of Nanostructure in Chemistry, 7(3), pp.273-281.
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Asadi, F., Dargahi, A., Almasi, A., Karami, C.A., Mohamadi, A., 2017.Efficiency of the processed walnut shell in removal of red reactive 2 dye from aqueous solutions., J. Env. Sci. Tech., 19(4), pp. 237-245. (In Persian)
Konicki, W., Sibera, D., Mijowska, E., Lendzion-Bieluń, Z. and Narkiewicz, U., 2013. Equilibrium and kinetic studies on acid dye Acid Red 88 adsorption by magnetic ZnFe2O4 spinel ferrite nanoparticles. Journal of colloid and interface science, 398, pp.152-160.
Sobhanardakani, S., Zandipak, R., Khoshsafar, H. and Zandipak, R., 2015. Removal of cationic dyes from aqueous solutions using NiFe2O4 nanoparticles. Journal of Water Supply: Research and Technology—AQUA, 65(1), pp.64-74.
Zhang, W.X., Lai, L., Mei, P., Li, Y., Li, Y.H. and Liu, Y., 2018. Enhanced removal efficiency of acid red 18 from aqueous solution using wheat bran modified by multiple quaternary ammonium salts. Chemical Physics Letters, 710, pp.193-201
Kanwal, F., Rehman, R., Anwar, J. and Saeed, M., 2013. Removal of lead (II) from water by adsorption on novel composites of polyaniline with maize bran, wheat bran and rice bran. Asian Journal of Chemistry, 25(5), pp.2399.
Sobhanardakani, S., Parvizimosaed, H. and Olyaie, E., 2013. Heavy metals removal from wastewaters using organic solid waste—rice husk. Environmental Science and Pollution Research, 20(8), pp.5265-5271.
Monier, M., Ayad, D.M., Wei, Y. and Sarhan, A.A., 2010. Adsorption of Cu (II), Co (II), and Ni (II) ions by modified magnetic chitosan chelating resin. Journal of Hazardous Materials, 177(1-3), pp.962-970.
Ghaemi, A., Shirvani, M., 2019. Prediction of Phenol Adsorption by Sawdust from Wastewater Using Intelligent Methods. J. Env. Sci. Tech., 21(2), pp.37-55. (In Persian)
Zhang, W.X., Lai, L., Mei, P., Li, Y., Li, Y.H. and Liu, Y., 2018. Enhanced removal efficiency of acid red 18 from aqueous solution using wheat bran modified by multiple quaternary ammonium salts. Chemical Physics Letters, 710, pp.193-201.
Diva, T.N., Zare, K., Taleshi, F. and Yousefi, M., 2017. Synthesis, characterization, and application of nickel oxide/CNT nanocomposites to remove Pb 2+ from aqueous solution. Journal of Nanostructure in Chemistry, 7(3), pp.273-281.
Navaei, T., Zare, K., Taleshi, F., Yousefi, M. 2018. 'Removal of Cd2+ from Aqueous Solution by Nickel Oxide/CNT Nanocomposites', Iranian Journal of Chemistry and Chemical Engineering (IJCCE), (), pp. -.
