Evaluation of Optimization Removal of Methyl Orange from Aqueous Solutions with Ag, Co/TiO2 Nano-Particles by Experimental Design
Subject Areas : Heavy metalNasim Ziaefar 1 , Saber Khodaei 2 , Jila Talat-Mehrabad 3 , Farzad Arjomandi Rad 4
1 - Assistant Professor, Department of Chemistry, Maragheh Branch, Islamic Azad University, Maragheh, Iran ٭(Corresponding Authors)
2 - Assistant Professor, Department of Statestics, Maragheh Branch, Islamic Azad University, Maragheh, Iran
3 - Departemant of Chemistry, Bonab Branch, Islamic Azad University, Bonab, Iran
4 - Departemant of Chemistry, Bonab Branch, Islamic Azad University, Bonab, Iran
Keywords: co-doping, Taguchi, Experimental design, Nano-particles, Photocatalyst activity,
Abstract :
Background and objective: Studying photocatalytic activities, some factors including the concentration of the pollutant, the amount of photo-catalyst, pH, and calcination temperature affect the process of eliminating the pollutant from aquatic solutions. Using an experimental design, it is possible to eliminate the unnecessary factors and determine the optimal conditions. Method: The Ag, Co/TiO2 Nano-particles for eliminating methyl orange has been evaluated. The four main variables involved in the process of elimination of methyl orange are the original concentration of the pollutant, the doges of photo-catalyst, pH, and calcination temperature. So arraying four factors changes at 3 levels. Therefore, considering the surface conditions for optimization and for determining the effect of each factor, totally 9 experiments are needed. Findings: The effect of the operational parameters include the original concentration of the pollutant, the amount of the photo-catalyst, pH, and calcination temperature, was optimized through experimental design. Discussion and Conclusion: The results of the experiments on photochemical degradation of Methyl Orange using Taguchi method showed that the greatest effect is related to original concentration of the MO and the amount of the Nano-catalyst.
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- daneshnameh.roshd.ir
- Balan, DSL, Monteneiro RTR 2001. Decolorization of textile indigo dye by ligninolytic fungi, J biotechnol., 89,141-145.
- Herrmann, J.M., 1999. Hetrogeneous phtocatalysis: Fundamentals and applications to the removal of various types of aqueous pollutants, Catal. Today., 53, 115-129.
- S.S. Hong, M.S. Lee, C.S. Ju, G.D. Lee, S.S. Park, K.T. Lim, Catal. Today 93–95 (2004) 871–876.
- H.-Y. Chuang and D.-H. Chen, Nanotechnology 20, 105704 (2009).
- Aber, S., Khataee, A. and Sheydaei, M., 2009. Optimization of activated carbon fiber preparation from Kenaf using K2HPO4 as chemical activator for adsorption of phenolic compounds, Bioresour. Technol., 100, 6586-6591.
- Behnajady, B., Moghaddam, J., Behnajady, M.A. and Rashchi, F., 2012. Determination of the optimum conditions for the leaching of lead from zinc plant residues in NaCl−H2SO4−Ca(OH)2 media by the Taguchi method, Ind. Eng. Chem. Res., 51, 3887-3894.10.
6. R. Nouralensa, Design and analysis of experiments. Tehran: Iran University of Science & Technology, Sixth Edition (2014). (In Persian)
7. A. Zinali, Taguchi Test Design Using Qualitek Software, Tehran: Petrochemical Research and Technology Company, First Edition, pp. 86-10 (2014). (In Persian)
