Optimizing the Factors of Color Concentration, pH and the Amount of Nanoparticles in Removal of R198 Reactive Dye under UV Rays by Zinc Oxide Nanoparticles Extracted from Leaching Residue of Zinc Melting Factory
الموضوعات : Journal of Environmental Friendly MaterialsS. S. Gojrati 1 , M. Hajisafari 2 , M. M. Khosravirad 3
1 - Department of Mining Engineering, Yazd Branch, Islamic Azad University, Yazd, Iran
2 - Department of Metallurgical and Materials Engineering, Yazd Branch, Islamic Azad University, Yazd, Iran
3 - Department of Mining Engineering, Bafgh Branch, Islamic Azad University, Bafgh, Iran
الکلمات المفتاحية:
ملخص المقالة :
In this study, zinc oxide nanoparticles were obtained from purified solution from the zinc melting residue factory in Bafgh. The obtained nanoparticles by various devices were studied and analyzed. The formation, purity and optical properties of zinc oxide nanoparticles were investigated by the infrared spectrometer (FTIR) test. Ultimately, these nanostructures were used to investigate their photocatalytic properties in the removal of reactive color R198 under UV rays, which has been widely used color in the textile industry and is harmful for the environment. In the bleaching process of reactive color R198, three effective parameters which include the color concentration, pH and amount of nanoparticle were optimized. The results of X-Ray Diffraction patterns (XRD) represent the crystallinity and hexagonal structure of the samples. According to the Transmitted Electron Microscope (TEM) images, the sample have clear spherical shapes and distinct hexagonal dimensions in the range of 40-120nm. Under optimal conditions with color concentration of 30 ml, pH = 7and the amount of nanoparticle 0.12gm at 120 minutes the bleaching process under ultra-violet rays about 99% of the color was degraded or destroyed.
[1] B. Neppolian, H. Choi, S. Sakthivel, B. Arabindoo and V. Murugesan, Chemosphere., 46, (2002), 1173.
[2] M. S. Lucas and J. A. Peres, Dyes. Pigm., 74 (2007), 622.
[3] L. Wang, Y. Hung, H. Lo and C. Yapijakis, Handbook of Industrial and Hazardous Wastes Treatment, 2nd Edn (Marcel Dekker, CRC Press, (2004)).
[4] M. Muthukumar, M. Thalamadai Karuppiah and B. Raju, Sep. Purif. Technol., 55, (2007), 198.
[5] A. Özcan, Ç. Ömeroğlu, Y. Erdoğan and A. S. Özcan, J. Hazard Mater., 140, (2007), 173.
[6] V. K. Garg, R. Gupta, A. Bala Yadav and R. Kumar, Bioresource Technol., 89, (2003), 12.
[7] B. H. Hameed, A. A. Ahmad and N. Aziz, Chem. Eng. J., 133, (2007), 195.
[8] F. Ferrero, J. Hazard Mater., 142, (2007), 144.
[9] B. Nandi, A. Goswami and M. Purkait, J. Hazard Mater., 161, (2009), 387.
[10] S. Mozia, M. Tomaszewska and A. W. Morawski, Desalination, 198, (2006), 183.
[11] C. Galindo, P. Jacques and A. Kalt, Chemosphere, 45, (2001), 997.
[12] P. A. Carneiro, G. A. Umbuzeiro, D. P. Oliveira and M. V. Zanoni, J. Hazard Mater., 174, (2010), 694.
[13] M. A. Zazouli, D. Balarak, Y. Mahdavi and M. Ebrahimi, Iran J. Health Sci., 1, (2013), 36.
[14] A. Saeed, M. Iqbal and S. I. Zafar, J. Hazard Mater., 168, (2009), 406.
[15] N. Hoda, E. Bayram and E. Ayranci, J. Hazard Mater., 137, (2006), 344.
[16] A. El Nemr, O. Abdelwahab, A. El-Sikaily and A. Khaled, J. Hazard Mater., 161, (2009), 102.
[17] W. Tsai, C. Chang, C. Ing and C. Chang, J. Colloid Interf. Sci., 275, (2004), 72.
[18] S. Hosseini, M. A. Khan, M. R. Malekbala, W. Cheah and T. S. Choong, Chem. Eng. J., 171, (2011), 1124.
[19] S. Cengiz, F. Tanrikulu and S. Aksu, Chem. Eng. J., 189, (2012), 32.
[20] M. Qiu, C. Qian, J. Xu, J. Wu and G. Wang, Desalination, 243, (2009), 286.
[21] G. Moussavi and I. Mahmoud, J. Hazard Mater., 168, (2009), 806.
[22] A. Dalvand, M. Gholami, A. Joneidi and N. M. Mahmoodi, CLEAN Soil Air Water, 39, (2011), 665.
[23] N. Daneshvar, D. G. Salari and A. R. Khataee, J. Photochem. Photobiol. A: chem., 162, (2004), 317. [24] Y. Li, S. Sun, M. Ma, Y. Ouyang and W. Yan, Chem. Eng. J., 147, (2008), 142.
[25] D. Ravelli, D. Dondi, M. Fagnoni and A. Albini, Chem. Soci. Rev., 38, (2009), 1999.
[26] F. Marahel, M. Ghaedi and A. Ansari, Synthesis and Reactivity in Inorganic, Metal-Organic, and Nano-Metal Chem., 45, (2015), 1387.
[27] Z. Noorimotlagh, R. Darvishi Cheshmeh Soltani, Gh. Shams Khorramabadi, H. Godini and M. Almasian, Desalination and Water Treat, 57, (2016), 1684.
[28] R. Darvishi Cheshmeh Soltani, Gh. Shams Khoramabadi, H. Godini and Z. Noorimotlagh, Desalination and Water Treat, 56, (2015), 2551.
[29] L. Vafayi and S. Gharibe, Iranian J. of Cata., 5, (2015), 365.
[30] H. Nourmoradi, A. R. Ghiasvand and Z. Noorimotlagh, Desalination and Water Treat., 55, (2015), 252.
[31] L. Prashant, P. Chaudhari and C. Kale, Inter. J. of Chem. Tech. Research., 10, (2017), 477.
[32] M. Dehghani and P. Mahdavi, Desalination and Water Treat., 54, (2015), 3464.
[33] A. Abul, S. Samad, D. Huq, M. Moniruzzaman and M. Masum, J. Textile Sci Eng., 5, (2015), 2.
[34] . A. S. Kuznetsov, Y-G. Lu, S. Turner, M. V. Shestakov, V. K. Tikhomirov, D. Kirilenko, J. Verbeeck, A. N. Baranov and V, V. Moshchalkov, J. Opt Mater Express., 2, (2012), 723.
[35] M. Farbod and E. Jafarpoor, Ceram. Inter., 40, (2013), 6605.
[36] Y. Jiang, Y. Sun, H. Liu, F. Zhu and H. Yin, Dyes Pigm., 78, (2008), 77.
[37] P. K. Sanoop, S. Anas, S. Ananthakumar, V. Gunasekar, R. Saravanan and V. Ponnusami, Arabian J. Chem., 9, (2014), S1618.
[38] Y. Tseng, Y. Lin, H. Chang, Y. Chen, C. Liu and Y. Zou, Luminescence, 132, (2012), 491.
[39] W. Xie, Y. Li, W. Sun, J. Huang, H. Xie and X. Zhao, J. Photoch. Photobiol A: Chem., 216, (2010), 149.
