References

1. M. Samarghandi, M. Zarrabi, M.N. Sepehr, R. Panahi, M. Foroughi, Removal of Acid Red 14 by pumice stone as a low cost adsorbent: kinetic and equilibrium study, IJCCE, 31 (2012) 19–27.
2. N.M. Mahmoodi, M. Arami, N. Yousefi, Photocatalytic degradation of triazinic ring-containing azo dye (Reactive Red 198) by using immobilized TiO₂ photoreactor: bench scale study, J. Hazard. Mater., 133 (2006) 113–118.
3. J. Zhang, K. Lee, L. Cui, T. Jeong, Degradation of methylene blue in aqueous solution by ozone-based processes, J. Ind. Eng. Chem., 15 (2009) 185–189.
4. G. Moussavi, M. Mahmoudi, Removal of azo and anthraquinone reactive dyes from industrial wastewaters using MgO nanoparticles, J. Hazard. Mater., 168 (2009) 806–812.
5. S. Pirgalioglu, T. Zbelge, Comparison of non-catalytic and catalytic ozonation processes of three different aqueous single dye solutions with respect to powder copper sulfide catalyst, Appl. Catal., 363 (2009) 157–163.
6. M. Samarghandi, M. Zarrabi, A. Amrane, M.N. Sepehr, M. Noroozi, S. Namdari, Kinetic of degradation of two azo dyes from aqueous solutions by zero iron powder: determination of the optimal conditions, Desal. Wat. Treat., 49 (2012) 137–143.
7. C. Helmes, Z. Fund, M. Thompson, M. Volets, M. Makie, A study of azo and nitro dyes for the selection of candidates for carcinogen bioassay, J. Environ. Sci. Health Part A, 19 (1984) 197–231.
8. N. Chagas, S. Quinaia, F. Anaissi, J. Santos, M. Felsner, K. Justi, Clay and charcoal composites: characterisation and application of factorial design analysis for dye adsorption, Chem. Pap., 68 (2014) 553–563.
9. D. Balarak, M.A. Zazouli, Y. Mahdavi, M. Ebrahimi, Adsorption rate of 198 reactive red dye from aqueous solutions by using activated red mud, Iran J. Health Sci., 1 (2013) 36–43.
10. P. Nidheesh, R. Gandhimathi, S. Ramesh, Degradation of dyes from aqueous solution by Fenton processes: a review, Environ. Sci. Pollut. Res., 20 (2013) 2099–2132.
11. M. Samarghandi, M. Zarrabi, M.N. Sepehr, A. Amrane, G. Safari, S. Bashiri, Application of acidic treated pumice as an adsorbent for the removal of azo dye from aqueous solutions: kinetic, equilibrium and thermodynamic studies, Iran J. Environ. Health Sci. Eng., 9 (2012) 1–9.
12. L. Xubiao, Z. Youcai, H. Yining, Y. Lixia, T. Xinman, L. Shenglian, Removal of water-soluble acid dyes from water environment using a novel magnetic molecularly imprinted polymer, J. Hazard. Mater., 187 (2011) 274–282.
13. Y. Sloicarf, Method of depolarization of textile wastewater, Dyes Pigments, 37 (1998) 335–356.
14. H.M. Moghaddam, H. Beitollahi, S. Tajik, M. Malakootian, H.K. Maleh, Simultaneous determination of hydroxylamine and phenol using a nanostructure-based electrochemical sensor, Environ. Monit. Assess., 186 (2014) 7431–7441.
15. A. Mahvi, M. Malakootian, M. Heidari, Comparison of polyaluminum silicate chloride and electrocoagulation process in neutral organic matter removal from surface water in Ghochan, Iran, J. Water Chem. Technol., 33 (2011) 377–385.
16. Y.H. Lee, S.G. Pavlostathis, Decolorization and toxicity of reactive anthraquinone textile dyes under methanogenic conditions, Water. Res., 38 (2004) 1838–1852.
17. L.S. Andrade, L.A.M. Ruotolo, R.C. Rocha-Filho, N. Bocchi, S.R. Biaggio, J. Iniesta, V. García-Garcia, V. Montiel, On the performance of Fe and Fe,F doped Ti-Pt/PbO₂ electrodes in the electrooxidation of the Blue Reactive 19 dye in simulated textile wastewater, Chemosphere, 66 (2007) 2035–2043.
18. M. Ghaneian, M. Ehrampoush, G. Ghanizadeh, M. Momtaz, Study of eggshell performance as a natural sorbent for the removal of reactive red 198 dye from aqueous solution, J. Toluooe- Behdasht, 10 (2011) 70–81.
19. H. Chao, Y. Yun, F.H. Xing, A. Larbot, Influence of silver doping on the photocatalytic activity of titania films, Appl. Surf. Sci., 200 (2002) 239–247.
20. T. Robinson, G. McMullan, R. Marchant, P. Nigam, Remediation of dyes in textile effluent: a critical review on current treatment technologies with a proposed alternative, Bioresour. Technol., 77 (2001) 247–255.
21. F. Harrelkas, A. Paulo, M. Alves, L.E. Khadir, O. Zahraa, M. Pons, Photocatalytic and combined anaerobic-photocatalytic treatment of textile dyes, Chemosphere, 27 (2008) 1816–1822.
22. G. Moussavi, M. Mahmoudi, Degradation and biodegradability improvement of the reactive red 198 azo dye using catalytic ozonation with MgO nanocrystals, Chem. Eng. J., 152 (2009) 1–7.
23. D. Cassidy, R. Irvine, Use of calcium peroxide to provide oxygen for contaminant biodegradation in a saturated soil, J. Hazard. Mater., 69 (1999) 25–39.
24. A. Northup, D. Cassidy, Calcium peroxide (CaO₂) for use in modified Fenton chemistry, J. Hazard. Mater., 152 (2008) 1164–1170.
25. B. Jamshidi, M. Ghaneian, M. Dehvari, S. Mozafari, Removal of Reactive Blue 19 Dye from textile synthetic wastewater using reed powder, JIUMS, 23 (2016) 119–131.
26. M. Malakootian, A. Asadipour, S. Mohammadi, A survey of the efficacy of calcium peroxide nanoparticles in the removal of reactive red 198 from textile wastewater, JSUMS, 23 (2016) 111–121.
27. M.T. Ghaneian, M.H. Ehrampoush, F. Sahlabadi, M. Mootab, I. Rezapour, T. Jasemizad, Reactive Blue 19 dye adsorption behavior on jujube stems powder from synthetic textile wastewater: isotherm and kinetic adsorption studies, JCHR, 3 (2014) 67–78.
28. S. Wijannatrong, S. Aroonsrimorakot, P. Thavipoke, S. Sagjan, Removal of reactive dyes from textile dyeing industrial effluent by ozonation process, APCBEE Procedia, 5 (2013) 279–282.
29. B. Sancar, O. Balci, Decolorization of different reactive dye wastewaters by O₃ and O₃/ultrasound alternatives depending on different working parameters, Text. Res. J., 83 (2013) 574–590.
30. A. Sarmah, M. Meyer, A. Boxall, A global perspective on the use, sales, exposure pathways, occurrence, fate and effects of veterinary antibiotics (VAs) in the environment, Chemosphere, 65 (2006) 725–759.
31. A.C. Ndjou’ou, D.P. Cassidy, Surfactant production accompanying the modified Fenton oxidation of hydrocarbons in soil, Chemosphere, 65 (2006) 1610–1615.
32. A. Rahmani, J. Mehralipour, A. Shabanlo, S. Majidi, Efficiency of ciprofloxacin removal by ozonation process with calcium peroxide from aqueous solutions, J. Qazvin Univ. Med. Sci., 19 (2015) 55–64.
33. Y. Qian, X. Zhou, Y. Zhang, W. Zhang, J. Chen, Performance and properties of nanoscale calcium peroxide for toluene removal, Chemosphere, 91 (2013) 717–723.
34. A. Rezaee, M. Ghaneian, S. Hashemian, G. Mossavi, A. Khavanin, G. Ghanizadeh, Decolorization of reactive blue 19 dye from textile wastewater by the UV/H2O2 process, J. Appl. Sci., 8 (2008) 1108–1112.
35. M. Malakootian, Z. Honarmandrad, A. Asadipour, Investigating the use of ozonation process with calcium peroxide for the removal of metronidazole antibiotic from aqueous solutions, Desal. Wat. Treat., 77 (2017) 315–320.
36. E. Olyaie, H. Banejad, A. Afkhami, A. Rahmani, J. Khodaveisi, Development of a cost-effective technique to remove the arsenic contamination from aqueous solutions by calcium peroxide nanoparticles, Sep. Purif. Technol., 95 (2012) 5–10.