References

1. R. Wang, X. Jin, Z. Wang, W. Gu, Z. Wei, A multilevel reuse system with source separation process for printing and dyeing wastewater treatment: A case study. Bioresource. Technol., 247 (2017) 1233–1241.
2. A.A. Guedez, W. Püttmann, Printing ink and paper recycling sources of TMDD in wastewater and rivers, Sci. Total. Environ., 468 (2014) 671–676.
3. L. Chen, R. Lei, P.F. Zhou, L.J. Liu, L.I. Wen, Research of upgrading and rebuilding to printing and dyeing wastewater by MBBR, Environ. Sci. Technol., 30 (2017) 39–42.
4. J. Zeng, J. Liu, Economic model predictive control of wastewater treatment processes, Ind. Eng. Chem. Res., 54 (2015) 5710–5721.
5. A.F. Gao, X.L. Liang, Y. Zhang, X.D. Han, J.H. Cui, Optimization of printing-ink wastewater treatment by fenton oxidation using response surface methodology, Environ .Sci. Technol., 36 (2013) 107–116.
6. G. Zhen, X. Lu, T. Kobayashi, L. Su, G. Kumar, Continuous micro-current stimulation to upgrade methanolic wastewater biodegradation and biomethane recovery in an upflow anaerobic sludge blanket (UASB) reactor, Chemosphere, 180 (2017) 229–238.
7. N. Birjandi, H. Younesi, A.A. Ghoreyshi, M. Rahimnejad, Electricity generation through degradation of organic matters in medicinal herbs wastewater using bio-electro-Fenton system, J. Environ. Manage., 180 (2016) 390–400.
8. Y. Kim, B.E. Logan, Simultaneous removal of organic matter and salt ions from saline wastewater in bioelectrochemical systems, Desalination, 308 (2013) 115–121.
9. S. Karthikeyan, A. Titus, A. Gnanamani, A.B. Mandal, G. Sekaran, Treatment of textile wastewater by homogeneous and heterogeneous Fenton oxidation processes, Desalination, 281 (2011) 438–445.
10. M. Mehrjouei, S. Müller, D. Möller, A review on photocatalytic ozonation used for the treatment of water and wastewater, Chem. Eng. J., 263 (2015) 209–219.
11. X.H. Xu, L.H. Zhang, Q.Y. Wang, M. Lu, X.Y. Meng, Study on absorbing Cu²⁺ by green adsorbent chlorella power, J. Northeast Electr. Pow. Uni., 34 (2014) 21–24.
12. W. Wei, R. Lu, H. Xie, Y. Zhang, X. Bai, Selective adsorption and separation of dyes from an aqueous solution on organic-inorganic hybrid cyclomatrix polyphosphazene submicro-spheres, J. Mater. Chem. A., 3 (2015) 4314–4322.
13. K.B. Tan, M. Vakili, B.A. Horri, P.E. Poh, A.Z. Abdullah, Adsorption of dyes by nanomaterials: Recent developments and adsorption mechanisms, Sep. Purif. Technol., 150 (2015) 229–242.
14. M. Lu, X. Lu, F.Y. Li, X.H. Xu, C.Y. Yu, L.L. Yao, Thermodynamics and kinetics of adsorption of methylene blue by zeolite synthesized from fly ash, J. Northeast Electr. Pow. Uni., 34 (2014) 21–24.
15. H.M. Marwani, H.M. Albishri, T.A. Jalal, E.M. Soliman, Study of isotherm and kinetic models of lanthanum adsorption on activated carbon loaded with recently synthesized Schiff’s base, Arab. J. Chem., 10 (2017) 1032–1040.
16. T. Zheng, Q. Wang, Z. Shi, Z. Zhang, Y. Ma, Microwave regeneration of spent activated carbon for the treatment of ester-containing wastewater, Rsc. Adv., 6 (2016) 60815–60825.
17. A. Bhatnagar, W. Hogland, M. Marques, M. Sillanpää, An overview of the modification methods of activated carbon for its water treatment applications, Chem. Eng. J., 219 (2013) 499–511.
18. L. Kong, X. Yin, F. Ye, Electromagnetic wave absorption properties of ZnO-based materials modified with ZnAl₂O₄ nanograins, J. Phys. Chem. C., 117 (2013) 2135–2146.
19. J. Gómez-Pastora, E. Bringas, I. Ortiz, Recent progress and future challenges on the use of high performance magnetic nano-adsorbents in environmental applications, Chem. Eng. J., 256 (2014) 187–204.
20. Y. Zhao, J. Li, S. Zhang, X. Wang, Amidoxime-functionalized magnetic mesoporous silica for selective sorption of U(VI), Rsc. Adv., 4 (2014) 32710–32717.
21. N.P. Raval, P.U. Shah, N.K. Shah, Adsorptive amputation of hazardous azo dye Congo red from wastewater: a critical review, Environ. Sci. Pollut. Res. Int., 23 (2016) 14810–14853.
22. V. Ranjithkumar, A.N. Hazeen, M. Thamilselvan, S. Vairam, Magnetic activated carbon-Fe₃O₄ nanocomposites - synthesis and applications in the removal of acid yellow dye 17 from water, J. Nanosci. Nanotechnol., 14 (2014) 1–11.
23. A.M. Donia, A.A. Atia, F.I. Abouzayed, Preparation and characterization of nano-magnetic cellulose with fast kinetic properties towards the adsorption of some metal ions, Chem. Eng. J., 191 (2012) 22–30.
24. L. Deng, Z. Shi, X. Peng, S. Zhou, Magnetic calcinated cobalt ferrite/magnesium aluminum hydrotalcite composite for enhanced adsorption of methyl orange, J. Alloy. Compd., 688 (2016) 101–112.
25. X. Zhao, W. Wang, Y. Zhang, S. Wu, F. Li, Synthesis and characterization of gadolinium doped cobalt ferrite nanoparticles with enhanced adsorption capability for Congo Red, Chem. Eng. J., 250 (2014) 164–174.
26. S. Joseph, D.M. Kempaiah, M. Benzigar, A.V. Baskar, S.N. Talapaneni, Metal organic framework derived mesoporous carbon nitrides with a high specific surface area and chromium oxide nanoparticles for CO₂ and hydrogen adsorption, J. Mater. Chem. A., 5 (2017) S1–S12.
27. L.H. Ai, H.Y. Huang, Z.L. Chen, X. Wei, J. Jiang, Activated carbon/CoFe₂O₄, composites: Facile synthesis, magnetic performance and their potential application for the removal of malachite green from water, Chem. Eng. J., 156 (2010) 243–249.
28. K.S. Thangamani, N.M. Andal, E.R. Kumar, M. Saravanabhavan, utilization of magnetic nano cobalt ferrite doped capra aegagrus hircus dung activated carbon composite for the adsorption of anionic dyes, J. Environ. Chem. Eng., 5 (2017) 2820–2829.
29. L. Ai, M. Li, L. Li, Adsorption of methylene blue from aqueous solution with activated carbon/cobalt ferrite/alginate composite beads: kinetics, isotherms, and thermodynamics, J. Chem. Eng. Date., 56 (2011) 3475–3483.
30. O. Oyetade, V. Nyamori, B. Martincigh, S. Jonnalagadda, Effectiveness of carbon nanotube-cobalt ferrite nanocomposites for the adsorption of rhodamine B from aqueous solutions, RSC. Adv., 5 (2015) 22724–22739.
31. A. Pirouzfar, S.A.S. Ebrahimi, Optimization of sol-gel synthesis of CoFe₂O₄ nanowires using template assisted vacuum suction method, J. Magn. Magn. Mater., 370 (2014) 1–5.
32. M.Y. Nassar, K. Mai, Cobalt ferrite nanoparticles via a template-free hydrothermal route as an efficient nano-adsorbent for potential textile dye removal, RSC Adv., 6 (2016) 79688–79705.
33. E. Manova, B. Kunev, D. Paneva, I. Mitov, L. Petrov, Mechano-synthesis, characterization, and magnetic properties of nanoparticles of cobalt ferrite, CoFe₂O₄, Rsc. Adv., 16 (2016) 5689–5696.
34. X.H. Guan, J.M. Kuang, H.B. Zhao, L. Yang, S.T. Li, Preparation of rGO/CoFe₂O₄ on membrane-hydrothermal method and wave absorbing properties, Chem. Ind. Eng. Prog., 34 (2015) 3693–3699.
35. X.H. Guan, X. Wang, M. Lu, H.B. Zhao, Research of continuous preparation of nano-Fe₃O₄ based on membrane disperion technology, Mater. Rev., 27 (2013) 70–73.
36. Z.G. Jia, D.P. Ren, R.S. Zhu, Synthesis, characterization and magnetic properties of CoFe₂O₄ nanorods, Mater. Lett., 66 (2012) 128–131.
37. A.A. Sattar, H.M. El-Sayed, I. Alsuqia, Structural and magnetic properties of CoFe₂O₄/NiFe₂O₄ core/shell nanocomposite prepared by the hydrothermal method, J. Magn. Magn. Mater., 395 (2015) 89–96.
38. J.M. Gao, Z.K. Yan, J. Liu, M. Zhang, M. Guo, Synthesis, structure and magnetic properties of Zn substituted Ni–Co–Mn–Mg ferrites, Mater. Lett., 141 (2015) 122–124.
39. M.P. Reddy, A.M.A. Mohamed, X.B. Zhou, S. Du, Q. Huang, A facile hydrothermal synthesis, characterization and magnetic properties of mesoporous CoFe₂O₄ nanospheres, J. Magn. Magn. Mater., 388 (2015) 40–44.
40. P.R. Kumar, P. Kollu, C. Santhosh, K.E.V. Rao, D.K. Kim, A.N. Grace, Enhanced properties of porous CoFe₂O₄-reduced graphene oxide composites with alginate binders for Li-ion battery applications, New J. Chem., 38 (2014) 3654–3661.
41. L. Deng, Z. Shi, X. Peng, Adsorption of Cr(VI) onto a magnetic CoFe₂O₄/MgAl-LDH composite and mechanism study, RSC. Adv., 5 (2015) 49791–49801.
42. V. Hermán, H. Takacs, F. Duclairoir, O. Renault, J.H. Tortai, Core double–shell cobalt/graphene/polystyrene magnetic nanocomposites synthesized by in situ sonochemical polymerization, Rsc. Adv., 5 (2015) 51371–51381.
43. W. Chen, L. Yan, P.R. Bangal, Preparation of graphene by the rapid and mild thermal reduction of graphene oxide induced by microwaves, Carbon, 48 (2010) 1146–1152.
44. I. Ali, C. Peng, I. Naz, Z.M. Khan, M. Sultan, T. Islam, I.A. Abbasi, Phytogenic magnetic nanoparticles for wastewater treatment: a review, Rsc. Adv., 7 (2017) 40158–40178.
45. L. Wang, J. Li, Y. Wang, L. Zhao, Q. Jiang, Adsorption capability for Congo red on nanocrystalline MFe₂O₄ (M = Mn, Fe, Co, Ni) spinel ferrites, Chem. Eng. J., 181–182 (2012) 72–79.
46. V. Poonam, C. Pratibha, K. Atul, Removal of reactive orange 107 dye from textile effluent by adsorption on acid treated fly ash, Res. J. Chem. Environ., 18 (2014) 12–21.
47. A. Poorbafrani, E. Kiani, Enhanced microwave absorption properties in cobalt-zinc ferrite based nanocomposites, J. Magn. Magn. Mater., 416 (2016) 10–14.
48. P. Cai, H.G. Zheng, C. Wang, H.W. Ma, J.C. Hu, Y.B. Pu, P. Liang, Competitive adsorption characteristics of fluoride and phosphate on calcined Mg–Al–CO₃ layered double hydroxides, J. Hazard. Mater., 213–214 (2012) 100–108.
49. T. Jiang, Y.D. Liang, Y.J. He, Q. Wang Activated carbon/NiFe₂O₄ magnetic composite: A magnetic adsorbent for the adsorption of methyl orange, J. Environ. Chem. Eng., 3 (2015) 1740–1751.
50. H. Chen, J. Zhao, G.L. Dai, J.Y. Wu, H. Yan, Adsorption characteristics of Pb(II) from aqueous solution onto a natural biosorbent, fallen Cinnamomum camphora leaves, Desalination, 262 (2010) 174–182.
51. K.Y. Shin, J.Y. Hong, J. Jang, Heavy metal ion adsorption behavior in nitrogen-doped magnetic carbon nanoparticles: isotherms and kinetic study, J. Hazard. Mater., 190 (2011) 36–44.
52. J. Gómez-Pastora, E. Bringas, I. Ortiz, Recent progress and future challenges on the use of high performance magnetic nano-adsorbents in environmental applications, Chem. Eng. J., 256 (2014) 187–204.
53. M. Lu, Y.M. Zhang, X.H. Guan, X.H. Xu, T.T. Gao, Thermodynamics and kinetics of adsorption for heavy metal ions from aqueous solutions onto surface amino-bacterial cellulose, Nonferr. Metal. Soc., 24 (2014) 1912–1917.
54. P. Zhang, T. Wang, G. Qian, D. Wu, R.L. Frost, Removal of methyl orange from aqueous solutions through adsorption by calcium aluminate hydrates, Interf. Sci., 426 (2014) 44–47.
55. X. Yuan, Y. Wang, J. Wang, C. Zhou, Q. Tang, Calcined graphene/MgAl-layered double hydroxides for enhanced Cr(VI) removal, Chem. Eng. J., 221 (2013) 204–213.