Application of ZnO-Fe3O4 nanocomposite on the removal of azo dye from aqueous solutions: Kinetics and equilibrium studies

Water, Air, and Soil Pollution

Volumn 225, Issue 9, 2014, Pages

  Farrokhi, Mehrdad ^a   Hosseini, Seyydeh Cobra ^b   Yang, Jae Kyu ^c   Shirzad Siboni, Mehdi ^d  

^a ALBORZ UNIVERSITY OF MEDICAL SCIENCES   (Iran)

^b GUILAN UNIVERSITY OF MEDICAL SCIENCES   (Iran)

^c Kwangwoon University   (South Korea)

^d IRAN UNIVERSITY OF MEDICAL SCIENCES   (Iran)

Author keywords

Adsorption; Isothermmodels; Kinetic models; Nanocomposite; Reactive black 5

Indexed keywords

AZO DYES; IONIC STRENGTH; KINETIC THEORY; KINETICS; NANOCOMPOSITES; REMOVAL; SODIUM CHLORIDE; ZINC OXIDE;

ADSORPTION CAPACITIES; ISOTHERMMODELS; KINETIC MODELS; LANGMUIR AND FREUNDLICH EQUATIONS; PSEUDO-SECOND ORDER MODEL; REACTIVE BLACK 5; REMOVAL EFFICIENCIES;

ADSORPTION;

AZO DYE; BICARBONATE; MAGNETITE NANOPARTICLE; NANOCOMPOSITE; REACTIVE BLACK 5; SODIUM CARBONATE; SODIUM CHLORIDE; SODIUM SULFATE; UNCLASSIFIED DRUG; ZINC OXIDE;

ADSORPTION; AQUEOUS SOLUTION; DYE; ISOTHERM; MODELING; REACTION KINETICS; WASTE TREATMENT; WASTEWATER; WATER TREATMENT; ZINC;

ADSORPTION; AQUEOUS SOLUTION; ARTICLE; CHEMICAL STRUCTURE; CONCENTRATION (PARAMETERS); IMMOBILIZATION; INFRARED SPECTROSCOPY; IONIC STRENGTH; ISOTHERM; KINETICS; PH; SCANNING ELECTRON MICROSCOPY; WASTE COMPONENT REMOVAL; WASTE WATER; X RAY DIFFRACTION;

EID: 84905893631     PISSN: 00496979     EISSN: 15732932     Source Type: Journal    
DOI: 10.1007/s11270-014-2113-8     Document Type: Article

References (56)

1. Ai, L., Zhang, C., & Chen, Z. (2011). Removal of methylene blue from aqueous solution by a solvothermal-synthesized graphene/magnetite composite. Journal of Hazardous Materials, 192, 1515-1524.
2. Al-Degs, Y., Khraisheh, M. A. M., Allen, S. J., & Ahmad, M. N. (2000). Effect of carbon surface chemistry on the removal of reactive dyes from textile effluent. Water Research, 34, 927-935.
3. Asgher, M. (2012). Biosorption of reactive dyes: a review. Water, Air, & Soil Pollution, 223, 2417-2435.
4. Azizian, S. (2004). Kinetic models of sorption: a theoretical analysis. Journal of Colloid and Interface Science, 276, 47-52.
5. Barron-Zambrano, J., Szygula, A., Ruiz, M., Sastre, A. M., & Guibal, E. (2010). Biosorption of reactive black 5 from aqueous solutions by chitosan: column studies. Journal of Environmental Management, 91, 2669-2675.
6. Behnajady, M. A., Modirshahla, N., Hamzavi, R., Behnajady, M. A., Modirshahla, N., & Hamzavi, R. (2006). Kinetic study on photocatalytic degradation of C.I. acid yellow 23 by ZnO photocatalyst. Journal of Hazardous Materials, 133, 226-232. (Pubitemid 44294516)
7. Camp, S. R., & Sturrock, P. E. (1990). The identification of the derivatives of C.I. reactive blue 19 in textile wastewater. Water Research, 24, 1275-1278.
8. Chatterjee, S., Chatterjee, S., Chatterjee, B. P., & Guha, A. K. (2007). Adsorptive removal of congo red, a carcinogenic textile dye by chitosan hydrobeads: binding mechanism, equilibrium and kinetics. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 299, 146-152. (Pubitemid 46441830)
9. 4-layered double hydroxide colloidal nanohybrids with excellent performance for treatment of organic dyes in water. Journal of Materials Chemistry, 21, 1218-1225.
10. Choi, H.-D., Shin, M.-C., Kim, D.-H., Jeon, C.-S., & Baek, K. (2008). Removal characteristics of reactive black 5 using surfactant-modified activated carbon. Desalination, 223, 290-298. (Pubitemid 351175228)
11. Daneshvar, N., Khataee, A. R., Rasoulifard, M. H., & Pourhassan, M. (2007a). Biodegradation of dye solution containing malachite green: optimization of effective parameters using Taguchi method. Journal of Hazardous Materials, 143, 214-219. (Pubitemid 46560216)
12. Daneshvar, N., Rasoulifard, M. H., Khataee, A. R., & Hosseinzadeh, F. (2007b). Removal of C.I. acid orange 7 from aqueous solution by UV irradiation in the presence of ZnO nanopowder. Journal of Hazardous Materials, 143, 95-101. (Pubitemid 46560202)
13. Elizalde-Gonzalez, M. P., & Hernandez-Montoya, V. (2009). Removal of acid orange 7 by guava seed carbon: a four parameter optimization study. Journal of Hazardous Materials, 168, 515-522.
14. Elwakeel, K. Z. (2009). Removal of reactive black 5 from aqueous solutions using magnetic chitosan resins. Journal of Hazardous Materials, 167, 383-392.
15. Eren, Z., & Acar, F. N. (2006). Adsorption of reactive black 5 from an aqueous solution: equilibrium and kinetic studies. Desalination, 194, 1-10. (Pubitemid 44225994)
16. Fagundes-Klen, M., Cervelin, P., Veit, M., Cunha Gonçalves, G., Bergamasco, R., & Silva, F. (2012). Adsorption kinetics of blue 5G dye from aqueous solution on dead floating aquatic macrophyte: effect of pH, temperature, and pretreatment. Water, Air, & Soil Pollution, 223, 4369-4381.
17. Ferrero, F. (2007). Dye removal by low cost adsorbents: hazelnut shells in comparison with wood sawdust. Journal of Hazardous Materials, 142, 144-152.
18. Gaikwad, R. W., & Kinldy, S. A. M. (2009). Studies on auramine dye adsorption on psidium guava leaves. Korean Journal of Chemical Engineering, 26, 102-107.
19. 4 nanoparticles as an easily regenerative adsorbent. Journal of Materials Chemistry, 22, 3527-3535.
20. Gulnaz, O., Kaya, A., & Dincer, S. (2006). The reuse of dried activated sludge for adsorption of reactive dye. Journal of Hazardous Materials, 134, 190-196.
21. Gupta, V. K., Ali, I., Suhas, & Mohan, D. (2003). Equilibrium uptake and sorption dynamics for the removal of a basic dye (basic red) using low-cost adsorbents. Journal of Colloid and Interface Science, 265, 257-264. (Pubitemid 37074852)
22. Horwitz, W. (2000). Standard methods for the examination of water and wastewater (20th ed.). Washington, D.C.: APHA.
23. Ip, A. W. M., Barford, J. P., & Mckay, G. (2010). A comparative study on the kinetics and mechanisms of removal of reactive black 5 by adsorption onto activated carbons and bone char. Chemical Engineering Journal, 157, 434-442.
24. Khataee, A. R., & Kasiri, M. B. (2010). Photocatalytic degradation of organic dyes in the presence of nanostructured titanium dioxide: influence of the chemical structure of dyes. Journal of Molecular Catalysis A: Chemical, 328, 8-26.
25. 2 nanoparticles by central composite design: intermediates identification. Journal of Hazardous Materials, 181, 886-897.
26. Nataraj, S. K., Hosamani, K. M., & Aminabhavi, T. M. (2009). Nanofiltration and reverse osmosis thin film composite membrane module for the removal of dye and salts from the simulated mixtures. Desalination, 249, 12-17.
27. Nigam, P., Armour, G., Banat, I. M., Singh, D., & Marchant, R. (2000). Physical removal of textile dyes from effluents and solid-state fermentation of dye-adsorbed agricultural residues. Bioresource Technology, 72, 219-226. (Pubitemid 32212919)
28. Patterson, A. (1939). The Scherrer formula for X-ray particle size determination. Physical Review, 56, 978.
29. Qiu-Yue, Z., Ping, Y., Yan, W., & Lei, J. (2010). Study on adsorption of Congo red in water on calcined oyster shell powder. Technology & Development of Chemical Industry, 48-50.
30. Raghu, S., & Ahmed Basha, C. (2007). Chemical or electrochemical techniques, followed by ion exchange, for recycle of textile dye wastewater. Journal of Hazardous Materials, 149, 324-330. (Pubitemid 47451614)
31. Regan, B. O., & Schwartz, D. T. (1995). Efficient photo-hole injection from adsorbed cyanine dyes into electrodeposited copper(I) thiocyanate thin films. Chemistry of Materials, 7, 1349-1354.
32. Rongcheng, W., & Jiuhui, Q. (2004). Removal of azo dye from water by magnetite adsorption-fenton oxidation. Water Environment Research, 76, 2637-2642. (Pubitemid 40076332)
33. Samarghandi, M. R., Azizian, S., Shirzad-Siboni, M., Jafari, S. J., & Rahimi, S. (2011). Removal of divalent nickel from aqueous solutions by adsorption onto modified holly sawdust: equilibrium and kinetics. Journal of Environmental Health Science and Engineering, 8, 181-188.
34. Sen, T., Afroze, S., & Ang, H. M. (2011). Equilibrium, kinetics and mechanism of removal of methylene blue from aqueous solution by adsorption onto pine cone biomass of pinus radiata. Water, Air, & Soil Pollution, 218, 499-515.
35. Sengila, I. A., & Ozacarb, M. (2009). The decolorization of C.I. reactive black 5 in aqueous solution by electrocoagulation using sacrificial iron electrodes. Journal of Hazardous Materials, 161, 1369-1376.
36. 2: equilibrium and kinetics study. Journal of Advanced Oxidation Technologies, 14, 302-307.
37. Shirzad-Siboni, M., Samarghandi, M. R., Azizian, S., Kim, W. G., & Lee, S. M. (2011b). The removal of hexavalent chromium from aqueous solutions using modified holly sawdust: equilibrium and kinetics studies. Environmental Engineering Research, 16, 1-6.
38. Shirzad-Siboni, M., Farrokhi, M., Darvishi Cheshmeh Soltani, R., Khataee, A. & Tajassosi, S. (2013a). Photocatalytic reduction of hexavalent chromium over ZnO nanorods immobilized on kaolin. Industrial & Engineering Chemistry Research.
39. Shirzad-Siboni, M., Jafari, S.-J., Farrokhi, M., & Yang, J. K. (2013b). Removal of phenol from aqueous solutions by activated red mud: equilibrium and kinetics studies. Environmental Engineering Research, 18, 247-252.
40. Shirzad-Siboni, M., Jafari, S. J., Giahi, O., Kim, I., Lee, S.-M., & Yang, J.-K. (2014a). Removal of acid blue 113 and reactive black 5 dye from aqueous solutions by activated red mud. Journal of Industrial and Engineering Chemistry, 20, 1432-1437.
41. Shirzad-Siboni, M., Khataee, A., & Joo, S. W. (2014b). Kinetics and equilibrium studies of removal of an azo dye from aqueous solution by adsorption onto scallop. Journal of Industrial and Engineering Chemistry, 20, 610-615.
42. Shirzad-Siboni, M., Khataee, A., Vafaei, F. & Joo, S. (2014b). Comparative removal of two textile dyes from aqueous solution by adsorption onto marine-source waste shell: kinetic and isotherm studies. Korean Journal of Chemical Engineering, 1-9.
43. 4 embedded ZnO nanocomposites for the removal of toxic metal ions, organic dyes and bacterial pathogens. Journal of Materials Chemistry A, 1, 3325-3333.
44. Sun, D., Zhang, X., Wu, Y., & Liu, X. (2010). Adsorption of anionic dyes from aqueous solution on fly ash. Journal of Hazardous Materials, 181, 335-342.
45. Sun, H., Cao, L., & Lu, L. (2011). Magnetite/reduced graphene oxide nanocomposites: one step solvothermal synthesis and use as a novel platform for removal of dye pollutants. Nano Research, 4, 550-562.
46. Uzun, İ. (2006). Kinetics of the adsorption of reactive dyes by chitosan. Dyes and Pigments, 70, 76-83.
47. Walker, G. M., Hansen, L., Hanna, J. A., & Allen, S. J. (2003). Kinetics of a reactive dye adsorption onto dolomitic sorbents. Water Research, 37, 2081-2089. (Pubitemid 36407558)
48. Wang, S., Boyjoo, Y., Choueib, A., & Zhu, Z. H. (2005). Removal of dyes from aqueous solution using fly ash and red mud. Water Research, 39, 129-138. (Pubitemid 40017762)
49. 4 magnetic nanoparticles as peroxidase mimetic. Ultrasonics Sonochemistry, 17, 78-83.
50. 4 nanoparticles with high solubility for removal of heavy-metal ions from waste water. Dalton Transactions, 41, 4544-4551.
51. Wu, Eiteman, M., & Law. (1998). Evaluation of membrane filtration and ozonation processes for treatment of reactive-dye wastewater. Journal of Environmental Engineering, 124, 272-277.
52. 4 nanocomposite and its application in the removal of dye from aqueous solution. Colloids and Surfaces B: Biointerfaces, 101, 210-214.
53. 4 hybrid composite and its application in the removal of dyes from aqueous solution. Journal of Materials Chemistry, 22, 1033-1039.
54. Xue, Y., Hou, H., & Zhu, S. (2009). Adsorption removal of reactive dyes from aqueous solution by modified basic oxygen furnace slag: isotherm and kinetic study. Chemical Engineering Journal, 147, 272-279.
55. Yagub, M., Sen, T., & Ang, H. M. (2012). Equilibrium, kinetics, and thermodynamics of methylene blue adsorption by pine tree leaves. Water, Air, & Soil Pollution, 223, 5267-5282.
56. Zhu, M.-X., Lee, L., Wang, H.-H., & Wang, Z. (2007). Removal of an anionic dye by adsorption/precipitation processes using alkaline white mud. Journal of Hazardous Materials, 149, 735-741. (Pubitemid 350018949)