The degradation and mineralization of catechol using ozonation catalyzed with MgO/GAC composite in a fluidized bed reactor

Chemical Engineering Journal

Volumn 249, Issue , 2014, Pages 302-310

  Moussavi, Gholamreza ^a   Aghapour, Ali Ahmad ^a   Yaghmaeian, Kamyar ^b  

^a TARBIAT MODARES UNIVERSITY   (Iran)

^b TEHRAN UNIVERSITY OF MEDICAL SCIENCES   (Iran)

Author keywords

Catalyst; Catechol; Degradation; MgO GAC; Mineralization; Ozonation

Indexed keywords

BATCH REACTORS; CATALYSTS; CATALYTIC OXIDATION; DEGRADATION; FLUID CATALYTIC CRACKING; FLUIDIZED BEDS; MICROPOROUS MATERIALS; OZONE; OZONE WATER TREATMENT; OZONIZATION; PHENOLS; RATE CONSTANTS; SOL-GELS;

CATALYTIC OZONATION; CATALYTIC POTENTIAL; CATECHOL; CATECHOL OXIDATION; FLUIDIZED BED REACTORS; FREE HYDROXYL RADICALS; MGO; MINERALIZATION;

MINERALOGY;

EID: 84899519338     PISSN: 13858947     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.cej.2014.03.059     Document Type: Article

References (34)

1. Aghapour A.A., Moussavi G., Yaghmaeian K. Investigating the performance of a novel cyclic rotating-bed biological reactor compared with a sequencing continuous-inflow reactor for biodegradation of catechol in wastewater. Bioresour. Technol. 2013, 138:369-372.
2. Aghapour A.A., Moussavi G., Yaghmaeian K. Biological degradation of catechol in wastewater using the sequencing continuous-inflow reactor (SCR). Iran J. Environ. Health 2013, 11:1.
3. Pramparo L., Suárez-Ojeda M.E., Pérez J., Carrera J. Kinetics of aerobic biodegradation of dihydroxybenzenes by a p-nitrophenol-degrading activated sludge. Bioresour. Technol. 2012, 110:57-62.
4. Lofrano G., Rizzo L., Grassi M., Belgiorno V. Advanced oxidation of catechol: A comparison among photocatalysis Fenton and photo-Fenton processes. Desalination 2009, 249:878-883.
5. Hsu Y.-C., Yang H.-C., Liu J.-W., Chen J.-H. The ozonations of catechol and hydroquinone solutions using gas-inducing reactor. J. Chin. Inst. Environ. Eng. 2003, 13:151-158.
6. Kumar A., Kumar S., Kumar S. Adsorption of resorcinol and catechol on granular activated carbon: equilibrium and kinetics. Carbon 2003, 41:3015-3025.
7. 2 thin films supported on Al sheet. Water Res. 2003, 37:3646-3651.
8. Mandal A., Ojha K., De A.K., Bhattacharjee S. Removal of catechol from aqueous solution by advanced photo-oxidation process. Chem. Eng. J. 2004, 102:203-208.
9. Chang Chien S.W., Chen H.L., Wang M.C., Seshaiah K. Oxidative degradation and associated mineralization of catechol, hydroquinone and resorcinol catalyzed by birnessite. Chemosphere 2009, 74:1125-1133.
10. Latkar M., Swaminathan K., Chakrabarti T. Kinetics of anaerobic biodegradation of resorcinol catechol and hydroquinone in upflow fixed film-fixed bed reactors. Bioresour. Technol. 2003, 88:69-74.
11. Subramanyam R., Mishra I.M. Biodegradation of catechol (2-hydroxy phenol) bearing wastewater in an UASB reactor. Chemosphere 2007, 69:816-824.
12. Subramanyam R., Mishra I.M. Co-degradation of resorcinol and catechol in an UASB reactor. Bioresour. Technol. 2008, 99:4147-4157.
13. 3-BAC processes for removing refractory and hazardous pollutants in raw water. J. Hazard. Mater. 2006, 135:129-133.
14. Moussavi G., khavanin A., Alizadeh R. The integration of ozonation catalyzed with MgO nanocrystals and the biodegradation for the removal of phenol from saline wastewater. Appl. Catal. B - Environ. 2010, 97:160-167.
15. Moussavi G., Khavanin A., Alizadeh R. The investigation of catalytic ozonation and integrated catalytic ozonation/biological processes for the removal of phenol from saline wastewaters. J. Hazard. Mater. 2009, 171:175-181.
16. Nawrocki J., Kasprzyk-Hordern B. The efficiency and mechanisms of catalytic ozonation. Appl. Catal. B - Environ. 2010, 99:27-42.
17. Gulková D., Šolcová O., Zdražil M. Preparation of MgO catalytic support in shaped mesoporous high surface area form. Micropor. Mesospor. Mater. 2004, 76:137-149.
18. Mehta M., Mukhopadhyay M., Christian R., Mistry N. Synthesis and characterization of MgO nanocrystals using strong and weak bases. Powder Technol. 2012, 226:213-221.
19. Faria P.C.C., Órfão J.J.M., Pereira M.F.R. Activated carbon and ceria catalysts applied to the catalytic ozonation of dyes and textile effluents. Appl. Catal. B - Environ. 2009, 88:341-350.
20. 2 activation by using activated carbon as a support Part II. photoreactivity FTIR study. Appl. Catal. B - Environ. 2003, 44:153-160.
21. Kasprzyk-Hordern B., Ziółek M., Nawrocki J. Catalytic ozonation and methods of enhancing molecular ozone reactions in water treatment. Appl. Catal. B - Environ. 2003, 46:639-669.
22. Moussavi G., Mahmoudi M. Degradation and biodegradability improvement of the reactive red 198 azo dye using catalytic ozonation with MgO nanocrystals. Chem. Eng. J. 2009, 152:1-7.
23. Mohandes F., Davar F., Salavati-Niasari M. Magnesium oxide nanocrystals via thermal decomposition of magnesium oxalate. J. Phys. Chem. Solids 2010, 71:1623-1628.
24. APHA, AWWA, WEF Standard Methods for the Examination of Water and Wastewater 1998, APHA, Washington, DC. 20th ed.
25. ICDD, JCPDS - International Centre For Diffraction Data, All rights reserved PCPDFWIN, 1999.
26. Moussavi G., Mahmoudi M. Removal of azo and anthraquinone reactive dyes from industrial wastewaters using MgO nanoparticles. J. Hazard. Mater. 2009, 168:806-812.
27. 4Cl-induced activated carbon for the removal of amoxicillin antibiotic from water. Chem. Eng. J. 2013, 217:119-128.
28. 4 nanoparticles. B. Kor. Chem. Soc. 2010, 31:2830-2834.
29. Legube B., Karpel Vel Leitner N. Catalytic ozonation: a promising advanced oxidation technology for water treatment. Catal. Today 1999, 53:61-72.
30. Wang H.C., Chang S.H., Hung P.C., Hwang J.F., Chang M.B. Synergistic effect of transition metal oxides and ozone on PCDD/F destruction. Appl. Catal. B - Environ. 2009, 164:1452-1459.
31. Zhang T., Li C., Ma J., Tian H., Qiang Z. Surface hydroxyl groups of synthetic α-FeOOH in promoting OH generation from aqueous ozone: property and activity relationship. Appl. Catal. B - Environ. 2008, 82:131-137.
32. Moussavi G., Khosravi R., Omran N.R. Development of an efficient catalyst from magnetite ore: characterization and catalytic potential in the ozonation of water toxic contaminants. Appl. Catal. A - General 2012, 445-446:42-49.
33. Lan B., Huang R., Li L., Yan H., Liao G., Wang X., Zhang Q. Catalytic ozonation of p-chlorobenzoic acid in aqueous solution using Fe-MCM-41 as catalyst. Chem. Eng. J. 2013, 219:346-354.
34. Dehouli H., Chedeville O., Cagnon B.t., Caqueret V., Porte C. Influences of pH, temperature and activated carbon properties on the interaction ozone/activated carbon for a wastewater treatment process. Desalination 2010, 254:12-16.