UV/H2O2, O3 and (photo-) Fenton as treatment prior to granular activated carbon filtration of biologically stabilized landfill leachate

Journal of Chemical Technology and Biotechnology

Volumn 90, Issue 3, 2015, Pages 525-533

  Chys, Michael ^a   Declerck, Wesley ^a   Audenaert, Wim T M ^a   Van Hulle, Stijn W H ^a  

^a GHENT UNIVERSITY   (Belgium)

Author keywords

Advanced oxidation processes (AOPs); Economical evaluation; Granular activated carbon (GAC); Humic acids; Landfill leachate

Indexed keywords

ACTIVATED CARBON; ADSORPTION; CARBON; CHEMICAL OXYGEN DEMAND; COST REDUCTION; ENVIRONMENTAL IMPACT; GRANULAR MATERIALS; LAND FILL; OXIDATION; OXIDATION RESISTANCE; OZONE; OZONIZATION;

ADVANCED OXIDATION PROCESS; ECONOMICAL EVALUATION; GRANULAR ACTIVATED CARBONS; HUMIC ACID; LANDFILL LEACHATES;

LEACHATE TREATMENT;

ACTIVATED CARBON; FERROUS GLUCONATE; HYDROGEN PEROXIDE; HYDROXYL RADICAL; OXYGEN; OZONE;

ADSORPTION; ARTICLE; BIOCHEMICAL OXYGEN DEMAND; CARBON SOURCE; CHEMICAL OXYGEN DEMAND; CONTROLLED STUDY; COST BENEFIT ANALYSIS; FILTER; FILTRATION; GRANULAR ACTIVATED CARBON FILTRATION; INTERMETHOD COMPARISON; LANDFILL LEACHATE; OZONATION; RADIATION ABSORPTION; RECYCLING; ULTRAVIOLET IRRADIATION;

EID: 84922942177     PISSN: 02682575     EISSN: 10974660     Source Type: Journal    
DOI: 10.1002/jctb.4344     Document Type: Article

References (37)

1. Renou S, Givaudan JG, Poulain S, Dirassouyan F and Moulin P, Landfill leachate treatment: review and opportunity. J Hazard Mater 150:468-493 (2008).
2. European Environment Agency (EEA), EEA Report No 7/2009: Diverting waste from landfill - effectiveness of waste-management policies in the European Union, Copenhagen, Denmark (2009).
3. Council of the European Union, Directive 1999/31/EC 'landfill of waste, ' (1999).
4. Wiszniowski J, Robert D, Surmacz-Gorska J, Miksch K and Weber JV, Landfill leachate treatment methods: a review. Environ Chem Lett 4:51-61 (2006).
5. De Morais JL and Zamora PP, Use of advanced oxidation processes to improve the biodegradability of mature landfill leachates. J Hazard Mater 123:181-186 (2005).
6. Del Moro G, Mancini A, Mascolo G and Di Iaconi C, Comparison of UV/H2O2 based AOP as an end treatment or integrated with biological degradation for treating landfill leachates. Chem Eng J 218:133-137 (2013).
7. Shu H, Fan H, Chang M and Hsieh W, Treatment of MSW landfill leachate by a thin gap annular UV/H2O2 photoreactor with multi-UV lamps. J Hazard Mater 129:73-79 (2006).
8. Abu Amr SS, Aziz HA, Adlan MN and Aziz SQ, Effect of ozone and ozone/Fenton in the advanced oxidation process on biodegradable characteristics of semi-aerobic stabilized leachate. CLEAN 41:148-152 (2012).
9. Di Iaconi C, Antonio L and Ried A, Ozone-enhanced biological treatment of wastewater with high COD content. In IWA World Water Congress 2012, Proceedings, Busan, Korea (2012).
10. Silva AC, Dezotti M and Sant'Anna GL, Treatment and detoxification of a sanitary landfill leachate. Chemosphere 55:207-214 (2004).
11. Van Aken P, Lambert N, Degrève J, Liers S and Luyten J, Comparison of different oxidation methods for recalcitrance removal of landfill leachate. Ozone Sci Eng 33:294-300 (2011).
12. Anfruns A, Gabarró J, Gonzalez-Olmos R, Puig S, Balaguer MD and Colprim J, Coupling anammox and advanced oxidation-based technologies for mature landfill leachate treatment. J Hazard Mater 258-259:27-34 (2013).
13. Deng Y and Englehardt JD, Treatment of landfill leachate by the Fenton process. Water Res 40:3683-3694 (2006).
14. Lau IWC, Wang P and Fang HHP, Organic removal of anaerobically treated leachate by Fenton coagulation. J Environ Eng 127:666-669 (2001).
15. Wang P, Lau IWC, Fang HHP and Zhou D, Landfill leachate treatment with combined uasb and fenton coagulation. J Environ Sci Health Part A 35:1981-1988 (2000).
16. Lau IWC, Wang P, Chiu SST and Fang HHP, Photoassisted fenton oxidation of refractory organics in UASB-pretreated leachate. J Environ Sci 14:388-392 (2002).
17. Cataldo F and Angelini G, Municipal landfill leachate treatment using the combined action of activated carbon and ozone. Ozone Sci Eng 35:55-62 (2013).
18. Audenaert WTM, Vandierendonck D, Van Hulle SWH and Nopens I, Comparison of ozone and HO·induced conversion of effluent organic matter (EfOM) using ozonation and UV/H2O2 treatment. Water Res 47:2387-2398 (2013).
19. Zimmermann SG, Wittenwiler M, Hollender J, Krauss M, Ort C, Siegrist H and von Gunten U, Kinetic assessment and modeling of an ozonation step for full-scale municipal wastewater treatment: micropollutant oxidation, by-product formation and disinfection. Water Res 45:605-617 (2011).
20. Liu W, Andrews SA, Stefan MI and Bolton JR, Optimal methods for quenching H2O2 residuals prior to UFC testing. Water Res 37:3697-3703 (2003).
21. Clesceri LS, Greenberg AE and Eaton AD, Standard Methods for the Examination of Water and Wastewater, APHA American Public Health Association, Washington, DC (1998).
22. Box GEP and Behnken DW, Some new three level designs for the study of quantitative variables. Technometrics 2:455-475 (1960).
23. Beaman MS, Lambert SD, Graham NJD and Anderson R, Role of ozone and recirculation in the stabilization of landfills and leachates. Ozone Sci Eng 20:121-132 (1998).
24. Karrer N, Applicability test for combined biological-chemical treatment of wastewaters containing biorefractory compounds. Water Res 31:1013-1020 (1997).
25. Marttinen S, Kettunen R, Sormunen K, Soimasuo R and Rintala J, Screening of physical-chemical methods for removal of organic material, nitrogen and toxicity from low strength landfill leachates. Chemosphere 46:851-858 (2002).
26. Aziz SQ, Aziz HA, Yusoff MS, Moijiri A and Abu Amr SS, Adsorption isotherms in landfill leachate treatment using powdered activated carbon augmented sequencing batch reactor technique: statistical analysis by response surface methodology. Int J Chem Reactor Eng 10: (2012).
27. Kurniawan TA, Lo W and Chan GYS, Radicals-catalyzed oxidation reactions for degradation of recalcitrant compounds from landfill leachate. Chem Eng J 125:35-57 (2006).
28. Hermosilla D, Cortijo M and Huang CP, Optimizing the treatment of landfill leachate by conventional Fenton and photo-Fenton processes. Sci Total Environ 407:3473-3481 (2009).
29. Li W, Zhou Q and Hua T, Removal of organic matter from landfill leachate by advanced oxidaion processes: a review. Int J Chem Eng 2010: (2010).
30. Zhang H, Choi HJ and Huang C-P, Optimization of Fenton process for the treatment of landfill leachate. J Hazard Mater 125:166-174 (2005).
31. Tizaoui C, Bouselmi L, Mansouri L and Ghrabi A, Landfill leachate treatment with ozone and ozone/hydrogen peroxide systems. J Hazard Mater 140:316-324 (2007).
32. Nöthe T, Fahlenkamp H and von Sonntag C, Ozonation of wastewater: rate of ozone consumption and hydroxyl radical yield. Environ Sci Technol 43:5990-5995 (2009).
33. Cortez S, Teixeira P, Oliveira R and Mota M, Ozonation as polishing treatment of mature landfill leachate. J Hazard Mater 182:730-734 (2010).
34. Chaturapruek A, Visvanathan C and Ahn KH, Ozonation of membrane bioreactor effluent for landfill leachate treatment. Environ Technol 26:65-73 (2005).
35. Cañizares P, Paz R, Sáez C and Rodrigo MA, Costs of the electrochemical oxidation of wastewaters: a comparison with ozonation and Fenton oxidation processes. J Environ Manage 90:410-420 (2009).
36. Ried A, Mielcke J and Wieland A, The potential use of ozone in municipal wastewater. Ozone Sci Eng 31:415-421 (2009).
37. Yoo H-C, Cho S-H and Ko S-O, Modification of coagulation and fenton oxidation processes for cost-effectieve leachate treatment. J Environ Sci Health Part A 36:39-48 (2001).