Catalytic degradation of picric acid by heterogeneous Fenton‐based processes

Dulova, Niina; Trapido, Marina; Dulov, Aleksandr

doi:10.1080/09593330.2010.501823

Cited by 41 publications

(23 citation statements)

References 18 publications

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“…The amount of the total dissolved iron in the bulk solution for H 2 O 2 /α-FeOOH system was less than 0.03 mg L -1 after 120 min of oxidation, indicating solely heterogeneous pathway of reaction. Some decrease in H 2 O 2 concentration observed during the goethite catalyzed Fenton-based oxidation is most likely due to partial H 2 O 2 decomposes to oxygen and water at the surface of the heterogeneous catalysts without producing dissolved radicals [10]. Prolonged experiments with overall duration of 24 h resulted in negligible degradation of DCF with less than 5% removal.…”

Section: The Fenton and Photo-fenton Treatmentmentioning

confidence: 99%

“…The application of heterogeneous catalyst (e.g. naturally occurring minerals) in the Fenton treatment overcomes the above-mentioned problems and results in extended periods of catalyst life without requiring regeneration or replacement, in easy removal of the catalyst from the treated water by sedimentation or filtration, and in Fenton-like reactions over a wide range of pH value [10]. The heterogeneous Fentonbased processes involving naturally occurring minerals (hematite a-Fe 2 O 3 , goethite a-FeOOH, magnetite Fe 3 O 4 , etc.)…”

Section: Journal Ofmentioning

confidence: 99%

“…As to the heterogeneous Fenton process, the goethite catalysed Fenton-based reaction is a surface controlled process that depends on H 2 O 2 concentration, on the iron mineral surface area and on other system parameters (pH, etc.). The overall heterogeneous reaction will include various steps such as diffusion of chemicals to the surface, surface complex formation, actual electron transfer, desorption of products, and regeneration of the reactive sites [10].…”

Section: The Fenton and Photo-fenton Treatmentmentioning

confidence: 99%

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Degradation of diclofenac in aqueous solution by homogeneous and heterogeneous photolysis

Trapido¹,

Epold²,

Dulova³

2012

J Environ Eng Ecol Sci

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Background: Pharmaceuticals have arisen as emerging environmental pollutants due to their potential impact on humans, animals and microorganisms even at low concentrations. Conventional wastewater treatment plants are known to be ineffective for removal of many pharmaceuticals present in wastewater. Advanced oxidation processes are one of the most promising treatment technologies for degradation of such persistent compounds. The current study was focused on the efficacies of various oxidation processes for degradation of diclofenac (DCF) as one of the most widespread pharmaceuticals.

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Section: The Fenton and Photo-fenton Treatmentmentioning

confidence: 99%

Section: Journal Ofmentioning

confidence: 99%

Section: The Fenton and Photo-fenton Treatmentmentioning

confidence: 99%

See 1 more Smart Citation

Degradation of diclofenac in aqueous solution by homogeneous and heterogeneous photolysis

Trapido¹,

Epold²,

Dulova³

2012

J Environ Eng Ecol Sci

Self Cite

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“…Therefore, in the past decades, different chemical treatment technologies have been developed, and advanced oxidation processes (AOPS) such as Fenton oxidation [4], ozone oxidation [5] and UV oxidation [6] have been extensively studied on aniline oxidation. The use of hydrogen peroxide as a kind of clean oxidizing agent in the presence of catalyst in different oxidation reactions has been wide studied [7,8].…”

Section: Introductionmentioning

confidence: 99%

Catalytic wet peroxide oxidation of aniline in wastewater using copper modified SBA-15 as catalyst

Kong

Zhou

Yao

et al. 2015

Environmental Technology

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SBA-15 mesoporous molecular sieves modified with copper (Cu-SBA-15) were prepared by pH-adjusting hydrothermal method and characterized by X-ray diffraction, BET, transmission electron microscopy, UV-Vis and (29)Si MAS NMR. The pH of the synthesis gel has a significant effect on the amount and the dispersion of copper on SBA-15. The Cu-SBA-15(4.5) (where 4.5 denotes the pH value of the synthesis gel) modified with highly dispersed copper was used as catalyst for the oxidation of aniline by H2O2. The Cu-SBA-15(4.5) shows a higher catalytic activity compared to CuO on the surface of SBA-15. The influences of reaction conditions, such as initial pH of the aqueous solutions, temperature, as well as the dosages of H2O2 and catalyst were investigated. Under weakly alkaline aqueous solution conditions, the aniline conversion, the H2O2 decomposition and the total organic carbon (TOC) removal could be increased significantly compared to the acid conditions. The percentage of leaching Cu(2+) could be decreased from 45.0% to 3.66% when the initial pH of solution was increased from 5 to 10. The TOC removal could be enhanced with the increases of temperature, H2O2 and catalyst dosage, but the aniline conversion and H2O2 decomposition change slightly with further increasing dosage of catalyst and H2O2. At 343 K and pH 8.0, 100% aniline conversion and 66.9% TOC removal can be achieved under the conditions of 1.0 g/L catalyst and 0.05 mol/L H2O2 after 180 min. Although copper might be slightly leached from catalyst, the homogeneous Cu(2+) contribution to the whole catalytic activity is unimportant, and the highly dispersed copper on SBA-15 plays a dominant role.

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“…Various heterogeneous catalysts have been developed, such as natural minerals [5], iron-containing clays [6], iron immobilized on solid support [7] and zero-valent [8] [9].…”

Section: Introductionmentioning

confidence: 99%

Reuse of Ferric Sludge by Ferrous Sulfide in the Fenton Process for Nonylphenol Ethoxylates Wastewater Treatment

Zhou¹,

Zhang²

2017

CWEEE

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In this paper, Fenton process was determined to be an effective technique to treat the refractory nonylphenol ethoxylates (NPEOs) wastewater. The chemical oxygen demand (COD) removal efficiencies above 89% were obtained when the initial COD concentration was 12,000 mg/L. However, a large amount of ferric sludge (SS = 8.724 g/L) would be produced after the Fenton oxidation of the wastewater and must be disposed appropriately. A novel process for Fenton sludge reused by low-cost ferrous sulfide (FeS) was also investigated. Experimental results show that the Fenton sludge could be reduced to produce a certain amount of Fe 2+ in the acidic mixed liquor byFeS. This mixed liquor from Fenton sludge could be used as the new catalyst in the Fenton process and was also highly effective for the NPEOs wastewater treatment. The residual FeS from the mixed liquor could be used for the next batch of the reaction.

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Catalytic degradation of picric acid by heterogeneous Fenton‐based processes

Cited by 41 publications

References 18 publications

Degradation of diclofenac in aqueous solution by homogeneous and heterogeneous photolysis

Degradation of diclofenac in aqueous solution by homogeneous and heterogeneous photolysis

Catalytic wet peroxide oxidation of aniline in wastewater using copper modified SBA-15 as catalyst

Reuse of Ferric Sludge by Ferrous Sulfide in the Fenton Process for Nonylphenol Ethoxylates Wastewater Treatment

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