Kinetics of Catalytic Ozonation of Oxalic Acid in Water with Activated Carbon

Beltrán, Fernando J.; Rivas, Francisco Javier; Fernández, L.; Alvarez, Pedro; Montero-de-Espinosa, Ramón

doi:10.1021/ie020311d

Cited by 140 publications

(77 citation statements)

References 20 publications

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“…Below pH 6, no free hydroxyl radicals should be produced, as reported for ozonation in the presence of activated carbon [14]. Thus, ozonation of oxalic acid is expected to proceed exclusively through a reaction with molecular ozone, and even higher effectiveness should be obtained [4,12,42].…”

Section: Role Of the Exchangeable Cationmentioning

confidence: 81%

“…This suggests a progressive attenuation of the direct oxidation of adsorbed oxalic acid by molecular ozone. This process is supposed to take place preponderantly below pH 6, while the formation of OH radicals should be of minor importance below neutral pH [14,35].…”

Section: Effect Of the Initial Phmentioning

confidence: 99%

“…For instance, nearly thorough mineralization of oxalic acid was achieved in the presence of activated carbon [14]. Reportedly, the mere presence of dispersed solids, such as alumina alone [15] or containing CuO [16], or TiO 2 [1,2] significantly improves the ozonation effectiveness towards various organic pollutants.…”

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confidence: 99%

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Ozonation of oxalic acid catalyzed by ion-exchanged montmorillonite in moderately acidic media

Azzouz

Kotbi

Niquette

et al. 2010

Reac Kinet Mech Cat

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Ion-exchanged montmorillonite-rich materials (ca. 96% purity) like NaMt, Fe(II)Mt, Co(II)Mt, Ni(II)Mt and Cu(II)Mt showed catalytic activity in the ozonation of oxalic acid in water at room temperature, in the pH range 3.4-6.0. The conversion of oxalic acid exceeds 95% after 180 min of ozone bubbling in the presence of Fe(II)Mt. The oxalic acid removal efficiency was found to increase swiftly with the acid character of the clay surface up to a certain level, but decreases gently with excessive surface acidity. The pH exerts a strong influence on the catalyst efficiency, because it induces changes in the composition of both the liquid media and catalyst. The synergic action of ozone and clay catalysts at acidic pH seems to involve ozone adsorption and interaction between cation and adsorbed oxalate. The negative effect of increasing pH between 3.44 and 6.0 is discussed in terms of a decrease in the amount and mobility of the cation in the vicinity of the clay surface, and of a decay in the clay surface area available to ozonation.

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Section: Role Of the Exchangeable Cationmentioning

confidence: 81%

Section: Effect Of the Initial Phmentioning

confidence: 99%

See 1 more Smart Citation

Ozonation of oxalic acid catalyzed by ion-exchanged montmorillonite in moderately acidic media

Azzouz

Kotbi

Niquette

et al. 2010

Reac Kinet Mech Cat

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“…A few catalysts have been reported to enhance the ozonation of oxalic acid in aqueous solution. Among them, activated carbon was shown to be an effective catalyst for the mineralization of this particular compound [4,13]. In a previous work [8], cerium oxide-containing catalysts were also found to be highly active for the mineralization of this compound.…”

Section: Benzenesulfonic Acidmentioning

confidence: 90%

Mineralization of Substituted Aromatic Compounds by Ozonation Catalyzed by Cerium Oxide and a Cerium Oxide-activated Carbon Composite

2008

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Cerium oxide (Ce-O) and a novel cerium oxide-activated carbon composite (AC 0 -Ce-O) were tested in the ozonation of three selected aromatic compounds: benzenesulfonic acid, sulfanilic acid and aniline. The catalysts performance was compared to that obtained with the commercial activated carbon. All the tested materials enhanced the mineralization of the selected compounds. Generally, best results were achieved with the AC 0 -Ce-O composite.

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“…Activated carbon has been appointed as a very good catalyst in the ozone decomposition [16,17] and in the mineralisation of dyes [18][19][20][21], aromatic compounds [22][23][24][25][26][27] and carboxylic acids [28][29][30].…”

Section: Introductionmentioning

confidence: 99%

Development of Novel Mesoporous Carbon Materials for the Catalytic Ozonation of Organic Pollutants

et al. 2009

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Mesoporous carbon materials prepared via SBA-15 templating and carbon xerogels were tested as catalysts for the ozonation of organic pollutants, and their performances compared to activated carbons. Kinetic results showed that only the combination of the mesoporous carbons with ozone may lead to total mineralisation. The roles of surface chemistry and textural parameters of the catalysts are discussed.

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Kinetics of Catalytic Ozonation of Oxalic Acid in Water with Activated Carbon

Cited by 140 publications

References 20 publications

Ozonation of oxalic acid catalyzed by ion-exchanged montmorillonite in moderately acidic media

Ozonation of oxalic acid catalyzed by ion-exchanged montmorillonite in moderately acidic media

Mineralization of Substituted Aromatic Compounds by Ozonation Catalyzed by Cerium Oxide and a Cerium Oxide-activated Carbon Composite

Development of Novel Mesoporous Carbon Materials for the Catalytic Ozonation of Organic Pollutants

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