Ozone-Enhanced Oxidation of Oxalic Acid in Water with Cobalt Catalysts. 2. Heterogeneous Catalytic Ozonation

Beltrán, Fernando J.; Rivas, Francisco Javier; Montero-de-Espinosa, Ramón

doi:10.1021/ie020999u

Cited by 87 publications

(36 citation statements)

References 11 publications

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“…However, the application of ozonation is still limited due to its selective reactions with organic pollutants (Beltrán et al 2003). In order to overcome this limitation, a lot of improved ozonation was developed (Guo et al 2015;Lee et al 2011).…”

Section: Introductionmentioning

confidence: 99%

Fe3O4/multi-walled carbon nanotubes as an efficient catalyst for catalytic ozonation of p-hydroxybenzoic acid

Bai

Yang

Wang

2015

Int. J. Environ. Sci. Technol.

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Fe 3 O 4 /multi-walled carbon nanotubes were prepared, characterized and used as a nanocatalyst for ozonation of p-hydroxybenzoic acid. The stability and reusability of the catalyst was evaluated. Characterization techniques including X-ray diffraction, Fourier transform infrared absorption spectroscopy, scanning electron microscope, high-resolution transmission electron microscopy and physical property measurement were used to analyze the reason for the decrease in catalyst activity. The addition of t-butanol and bicarbonate were used to explore the different process between hydroxyl radicals and ozone. The experimental results showed that the catalytic ozonation could significantly increase the degradation and mineralization of p-hydroxybenzoic acid. The initial pH value was a crucial factor influencing ozone decomposition and the surface property of catalyst or organic pollutant. The degradation of p-hydroxybenzoic acid increased by 32 % in catalyzed ozonation compared to single ozonation after 5 min reaction with unadjusted pH (about 5.4). In batch experiments, the removal efficiency of p-hydroxybenzoic acid and total organic carbon decreased 36.1 and 6.8 % after six run times. Bicarbonate significantly inhibited the mineralization of p-HBA, but it had almost no influence on the catalytic degradation of p-hydroxybenzoic acid. A possible pathway for p-hydroxybenzoic acid degradation was tentatively proposed.

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Section: Introductionmentioning

confidence: 99%

Fe3O4/multi-walled carbon nanotubes as an efficient catalyst for catalytic ozonation of p-hydroxybenzoic acid

Bai

Yang

Wang

2015

Int. J. Environ. Sci. Technol.

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“…MnO 2 , Fe 2 O 3 , Co 3 O 4 , and NiO had been found effective in the catalytic ozonation of oxalic acid but the removal rates at normal pHs in a reasonable reaction time were too low and the ozone doses were too high for practical uses. 5,7,11,12 There are still no data on ozone consumption for oxalate degradation which is critical to evaluate the catalysis efficiency. No evidence shows active sites and active oxidant species that are responsible for oxalate degradation, the information ABSTRACT: The cerium supported palladium oxide (PdO/ CeO 2 ) at a low palladium loading was found very effective in catalytic ozonation of oxalate, a probe compound that is difficult to be efficiently degraded in water with hydroxyl radical oxidation and one of the major byproducts in ozonation of organic matter.…”

Section: ' Introductionmentioning

confidence: 99%

“…It was reported that effective catalytic oxalate degradation with several typical metal oxides were achieved only at much lower pHs (e.g., 4.1 and 3.2 for MnO 2 , 2.5 for Fe 2 O 3 and Co 2 O 3 , and 2.4 for NiO) and continuous ozone introduction during the reaction over 30 min. 5,7,11,12 This binary oxide seems to be more efficient for practical catalytic ozonation reaction.…”

mentioning

confidence: 96%

Catalytic Ozonation of Oxalate with a Cerium Supported Palladium Oxide: An Efficient Degradation Not Relying on Hydroxyl Radical Oxidation

Zhang

Croué

2011

Environ. Sci. Technol.

154

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The cerium supported palladium oxide (PdO/CeO2) at a low palladium loading was found very effective in catalytic ozonation of oxalate, a probe compound that is difficult to be efficiently degraded in water with hydroxyl radical oxidation and one of the major byproducts in ozonation of organic matter. The oxalate was degraded into CO2 during the catalytic ozonation. The molar ratio of oxalate degraded to ozone consumption increased with increasing catalyst dose and decreasing ozone dosage and pH under the conditions of this study. The maximum molar ratio reached around 1, meaning that the catalyst was highly active and selective for oxalate degradation in water. The catalytic ozonation, which showed relatively stable activity, does not promote hydroxyl radical generation from ozone. Analysis with ATR-FTIR and in situ Raman spectroscopy revealed that 1) oxalate was adsorbed on CeO2 of the catalyst forming surface complexes, and 2) O3 was adsorbed on PdO of the catalyst and further decomposed to surface atomic oxygen (*O), surface peroxide (*O2), and O2 gas in sequence. The results indicate that the high activity of the catalyst is related to the synergetic function of PdO and CeO2 in that the surface atomic oxygen readily reacts with the surface cerium-oxalate complex. This kind of catalytic ozonation would be potentially effective for the degradation of polar refractory organic pollutants and hydrophilic natural organic matter.

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“…Beltrán e colaboradores 49 fizeram um estudo mostrando a eficiência do cobalto em solução, imobilizado sobre Al 2 O 3 . Os resultados apresentados para o metal suportado foram bastante promissores e observou-se uma total mineralização do ácido oxálico.…”

Section: Ozônio Catalítico Homogêneounclassified

Métodos emergentes para aumentar a eficiência do ozônio no tratamento de águas contaminadas

Mahmoud¹,

Freire²

2007

Quím. Nova

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Recebido em 30/9/05; aceito em 6/2/06; publicado na web em 30/8/06 NEW METHODS FOR ENHANCING OZONE EFFICIENCY ON CONTAMINATED WATER TREATMENT. Many industrial processes produce effluents with a wide variety of xenobiotic organic pollutants, which cannot be efficiently degraded by conventional biological treatments. Thus, the development of new technologies to eliminate these refractory compounds in water has become very imperative in order to assure the quality of this important resource. Ozonation is a very promising process for the treatment of wastewaters containing non-easily removable organic compounds. The present work aims at highlighting new methods of enhancing the efficiency of ozone towards the removal organic pollutants in aqueous solution. Special attention is given to catalytic ozonation processes contemplating homo-and heterogeneous catalysis, their activity and mechanisms. Recent results and future prospects about the application of these processes to real effluents are also evaluated.Keywords: catalytic ozonation; environmental chemistry; advanced oxidation processes. INTRODUÇÃODesde as últimas décadas do século passado, a sociedade tem adquirido uma conscientização crescente a respeito dos problemas ambientais e seus efeitos para a qualidade de vida desta e das futuras gerações. Apesar disso, a integridade de vários ecossistemas vem sendo afetada, de maneira preocupante, por uma série de atividades antropogênicas, levando a um risco de degradação irreversível do meio ambiente.Neste panorama, as preocupações com o uso e a qualidade da água adquirem especial importância devido à relevância deste recurso e ao aumento desenfreado de sua demanda, resultante principalmente do crescimento acelerado da população e estilo de vida da sociedade contemporânea (que dentre outras coisas, prima por padrões de conforto e bem-estar em detrimento do equilíbrio dos recursos naturais). De fato, é difícil imaginar qualquer tipo de organização dos seres humanos em sociedade que dispense o uso da água, uma vez que esta substância é essencial não somente para a manutenção das atividades biológicas básicas (a água compõe parte significativa das células de todos os seres vivos, estando envolvida em processos de transporte de nutrientes e dejetos; manutenção de temperatura; produção e armazenamento de energia, etc.), mas também para o desenvolvimento das atividades produtivas (agrícolas ou industriais).Talvez por ser relativamente abundante, a água tornou-se tão banal que sua presença, embora indispensável, não desperta a merecida atenção e valorização. Apesar da água ser um recurso natural renovável (qualquer que seja seu uso, no final ela é restituída ao ambiente/origem), durante muito tempo teve-se uma concepção errônea de inesgotabilidade desta substância. Embora seja verdade que o homem não faça a água simplesmente desaparecer da natureza (como tem feito com florestas e algumas reservas minerais), a qualidade de uma infinidade de recursos hídricos tem sido seriamente comprometida 1,2 .Dentre as várias atividades ant...

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Ozone-Enhanced Oxidation of Oxalic Acid in Water with Cobalt Catalysts. 2. Heterogeneous Catalytic Ozonation

Cited by 87 publications

References 11 publications

Fe3O4/multi-walled carbon nanotubes as an efficient catalyst for catalytic ozonation of p-hydroxybenzoic acid

Fe3O4/multi-walled carbon nanotubes as an efficient catalyst for catalytic ozonation of p-hydroxybenzoic acid

Catalytic Ozonation of Oxalate with a Cerium Supported Palladium Oxide: An Efficient Degradation Not Relying on Hydroxyl Radical Oxidation

Métodos emergentes para aumentar a eficiência do ozônio no tratamento de águas contaminadas

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