A comparative study of the electrochemical oxidation of the herbicide tebuthiuron using boron-doped diamond electrodes

Alves, Suellen Aparecida; Ferreira, Tanare C. R.; Sabatini, N.S.; Trientini, A.C.A.; Migliorini, Fernanda L.; Baldan, Maurício Ribeiro; Ferreira, N.G.; Lanza, Marcos R.V.

doi:10.1016/j.chemosphere.2012.02.042

Cited by 60 publications

(40 citation statements)

References 24 publications

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“…Mais detalhes sobre a configuração deste reator podem ser obtidos em Alves et al 21 A técnica de deposição química a partir da fase vapor assistida por filamento quente (HFCVD) foi utilizada para obter o filme de diamante dopado com boro, que foram crescidos sobre peça de Titânio com dimensão de 25 mm x 25 mm x 0,5 mm, resultando em um eletrodo de trabalho com área geométrica de 4,15 cm 2 . .…”

Section: Degradação Eletroquímicaunclassified

“…Tendo em vista que os eletrodos do tipo DDB suportados em silício são frágeis e apresentam baixa condutividade, e o nióbio é um material com elevado custo, os eletrodos do tipo DDB suportados em titânio (Ti/DDB) têm se destacado em aplicações ambientais, mais especificamente na descontaminação de água poluídas com contaminantes orgânicos por processos de oxidação eletroquímica. 15,[20][21][22][23][24] Tal relevância também é devida às propriedades como alta área superficial, baixo custo, alta condutividade, resistência mecânica e resistência à corrosão. 19 No entanto, o eletrodo de Ti/DDB ainda apresenta problemas de delaminação e desprendimento dos filmes, o que motiva o estudo desse eletrodos.…”

Section: Introductionunclassified

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Electrochemical Oxidation of Reactive Black 5 and Blue 19 Dyes Using a Non Commercial Boron-Doped Diamond Electrode

Vasconcelos¹,

Souza²,

Guaraldo³

et al. 2016

Química Nova

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respectively azo and anthraquinone textile dyes, by electrochemical oxidation using a non commercial boron doped diamond electrode supported on titanium metallic with a relation between B and C equal to 15,000 ppm. Pt was used as counter electrode and Ag/AgCl (sat) was the reference electrode. The variables investigated to optimize the degradation were support electrolyte concentration (0.05, 0.1 and 0.2 mol L -1 of K 2 SO 4 ), temperature (25, 35 and 45 ºC) and pH (2.5 and 10) by applying a current density of 75 mA cm -2. Total decolorization was observed in all electrochemical conditions studied. The highest rates of mineralization and chromatographic area removal were attained at high support electrolyte concentration due to the increase of conductivity, which caused more generation of hydroxyl radicals. RP5 was degraded at lower electrolysis time than RA19 with smaller requirement of electric charge. The mineralization rate increased in acid medium and at higher temperature since the increase in temperature favors the generation reactions of persulfate. These conditions led to the highest levels of current efficiencies and lower energy consumed.Keywords: boron-doped diamond electrode; Reactive Black 5; Reactive Blue 19; decolorization; hydroxyl radical; persulfate. INTRODUÇÃOOs corantes sintéticos são compostos de extrema importância para o setor industrial, principalmente, para as indústrias têxteis que são responsáveis pela enorme descarga de efluentes contendo corantes e outros resíduos indesejáveis, sendo potenciais poluidoras ambientais. 1-4Os efluentes têxteis apresentam alta demanda química e biológica de oxigênio, elevada salinidade e intensa coloração devido à presença de corantes, os quais são fotolítica e quimicamente estáveis, podem exibir toxicidade aguda e serem carcinogênicos e/ou mutagênicos. Sendo assim, quando os corantes são descartados incorretamente no meio ambiente podem ocasionar problemas ambientais e, sobretudo, ser nocivos à saúde humana e dos animais. 5,6 Os corantes reativos, por exemplo, são solúveis em água, aniôni-cos e ligam-se às fibras do tecido por meio de ligações covalentes, pela reação de adição nucleofílica do grupo vinilsulfona ao grupo hidroxila da celulose, o que confere ao tecido tingido alta estabilidade da cor adquirida. 7,8 Entretanto, esses corantes apresentam baixa eficiência de fixação às fibras devido à competitividade de duas reações, a primeira sendo do grupo reativo vinilsulfona com as fibras e a segunda a reação de hidrólise do grupo vinilsulfona produzindo o 2-hidroxietilsulfona, que não se fixa a fibra e é perdido no efluente.9 As Figuras 1a e 1b ilustram as estruturas moleculares de dois corantes reativos, o Reativo Preto 5 (RP5) e o Azul (RA19), respectivamente, que apresentam como grupo reativo a sulfatoetilsulfonila.O corante RP5, com grupo cromóforo azo, é um dos corantes mais utilizados no tingimento de algodão, no qual emprega-se, aproximadamente, 40 g do corante dissolvidos em 70 a 150 L de água para cada kg de algodão tingido. 10 No entanto, ...

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Section: Degradação Eletroquímicaunclassified

Section: Introductionunclassified

Electrochemical Oxidation of Reactive Black 5 and Blue 19 Dyes Using a Non Commercial Boron-Doped Diamond Electrode

Vasconcelos¹,

Souza²,

Guaraldo³

et al. 2016

Química Nova

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“…In particular, electrochemical technology using boron-doped diamond (BDD) anodes appears to be the most suitable technology because it has important properties of an extremely wide potential window, very low background current, and robust oxidation capacity (Panizza and Cerisola 2005;Martinez-Huitle and Brillas 2008;Jeong et al 2009). Meanwhile, electrochemical technology using BDD anodes has been used to treat different organic pollutants and different types of wastewater, such as phenol and its derivatives (Pereira et al 2012;Nejmeddine et al 2013), oxalic and oxamic acids (Garcia-Segura and Brillas 2011), salicylic acid (Nejmeddine and Mohamed 2012), sulfanilic acid (El-Ghenymy et al 2012), herbicide (Alves et al 2012), dyes (Costa et al 2009), reverse osmosis concentrate (Bagastyo et al 2013), coking wastewater (Zhu et al 2009), and landfill leachate (Anglada et al 2011). Research on the above organic degradation by a BDD anode has mainly focused on four aspects: (1) investigating variable effects, (2) identifying the oxidation pathway, (3) exploring degradation kinetics, and (4) comparing the organic removal efficiency between BDD anodes and electrodes made of other materials.…”

Section: Introductionmentioning

confidence: 98%

Effluent characteristics of advanced treatment for biotreated coking wastewater by electrochemical technology using BDD anodes

Wang

Zhang

Liu

et al. 2014

Environ Sci Pollut Res

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Effluent of biotreated coking wastewater comprises hundreds of organic and inorganic pollutants and has the characteristics of high toxicity and difficult biodegradation; thus, its chemical oxygen demand cannot meet drainage standards in China. A boron-doped diamond anode was selected for advanced treatment of biotreated coking wastewater, and considering the efficiency of the removal of total organic carbon and energy consumption, optimal conditions were obtained as current density of 75 mA cm(-2), electrolysis time of 1.5 h, and an electrode gap of 1.0 cm in an orthogonal test. Effluent characteristics were investigated at different electrolysis times. The ratio of the 5-day biochemical oxygen demand (BOD5) to the chemical oxygen demand increased from an initial value of 0.05 to 0.65 at 90 min. Fluorescence spectra were used to evaluate the evolution of refractory organics. Two fluorescence peaks for raw wastewater, corresponding to an aromatic protein-like substance II and humic acid-like substance, weakened at 30 and at 90 min, only the former was detected. The specific oxygen uptake rate was used to assess effluent toxicity, and an obvious inhibition effect was found at 15 min; then, it was significantly faded at 30 and 45 min. The BOD5/NO3 (-)-N ratio increased from an initial value of 0.48 to 1.25 at 45 min and then gradually dropped to 0.69 at 90 min. According to the above effluent characteristics, it is strongly suggested that electrochemical technology using boron-doped diamond anodes is combined with biological denitrification technology for the advanced treatment of biotreated coking wastewater.

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“…The robustness and efficiency of these technologies were mainly achieved through advances in electrodic materials and reactor designs for industrial applications (Marselli et al, 2003;Rodrigo et al, 2010). Among the anodic material available, the electrodes comprising boron-doped diamond film supported on titanium (BDD/Ti) have been extensively studied for the treatment of various refractory organic compounds, e.g., dyes (Migliorini et al, 2011;Sales Solano et al, 2013), pharmaceutical compounds (Vidales et al, 2012;Cavalcanti et al, 2013) and pesticides (Sirés et al, 2008;Alves et al, 2012). The results have shown high efficiency, attributed to the material characteristics such as the high overpotential for water electrolysis, excellent chemical and electrochemical stability, satisfactory conductivity and the ability to generate other oxidants depending on the wastewater composition and the operation conditions (Panizza and Cerisola, 2009).…”

Section: Introductionmentioning

confidence: 99%

Electrochemical oxidation of imazapyr with BDD electrode in titanium substrate

et al. 2014

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A comparative study of the electrochemical oxidation of the herbicide tebuthiuron using boron-doped diamond electrodes

Cited by 60 publications

References 24 publications

Electrochemical Oxidation of Reactive Black 5 and Blue 19 Dyes Using a Non Commercial Boron-Doped Diamond Electrode

Electrochemical Oxidation of Reactive Black 5 and Blue 19 Dyes Using a Non Commercial Boron-Doped Diamond Electrode

Effluent characteristics of advanced treatment for biotreated coking wastewater by electrochemical technology using BDD anodes

Electrochemical oxidation of imazapyr with BDD electrode in titanium substrate

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