Degradação eletroquímica de compostos fenólicos usando eletrodo de diamante dopado com boro

Detalhes bibliográficos
Autor(a) principal: Souza, Renata Beraldo Alencar de
Data de Publicação: 2012
Tipo de documento: Dissertação
Idioma: por
Título da fonte: Repositório Institucional da UFSCAR
Texto Completo: https://repositorio.ufscar.br/handle/ufscar/4090
Resumo: The presence of organic compounds in industrial effluents is a serious environmental issue as well as for the human health, since most of those compounds are extremely toxic. The treatment of those effluents is done many times using biological processes; however some classes of compounds, among the phenolic ones, are resistant to this kind of treatment and require the use of technologies known as Advanced Oxidation Processes, that are based on the chemical or photochemical generation of oxidant radicals. The electrochemical technology emerged as an environmentally compatible alternative with advantages such as the elimination of transport and storage of dangerous chemical products, decrease of workforce and easiness to control the process. On this dissertation were systematically studied the variables of process and project of an electrochemical system using a boron-doped diamond anode for the oxidation of phenolic compounds aiming at current efficiency increase and, therefore, the decrease of energy consumption in the process. In a first phase it was studied the oxidation of the phenol using a reactor either with and without membrane, on the presence or absence of chloride. After that it was studied the influence of the kind of supporting electrolyte and its concentration on the process of oxidation of phenol, the interaction of the process and project variables analyzed, the effect of the flow rate, current density and concentration of chloride on the degradation of phenol and finally, the electrochemical degradation of a real effluent coming from a petroleum refinery. The results show that the use of a membrane had no significant influence on the kinetics of oxidation when compared with the reactor without membrane, mainly when the chloride ions were present on the solution, and that with the use of the membrane the highest cell potentials were achieved. In face of this, it was opted by the utilization of a reactor with one compartment. Overall, it was observed that the utilization of different supporting electrolytes did not interfere on a significant way on the process; however when supporting electrolytes of sulfuric acid, sodium sulfate or calcium carbonate were used there was an improvement of the process in terms of current efficiency and energy consumption. Still, generally, the presence of chloride ions leads to an increase on the kinetics of removal of chemical oxygen demand (COD) e total phenolic compounds (TPC). With respect to the interaction of process and project variables, it was verified that for both currents used, in most cases, the kinetics of degradation is weakly influenced by the distance between the electrodes. The increase on the current density leads to a faster speed on the degradation process, however there is a potential cell increase. The increase on flow rate provides, besides a faster kinetics, an improvement on current efficiency, due to enhancement of mass transport. As for the degradation of the real effluent, it was found that the use of lower current densities is essential to accomplish lower cell potentials to enable the utilization of the electrooxidation process in terms of global energetic consumption.
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spelling Souza, Renata Beraldo Alencar deRuotolo, Luís Augusto Martinshttp://lattes.cnpq.br/8409898535548523ec1a2393-8fd8-487f-b57c-233025aa682e2016-06-02T19:56:46Z2012-05-162016-06-02T19:56:46Z2012-03-22SOUZA, Renata Beraldo Alencar de. Degradação eletroquímica de compostos fenólicos usando eletrodo de diamante dopado com boro. 2012. 108 f. Dissertação (Mestrado em Ciências Exatas e da Terra) - Universidade Federal de São Carlos, São Carlos, 2012.https://repositorio.ufscar.br/handle/ufscar/4090The presence of organic compounds in industrial effluents is a serious environmental issue as well as for the human health, since most of those compounds are extremely toxic. The treatment of those effluents is done many times using biological processes; however some classes of compounds, among the phenolic ones, are resistant to this kind of treatment and require the use of technologies known as Advanced Oxidation Processes, that are based on the chemical or photochemical generation of oxidant radicals. The electrochemical technology emerged as an environmentally compatible alternative with advantages such as the elimination of transport and storage of dangerous chemical products, decrease of workforce and easiness to control the process. On this dissertation were systematically studied the variables of process and project of an electrochemical system using a boron-doped diamond anode for the oxidation of phenolic compounds aiming at current efficiency increase and, therefore, the decrease of energy consumption in the process. In a first phase it was studied the oxidation of the phenol using a reactor either with and without membrane, on the presence or absence of chloride. After that it was studied the influence of the kind of supporting electrolyte and its concentration on the process of oxidation of phenol, the interaction of the process and project variables analyzed, the effect of the flow rate, current density and concentration of chloride on the degradation of phenol and finally, the electrochemical degradation of a real effluent coming from a petroleum refinery. The results show that the use of a membrane had no significant influence on the kinetics of oxidation when compared with the reactor without membrane, mainly when the chloride ions were present on the solution, and that with the use of the membrane the highest cell potentials were achieved. In face of this, it was opted by the utilization of a reactor with one compartment. Overall, it was observed that the utilization of different supporting electrolytes did not interfere on a significant way on the process; however when supporting electrolytes of sulfuric acid, sodium sulfate or calcium carbonate were used there was an improvement of the process in terms of current efficiency and energy consumption. Still, generally, the presence of chloride ions leads to an increase on the kinetics of removal of chemical oxygen demand (COD) e total phenolic compounds (TPC). With respect to the interaction of process and project variables, it was verified that for both currents used, in most cases, the kinetics of degradation is weakly influenced by the distance between the electrodes. The increase on the current density leads to a faster speed on the degradation process, however there is a potential cell increase. The increase on flow rate provides, besides a faster kinetics, an improvement on current efficiency, due to enhancement of mass transport. As for the degradation of the real effluent, it was found that the use of lower current densities is essential to accomplish lower cell potentials to enable the utilization of the electrooxidation process in terms of global energetic consumption.A presença de compostos orgânicos em efluentes industriais se constitui em um sério problema ambiental e de saúde humana, uma vez que estes compostos em sua maioria são extremamente tóxicos. O tratamento destes efluentes é feito muitas vezes utilizando processos biológicos; entretanto, algumas classes de compostos, entre eles os fenólicos, são bastante refratárias a este tipo de tratamento e requerem a utilização de tecnologias conhecidas como Processos Oxidativos Avançados, que se baseiam na geração química ou fotoquímica de radicais oxidantes. A tecnologia eletroquímica surgiu como uma alternativa ambientalmente compatível e com vantagens tais como eliminação de transporte e estocagem de produtos químicos perigosos, diminuição da mão de obra e facilidade de controle do processo. Nesta dissertação estudou-se sistematicamente as variáveis de processo e de projeto de um sistema eletroquímico empregando um anodo de diamante dopado com boro para oxidação de compostos fenólicos visando o aumento da eficiência de corrente e, consequentemente, a diminuição do consumo energético do processo. Numa primeira etapa estudou-se a oxidação do fenol utilizando reator com e sem membrana, na presença e ausência de cloreto. Em seguida foi estudada a influência do tipo e da concentração do eletrólito suporte sobre o processo de oxidação do fenol, analisou-se a interação de variáveis de processo e de projeto, o efeito da velocidade de escoamento, densidade de corrente e concentração de cloreto sobre a degradação de fenol e por fim a degradação eletroquímica de um efluente real proveniente de uma refinaria de petróleo. Os resultados mostraram que o uso de membrana não teve influência significativa na cinética de oxidação em comparação com o reator sem membrana, principalmente quando íons cloreto estavam presentes na solução, e que com o uso de membrana obteve-se os maiores potencias de célula. Diante do que foi colocado, optou-se pela utilização de reator de um compartimento. De maneira geral, observou-se que a utilização de diferentes eletrólitos suporte não interferiu de forma significativa no processo; no entanto, quando se utiliza eletrólitos suporte de ácido sulfúrico, sulfato de sódio ou carbonato de cálcio ocorre uma melhoria do processo em termos de eficiência de corrente e consumo energético. Por outro lado, de maneira geral, a presença de íons cloreto leva a uma melhoria na cinética de remoção de demanda química de oxigênio (DQO) e compostos fenólicos totais (CFT). Com relação à interação de variáveis de processo e de projeto, verificou-se que para ambas as correntes utilizadas, na maioria dos casos, a cinética de degradação é pouco influenciada pela distância entre os eletrodos. O aumento da densidade de corrente leva a uma maior rapidez no processo de degradação, no entanto há o aumento do potencial de célula. O aumento da velocidade de 5 escoamento proporciona, além de uma cinética mais rápida, uma melhoria da eficiência de corrente, devido à melhoria do transporte de massa. Quanto à degradação do efluente real, verificou-se que a utilização de densidades de corrente menores é fundamental para se obter menores potenciais de célula que poderiam viabilizar a utilização do processo de eletroxidação em termos de consumo energético global.Financiadora de Estudos e Projetosapplication/pdfporUniversidade Federal de São CarlosPrograma de Pós-Graduação em Engenharia Química - PPGEQUFSCarBREngenharia químicaEletrodo de diamante dopado com boro (DDB)EletroxidaçãoReator eletroquímicoTratamento de efluentesENGENHARIAS::ENGENHARIA QUIMICADegradação eletroquímica de compostos fenólicos usando eletrodo de diamante dopado com boroinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesis-1-1cf9213f8-9cfd-427b-96e9-08a34508a5b6info:eu-repo/semantics/openAccessreponame:Repositório Institucional da UFSCARinstname:Universidade Federal de São Carlos (UFSCAR)instacron:UFSCARORIGINAL4312.pdfapplication/pdf2038006https://repositorio.ufscar.br/bitstream/ufscar/4090/1/4312.pdf1e8916f69643928eba9d0184a5c25b1cMD51TEXT4312.pdf.txt4312.pdf.txtExtracted texttext/plain0https://repositorio.ufscar.br/bitstream/ufscar/4090/2/4312.pdf.txtd41d8cd98f00b204e9800998ecf8427eMD52THUMBNAIL4312.pdf.jpg4312.pdf.jpgIM Thumbnailimage/jpeg8186https://repositorio.ufscar.br/bitstream/ufscar/4090/3/4312.pdf.jpga61669b46e5981678688ac0027f78374MD53ufscar/40902023-09-18 18:31:44.263oai:repositorio.ufscar.br:ufscar/4090Repositório InstitucionalPUBhttps://repositorio.ufscar.br/oai/requestopendoar:43222023-09-18T18:31:44Repositório Institucional da UFSCAR - Universidade Federal de São Carlos (UFSCAR)false
dc.title.por.fl_str_mv Degradação eletroquímica de compostos fenólicos usando eletrodo de diamante dopado com boro
title Degradação eletroquímica de compostos fenólicos usando eletrodo de diamante dopado com boro
spellingShingle Degradação eletroquímica de compostos fenólicos usando eletrodo de diamante dopado com boro
Souza, Renata Beraldo Alencar de
Engenharia química
Eletrodo de diamante dopado com boro (DDB)
Eletroxidação
Reator eletroquímico
Tratamento de efluentes
ENGENHARIAS::ENGENHARIA QUIMICA
title_short Degradação eletroquímica de compostos fenólicos usando eletrodo de diamante dopado com boro
title_full Degradação eletroquímica de compostos fenólicos usando eletrodo de diamante dopado com boro
title_fullStr Degradação eletroquímica de compostos fenólicos usando eletrodo de diamante dopado com boro
title_full_unstemmed Degradação eletroquímica de compostos fenólicos usando eletrodo de diamante dopado com boro
title_sort Degradação eletroquímica de compostos fenólicos usando eletrodo de diamante dopado com boro
author Souza, Renata Beraldo Alencar de
author_facet Souza, Renata Beraldo Alencar de
author_role author
dc.contributor.authorlattes.por.fl_str_mv http://lattes.cnpq.br/8409898535548523
dc.contributor.author.fl_str_mv Souza, Renata Beraldo Alencar de
dc.contributor.advisor1.fl_str_mv Ruotolo, Luís Augusto Martins
dc.contributor.authorID.fl_str_mv ec1a2393-8fd8-487f-b57c-233025aa682e
contributor_str_mv Ruotolo, Luís Augusto Martins
dc.subject.por.fl_str_mv Engenharia química
Eletrodo de diamante dopado com boro (DDB)
Eletroxidação
Reator eletroquímico
Tratamento de efluentes
topic Engenharia química
Eletrodo de diamante dopado com boro (DDB)
Eletroxidação
Reator eletroquímico
Tratamento de efluentes
ENGENHARIAS::ENGENHARIA QUIMICA
dc.subject.cnpq.fl_str_mv ENGENHARIAS::ENGENHARIA QUIMICA
description The presence of organic compounds in industrial effluents is a serious environmental issue as well as for the human health, since most of those compounds are extremely toxic. The treatment of those effluents is done many times using biological processes; however some classes of compounds, among the phenolic ones, are resistant to this kind of treatment and require the use of technologies known as Advanced Oxidation Processes, that are based on the chemical or photochemical generation of oxidant radicals. The electrochemical technology emerged as an environmentally compatible alternative with advantages such as the elimination of transport and storage of dangerous chemical products, decrease of workforce and easiness to control the process. On this dissertation were systematically studied the variables of process and project of an electrochemical system using a boron-doped diamond anode for the oxidation of phenolic compounds aiming at current efficiency increase and, therefore, the decrease of energy consumption in the process. In a first phase it was studied the oxidation of the phenol using a reactor either with and without membrane, on the presence or absence of chloride. After that it was studied the influence of the kind of supporting electrolyte and its concentration on the process of oxidation of phenol, the interaction of the process and project variables analyzed, the effect of the flow rate, current density and concentration of chloride on the degradation of phenol and finally, the electrochemical degradation of a real effluent coming from a petroleum refinery. The results show that the use of a membrane had no significant influence on the kinetics of oxidation when compared with the reactor without membrane, mainly when the chloride ions were present on the solution, and that with the use of the membrane the highest cell potentials were achieved. In face of this, it was opted by the utilization of a reactor with one compartment. Overall, it was observed that the utilization of different supporting electrolytes did not interfere on a significant way on the process; however when supporting electrolytes of sulfuric acid, sodium sulfate or calcium carbonate were used there was an improvement of the process in terms of current efficiency and energy consumption. Still, generally, the presence of chloride ions leads to an increase on the kinetics of removal of chemical oxygen demand (COD) e total phenolic compounds (TPC). With respect to the interaction of process and project variables, it was verified that for both currents used, in most cases, the kinetics of degradation is weakly influenced by the distance between the electrodes. The increase on the current density leads to a faster speed on the degradation process, however there is a potential cell increase. The increase on flow rate provides, besides a faster kinetics, an improvement on current efficiency, due to enhancement of mass transport. As for the degradation of the real effluent, it was found that the use of lower current densities is essential to accomplish lower cell potentials to enable the utilization of the electrooxidation process in terms of global energetic consumption.
publishDate 2012
dc.date.available.fl_str_mv 2012-05-16
2016-06-02T19:56:46Z
dc.date.issued.fl_str_mv 2012-03-22
dc.date.accessioned.fl_str_mv 2016-06-02T19:56:46Z
dc.type.status.fl_str_mv info:eu-repo/semantics/publishedVersion
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dc.identifier.citation.fl_str_mv SOUZA, Renata Beraldo Alencar de. Degradação eletroquímica de compostos fenólicos usando eletrodo de diamante dopado com boro. 2012. 108 f. Dissertação (Mestrado em Ciências Exatas e da Terra) - Universidade Federal de São Carlos, São Carlos, 2012.
dc.identifier.uri.fl_str_mv https://repositorio.ufscar.br/handle/ufscar/4090
identifier_str_mv SOUZA, Renata Beraldo Alencar de. Degradação eletroquímica de compostos fenólicos usando eletrodo de diamante dopado com boro. 2012. 108 f. Dissertação (Mestrado em Ciências Exatas e da Terra) - Universidade Federal de São Carlos, São Carlos, 2012.
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