Utiliza??o de microemuls?es como agentes modificadores de superf?cies para remo??o de ?ons met?licos

Utiliza??o de microemuls?es como agentes modificadores de superf?cies para remo??o de ?ons met?licos

Made available in DSpace on 2014-12-17T15:01:55Z (GMT). No. of bitstreams: 1 MariaCPAM_Tese.pdf: 1121548 bytes, checksum: 75f9a451aff8c4991fa41301b935efcc (MD5) Previous issue date: 2001-07-05 === The heavy metals are used in many industrial processes and when discharged to the environment can cau...

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Main Author: Moura, Maria Carlenise Paiva de Alencar
Other Authors: CPF:05641284491
Format: Others
Language:Portuguese
Published: Universidade Federal do Rio Grande do Norte 2014
Subjects:
Metais pesados
Adsor??o
Diagramas pseudotern?rios
Cromo
Microemuls?es
Rede de Scheff?
Heavy metals
Adsorption
Pseudo-ternary diagrams
Chromo
Microemulsion
Net of scheff?
CNPQ::ENGENHARIAS::ENGENHARIA QUIMICA
Online Access:http://repositorio.ufrn.br:8080/jspui/handle/123456789/15922
id ndltd-IBICT-oai-repositorio.ufrn.br-123456789-15922
record_format oai_dc
collection NDLTD
language Portuguese
format Others
sources NDLTD
topic Metais pesados
Adsor??o
Diagramas pseudotern?rios
Cromo
Microemuls?es
Rede de Scheff?
Heavy metals
Adsorption
Pseudo-ternary diagrams
Chromo
Microemulsion
Net of scheff?
CNPQ::ENGENHARIAS::ENGENHARIA QUIMICA
spellingShingle Metais pesados
Adsor??o
Diagramas pseudotern?rios
Cromo
Microemuls?es
Rede de Scheff?
Heavy metals
Adsorption
Pseudo-ternary diagrams
Chromo
Microemulsion
Net of scheff?
CNPQ::ENGENHARIAS::ENGENHARIA QUIMICA
Moura, Maria Carlenise Paiva de Alencar
Utiliza??o de microemuls?es como agentes modificadores de superf?cies para remo??o de ?ons met?licos
description Made available in DSpace on 2014-12-17T15:01:55Z (GMT). No. of bitstreams: 1 MariaCPAM_Tese.pdf: 1121548 bytes, checksum: 75f9a451aff8c4991fa41301b935efcc (MD5) Previous issue date: 2001-07-05 === The heavy metals are used in many industrial processes and when discharged to the environment can cause harmful effects to human, plants and animals. The adsorption technology has been used as an effective methodology to remove metallic ions. The search for new adsorbents motivated the development of this research, accomplished with the purpose of removing Cr (III) from aqueous solutions. Diatomite, chitosan, Filtrol 24TM and active carbon were used as adsorbents. To modify the adsorbent surface was used a bicontinuous microemulsion composed by water (25%), kerosene (25%), saponified coconut oil (10%) and as co-surfactant isoamyl or butyl alcohols (40%). With the objective of developing the best operational conditions the research started with the surfactant synthesis and after that the pseudo-ternary diagrams were plotted. It was decided to use the system composed with isoamyl alcohol as co-surfactant due its smallest solubility in water. The methodology to impregnate the microemulsion on the adsorbents was developed and to prepare each sample was used 10 g of adsorbent and 20 mL of microemulsion. The effect of drying time and temperature was evaluated and the best results were obtained with T = 65 ?C and t = 48 h. After evaluating the efficiency of the tested adsorbents it was decided to use chitosan and diatomite. The influence of the agitation speed, granule size, heavy metal synthetic solution concentration, pH, contact time between adsorbent and metal solution, presence or not of NaCl and others metallic ions in the solution (copper and nickel) were evaluated. The adsorption isotherms were obtained and Freundlich and Langmuir models were tested. The last one correlated better the data. With the purpose to evaluate if using a surfactant solution would supply similar results, the adsorbent surface was modified with this solution. It was verified that the adsorbent impregnated with a microemulsion was more effective than the one with a surfactant solution, showing that the organic phase (kerosene) was important in the heavy metal removal process. It was studied the desorption process and verified that the concentrated minerals acids removed the chromium from the adsorbent surface better than others tested solutions. The treatment showed to be effective, being obtained an increase of approximately 10% in the chitosan s adsorption capacity (132 mg of Cr3+ / g adsorbent), that was already quite efficient, and for diatomite, that was not capable to remove the metal without the microemulsion treatment, it was obtained a capacity of 10 mg of Cr3+ / g adsorbent, checking the applied treatment effectiveness === Os metais pesados s?o utilizados em muitos processos industriais e, quando descartados ao meio ambiente, podem ocasionar efeitos prejudiciais aos seres vivos. O processo de adsor??o vem sendo utilizado como metodologia eficaz para a remo??o de ?ons met?licos. A busca por novos adsorventes motivou o desenvolvimento deste trabalho, realizado com o objetivo de remover Cr (III) de solu??es aquosas. Utilizou-se como adsorventes: diatomita, quitosana, Filtrol 24TM e carv?o ativo. Empregou-se como agente modificador dos adsorventes uma microemuls?o bicont?nua composta de ?gua (25 %), querosene (25 %), ?leo de coco saponificado (10 %) e cotensoativo (?lcool isoam?lico ou but?lico, 40 %). Com o objetivo de obter as melhores condi??es operacionais partiu-se da obten??o do tensoativo e obteve-se os diagramas pseudotern?rios. Resolveu-se empregar o sistema contendo o ?lcool isoam?lico devido sua menor solubilidade em ?gua. Desenvolveu-se a t?cnica de impregna??o da microemuls?o sobre os adsorventes e, para o preparo de cada amostra, empregou-se 10 g de adsorvente e 20 mL de microemuls?o. Avaliou-se o efeito do tempo de secagem e da temperatura, obtendo-se os melhores resultados com T = 65 ?C e t = 48 h. Ap?s avaliar a efici?ncia dos adsorventes testados resolveu-se utilizar a quitosana e a diatomita e avaliou-se a influ?ncia da velocidade de agita??o, granulometria, concentra??o, pH, presen?a de outros c?tions met?licos (cobre e n?quel) e NaCl na solu??o e o tempo de contato do adsorvente com a solu??o de metal. Obteve-se as isotermas de adsor??o e testou-se os modelos de Freundlich e Langmuir, que correlacionou melhor os dados. Com o prop?sito de verificar se o emprego de uma solu??o de tensoativo forneceria resultados semelhantes, tratou-se o adsorvente com esta solu??o e verificou-se que o adsorvente impregnado com a microemuls?o foi mais efetivo, comprovando que a fase org?nica (querosene) era importante para o processo. Estudou-se o processo de dessor??o e verificou-se que os ?cidos minerais concentrados eluiam melhor o cromo. O tratamento mostrou-se eficaz obtendo-se um aumento na capacidade de adsor??o de cromo de aproximadamente 10 % para a quitosana (132 mg de Cr3+/ g adsorvente), que j? era bastante eficiente, e, para a diatomita, que n?o era capaz de remover o metal, obteve-se uma capacidade de 10 mg de Cr3+/g adsorvente, comprovando a efic?cia do tratamento aplicado
author2 CPF:05641284491
author_facet CPF:05641284491
Moura, Maria Carlenise Paiva de Alencar
author Moura, Maria Carlenise Paiva de Alencar
author_sort Moura, Maria Carlenise Paiva de Alencar
title Utiliza??o de microemuls?es como agentes modificadores de superf?cies para remo??o de ?ons met?licos
title_short Utiliza??o de microemuls?es como agentes modificadores de superf?cies para remo??o de ?ons met?licos
title_full Utiliza??o de microemuls?es como agentes modificadores de superf?cies para remo??o de ?ons met?licos
title_fullStr Utiliza??o de microemuls?es como agentes modificadores de superf?cies para remo??o de ?ons met?licos
title_full_unstemmed Utiliza??o de microemuls?es como agentes modificadores de superf?cies para remo??o de ?ons met?licos
title_sort utiliza??o de microemuls?es como agentes modificadores de superf?cies para remo??o de ?ons met?licos
publisher Universidade Federal do Rio Grande do Norte
publishDate 2014
url http://repositorio.ufrn.br:8080/jspui/handle/123456789/15922
work_keys_str_mv AT mouramariacarlenisepaivadealencar utilizaodemicroemulsescomoagentesmodificadoresdesuperfciespararemoodeonsmetlicos
_version_ 1718670826143744000
spelling ndltd-IBICT-oai-repositorio.ufrn.br-123456789-159222018-05-23T23:21:55Z Utiliza??o de microemuls?es como agentes modificadores de superf?cies para remo??o de ?ons met?licos Moura, Maria Carlenise Paiva de Alencar CPF:05641284491 http://buscatextual.cnpq.br/buscatextual/visualizacv.do?id=K4783215D9 Aguiar, Eduardo Fallabela Souza CPF:43556043734 Barros Neto, Eduardo Lins de CPF:59545844434 http://buscatextual.cnpq.br/buscatextual/visualizacv.do?id=K4798645D3 Chiavone Filho, Osvaldo CPF:08580772800 http://lattes.cnpq.br/2621516646153655 Ramos, Gretel Villanueva Dantas, Tereza Neuma de Castro Dantas Neto, Afonso Avelino Metais pesados Adsor??o Diagramas pseudotern?rios Cromo Microemuls?es Rede de Scheff? Heavy metals Adsorption Pseudo-ternary diagrams Chromo Microemulsion Net of scheff? CNPQ::ENGENHARIAS::ENGENHARIA QUIMICA Made available in DSpace on 2014-12-17T15:01:55Z (GMT). No. of bitstreams: 1 MariaCPAM_Tese.pdf: 1121548 bytes, checksum: 75f9a451aff8c4991fa41301b935efcc (MD5) Previous issue date: 2001-07-05 The heavy metals are used in many industrial processes and when discharged to the environment can cause harmful effects to human, plants and animals. The adsorption technology has been used as an effective methodology to remove metallic ions. The search for new adsorbents motivated the development of this research, accomplished with the purpose of removing Cr (III) from aqueous solutions. Diatomite, chitosan, Filtrol 24TM and active carbon were used as adsorbents. To modify the adsorbent surface was used a bicontinuous microemulsion composed by water (25%), kerosene (25%), saponified coconut oil (10%) and as co-surfactant isoamyl or butyl alcohols (40%). With the objective of developing the best operational conditions the research started with the surfactant synthesis and after that the pseudo-ternary diagrams were plotted. It was decided to use the system composed with isoamyl alcohol as co-surfactant due its smallest solubility in water. The methodology to impregnate the microemulsion on the adsorbents was developed and to prepare each sample was used 10 g of adsorbent and 20 mL of microemulsion. The effect of drying time and temperature was evaluated and the best results were obtained with T = 65 ?C and t = 48 h. After evaluating the efficiency of the tested adsorbents it was decided to use chitosan and diatomite. The influence of the agitation speed, granule size, heavy metal synthetic solution concentration, pH, contact time between adsorbent and metal solution, presence or not of NaCl and others metallic ions in the solution (copper and nickel) were evaluated. The adsorption isotherms were obtained and Freundlich and Langmuir models were tested. The last one correlated better the data. With the purpose to evaluate if using a surfactant solution would supply similar results, the adsorbent surface was modified with this solution. It was verified that the adsorbent impregnated with a microemulsion was more effective than the one with a surfactant solution, showing that the organic phase (kerosene) was important in the heavy metal removal process. It was studied the desorption process and verified that the concentrated minerals acids removed the chromium from the adsorbent surface better than others tested solutions. The treatment showed to be effective, being obtained an increase of approximately 10% in the chitosan s adsorption capacity (132 mg of Cr3+ / g adsorbent), that was already quite efficient, and for diatomite, that was not capable to remove the metal without the microemulsion treatment, it was obtained a capacity of 10 mg of Cr3+ / g adsorbent, checking the applied treatment effectiveness Os metais pesados s?o utilizados em muitos processos industriais e, quando descartados ao meio ambiente, podem ocasionar efeitos prejudiciais aos seres vivos. O processo de adsor??o vem sendo utilizado como metodologia eficaz para a remo??o de ?ons met?licos. A busca por novos adsorventes motivou o desenvolvimento deste trabalho, realizado com o objetivo de remover Cr (III) de solu??es aquosas. Utilizou-se como adsorventes: diatomita, quitosana, Filtrol 24TM e carv?o ativo. Empregou-se como agente modificador dos adsorventes uma microemuls?o bicont?nua composta de ?gua (25 %), querosene (25 %), ?leo de coco saponificado (10 %) e cotensoativo (?lcool isoam?lico ou but?lico, 40 %). Com o objetivo de obter as melhores condi??es operacionais partiu-se da obten??o do tensoativo e obteve-se os diagramas pseudotern?rios. Resolveu-se empregar o sistema contendo o ?lcool isoam?lico devido sua menor solubilidade em ?gua. Desenvolveu-se a t?cnica de impregna??o da microemuls?o sobre os adsorventes e, para o preparo de cada amostra, empregou-se 10 g de adsorvente e 20 mL de microemuls?o. Avaliou-se o efeito do tempo de secagem e da temperatura, obtendo-se os melhores resultados com T = 65 ?C e t = 48 h. Ap?s avaliar a efici?ncia dos adsorventes testados resolveu-se utilizar a quitosana e a diatomita e avaliou-se a influ?ncia da velocidade de agita??o, granulometria, concentra??o, pH, presen?a de outros c?tions met?licos (cobre e n?quel) e NaCl na solu??o e o tempo de contato do adsorvente com a solu??o de metal. Obteve-se as isotermas de adsor??o e testou-se os modelos de Freundlich e Langmuir, que correlacionou melhor os dados. Com o prop?sito de verificar se o emprego de uma solu??o de tensoativo forneceria resultados semelhantes, tratou-se o adsorvente com esta solu??o e verificou-se que o adsorvente impregnado com a microemuls?o foi mais efetivo, comprovando que a fase org?nica (querosene) era importante para o processo. Estudou-se o processo de dessor??o e verificou-se que os ?cidos minerais concentrados eluiam melhor o cromo. O tratamento mostrou-se eficaz obtendo-se um aumento na capacidade de adsor??o de cromo de aproximadamente 10 % para a quitosana (132 mg de Cr3+/ g adsorvente), que j? era bastante eficiente, e, para a diatomita, que n?o era capaz de remover o metal, obteve-se uma capacidade de 10 mg de Cr3+/g adsorvente, comprovando a efic?cia do tratamento aplicado 2014-12-17T15:01:55Z 2007-02-23 2014-12-17T15:01:55Z 2001-07-05 info:eu-repo/semantics/publishedVersion info:eu-repo/semantics/doctoralThesis MOURA, Maria Carlenise Paiva de Alencar. Utiliza??o de microemuls?es como agentes modificadores de superf?cies para remo??o de ?ons met?licos. 2001. 203 f. Tese (Doutorado em Pesquisa e Desenvolvimento de Tecnologias Regionais) - Universidade Federal do Rio Grande do Norte, Natal, 2001. http://repositorio.ufrn.br:8080/jspui/handle/123456789/15922 por info:eu-repo/semantics/openAccess application/pdf Universidade Federal do Rio Grande do Norte Programa de P?s-Gradua??o em Engenharia Qu?mica UFRN BR Pesquisa e Desenvolvimento de Tecnologias Regionais reponame:Repositório Institucional da UFRN instname:Universidade Federal do Rio Grande do Norte instacron:UFRN

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