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Produção de monoéster via etanólise por hidrotalcitas termoativadas : síntese e caracterização

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Previous issue date: 2011-03-31 / Universidade Federal de Sao Carlos / Among biofuels of the 1st generation, biodiesel stands out for its equivalent features to those of mineral diesel, however less polluting. It can be obtained by transesterification of triglyceride fats or vegetable oils by (m)ethanolysis. Aiming at improving the chemical process, different types of catalysis have been studied: i) homogeneous (acid e.g. H2SO4 and basic e.g. KOH), ii) heterogeneous (acid e.g. Montmorillonite, basic e.g. Hydrotalcite and enzymatic e.g. immobilized Lipases). However, the basic solid catalysts show themselves attractive because they are easily separated from the reaction media by filtration, avoiding both the formation of by-products and the need for biodiesel neutralization. In this group of catalysts there are some that stand out from the others, such as hydrotalcites, which, when thermically treated, result in mixed oxides with high superficial area and basicity. In this study, the efficiency of these heterogeneous catalysts containing K-Mg-Al was investigated in the transesterification of the molecule-model (CH3COOCH3) via ethanolysis in mild reaction conditions: 323K, 30 min, EtOH:AcMe=6:1 and 4 wt % of catalyst. Two methods to synthesize the hydrotalcite were used: sol-gel and impregnation. In the sol-gel, the variables fixed were: mass of carbonate (2 wt %), synthesis time (18hrs) and temperature (363K). The ratio of Mg:Al and the aging time varied in the range of 2:1-3:1 and 1-3 days, respectively. For the evaluation of this method, the incipient-wetness impregnation was used through addition of different percentage of potassium cations (2, 5 and 10%) in mixed oxide originated from the free sol-gel alkali metals hydrotalcite. Through the results of X-ray diffraction and thermal analysis it was found that the compounds produced were different in crystallinity, structural order and quantity of water molecules present in the structure. The pores of the obtained materials presented, on average, large diameters, between 14-21 nm to sol-gel samples, and 12 nm for the impregnated ones. The basicity of these were determinate by test of CO2 desorption at a programmed temperature. Among the studied parameters in the reaction of transesterification, the temperature showed the biggest influence. Thus, the most active catalysts for this condition (343K, 30 min and ratio of 6:1) were tested in regards to their reuse. The most stable catalyst in catalytic activity was the oxide (2KHTTa3-1) synthesized through precursor via sol-gel with highest quantity of magnesium in its composition and aged for one day. / Entre os biocombustiveis da 1a geracao, destaca-se o biodiesel com caracteristicas equivalentes as do diesel mineral, porem menos poluentes. Ele pode ser obtido pela transesterificacao de triglicerideos de gorduras ou oleos vegetais por (m)etanolise. Visando a melhoria do processo quimico, tem sido realizados estudos com diferentes tipos de catalise: i) homogenea (acida p.ex.: H2SO4 e basica p.ex.: KOH), ii) heterogenea (acida p.ex.: montmorilonita, basica p.ex.: hidrotalcita e enzimatica p.ex.: lipase imobilizada). No entanto, os catalisadores basicos solidos mostram-se atrativos por serem mais faceis de separar do meio reacional por filtracao, evitando tanto a formacao de subprodutos, quanto a necessidade de neutralizacao do biodiesel. Nesse grupo, alguns catalisadores destacam-se dos demais, tais como as hidrotalcitas. Estas, tratadas termicamente, resultam em oxidos mistos com elevada area superficial e basicidade. A avaliacao da eficiencia desses catalisadores heterogeneos contendo K-Mg-Al foi estudada neste trabalho utilizando a reacao de transesterificacao de molecula-modelo (CH3COOCH3) por etanolise sob condicoes reacionais amenas: 50°C, 30 min, EtOH:AcMe= 6:1 e 4% de massa de catalisador. As hidrotalcitas foram preparadas pelos metodos de sol-gel e impregnacao. No sol-gel, fixaram-se as seguintes variaveis: teor de carbonato (2% m/m), tempo (18h) e temperatura (90°C) de sintese. O teor de Mg:Al e o tempo de envelhecimento foram variados em 2:1-3:1 e 1-3 dias, respectivamente. Realizou-se impregnacao, por via umida incipiente, de diferentes percentuais de cations potassio (2, 5 e 10%) em oxido misto obtido da hidrotalcita sintetizada por sol-gel. Atraves dos resultados de difracao de raios X e analise termica verificou-se que os compostos produzidos eram diferentes quanto a cristalinidade, ordenacao estrutural e quantidade de moleculas de agua presentes na estrutura. Os poros dos materiais obtidos apresentaram, em media, diametros grandes, entre 14-21 nm para as amostras sol-gel, e 12 nm para as impregnadas. A basicidade destes materiais foi determinada pelo teste de dessorcao de CO2 a temperatura programada. Pela analise dos efeitos das variaveis estudadas na reacao de transesterificacao observou-se maior influencia da temperatura e os catalisadores mais ativos para essa condicao (70°C, 30 min e razao de 6:1) foram testados quanto ao seu reuso. O catalisador mais estavel na atividade catalitica foi o oxido (2KHTTa3-1) sintetizado por precursor via sol-gel com maior teor de magnesio na composicao, envelhecido por um dia.

Identiferoai:union.ndltd.org:IBICT/oai:repositorio.ufscar.br:ufscar/4076
Date31 March 2011
CreatorsMazzone, Lana Christiane de Albuquerque
ContributorsAssaf, José Mansur
PublisherUniversidade Federal de São Carlos, Programa de Pós-graduação em Engenharia Química, UFSCar, BR
Source SetsIBICT Brazilian ETDs
LanguagePortuguese
Detected LanguageEnglish
Typeinfo:eu-repo/semantics/publishedVersion, info:eu-repo/semantics/masterThesis
Formatapplication/pdf
Sourcereponame:Repositório Institucional da UFSCAR, instname:Universidade Federal de São Carlos, instacron:UFSCAR
Rightsinfo:eu-repo/semantics/openAccess

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