Doctoral Thesis
DOI
https://doi.org/10.11606/T.59.2016.tde-22022016-141625
Document
Author
Full name
Lívia Martins da Palma
E-mail
Institute/School/College
Knowledge Area
Date of Defense
Published
Ribeirão Preto, 2015
Supervisor
Committee
Andrade, Adalgisa Rodrigues de (President)
Lima, Fabio Henrique Barros de
Olivi, Paulo
Ribeiro, Josimar
Santos, Mauro Coelho dos
Lima, Fabio Henrique Barros de
Olivi, Paulo
Ribeiro, Josimar
Santos, Mauro Coelho dos
Title in Portuguese
Desenvolvimento de células a combustível de álcoois direta: produção de protótipos de alta potência
Keywords in Portuguese
Catalisadores plurimetálicos
Meio alcalino
Método micro-ondas
Oxidação de glicerol
Oxidação etanol
Meio alcalino
Método micro-ondas
Oxidação de glicerol
Oxidação etanol
Abstract in Portuguese
Neste trabalho investigou-se a oxidação de álcoois (etanol e glicerol) em meio alcalino empregando diferentes catalisadores de metais nobres suportados em carbono Vulcan preparados através da síntese de irradiação de micro-ondas, para aplicação em dispositivos de células a combustível. Neste âmbito, catalisadores suportados em carbono na razão metal:carbono de 40:60 % foram preparados com dois metais nobres: catalisadores a base de Pt(PtM/C, M=Sn, Ru e Ni); e catalisadores a base de Pd(PdM/C, M=Sn, Ru, Ni, Rh, Fe e Mn). Os resultados de EDX revelaram que todos os catalisadores apresentam composições experimentais próximas às nominais. Todos os catalisadores apresentaram características dos respectivos metais nobres; geometria cúbica de face-centrada. Catalisadores de Pd54Fe46/C, Pd71Ru29/C também apresentaram fases isoladas dos óxidos de rutênio e ferro,a fase de Pd2Sn também está presente nos catalisadores contendo Sn. Cristalitos e partículas na ordem de 2 a 7 nm foram observados. Dentre os diversos catalisadores estudados para a oxidação de etanol ([Etanol]=1,0 mol L-1 + [NaOH]=1,0 mol L-1), o catalisador Pt45Sn55/C apresentou maior atividade, formando ácido acético e acetaldeído em quantidade superiores aos demais catalisadores. Já para catalisadores a base de Pd, Pd54Fe46/C e Pd63Sn37/C apresentaram resultados eletroquímicos muito semelhantes, porém, em relação aos produtos formados durante a eletrólise, o catalisador Pd54Fe46/C formou 3 vezes mais ácido acético(4 elétrons). Para a eletro-oxidação de glicerol em meio alcalino ([Glicerol]=0,5 mol L-1 + [NaOH]=1,0 mol L-1), o catalisador Pt86Ru14/C foi o que apresentou os maiores valores de atividades catalíticas. Os principais produtos formados durante as eletrólises de glicerol foram ácido glicérico, ácido tartrônico, 1,3-dihidroxiacetona (DHA), a quantidade de produtos formados pelo catalisador Pt86Ru14/C foi, aproximadamente, três vezes superiorao catalisador Pt/C. A formação de um produto de maior valor agregado, 1,3-DHA, é interessante do ponto de vista eletrossíntético. A seguinte ordem de reatividade é observada para os catalisadores de Pd: PdRu/C >PdFe/C >PdMn/C >PdRh/C >PdSn/C. Dentre os produtos formados na oxidação de glicerol somente para os catalisadores PdRh/C e PdFe/Cidentificou-se ácido tartrônico (6 elétrons) e 1,3-DHA (2 elétrons)
Title in English
Direct alcohol fuel cell development: high power prototype production
Keywords in English
Alkaline medium
Ethanol oxidation
Glycerol oxidation
Microwave irradiation synthesis
Plurimettalic catalysts
Ethanol oxidation
Glycerol oxidation
Microwave irradiation synthesis
Plurimettalic catalysts
Abstract in English
In this thesis it was investigated ethanol and glycerol oxidation in alkaline medium using different noble metal catalysts supported on Vulcan carbon prepared by microwave irradiation synthesis, for application in fuel cell devices. In this context, catalysts in the ratio metal:carbon 40:60% were prepared using two noble metals: Pt-based catalysts (PtM/C, M = Sn, Ru and Ni); and Pd-based catalysts (PdM/C, M = Sn, Ru, Ni, Rh, Fe and Mn). The experimental compositions obtained by EDX were close to nominal values. All the catalysts exhibited cubic face-centered geometry characteristics of its respective noble metal. Catalysts Pd54Fe46/C and Pd71Ru29/C also presented of iron and ruthenium oxides phases, Pd2Sn phase is also observed for Pd61Sn39/C catalyst. Particles and crystallites around 2 to 7 nm were observed. Among all catalysts studied for ethanol electro-oxidation ([Ethanol]=1.0 mol L-1 + [NaOH]=1.0 mol L-1), Pt45Sn55/C catalyst was the most active, the yield of acetic acid and acetaldehyde are higher for this composition. Pd-based catalysts, Pd54Fe46/C and Pd61Sn39/C showed very similar electrochemical behavior; however, for Pd54Fe46/C catalyst the amount of acetic acid (4 electrons) formed are three times higher. Pt86Ru14/C catalyst presented the highest catalytic activities for glycerol electro-oxidation ([glycerol]=0.5 mol L-1 + [NaOH]=1.0 mol L-1). The main products formed during glycerol electrolysis were glyceric acid, tartronic acid, 1,3-dihydroxyacetone (DHA), the amount of products formed employing Pt86Ru14/C catalyst was almost three times higher than Pt/C catalyst. The formation of a product with higher added-value, 1,3-DHA, is interesting in electro-synthetic point of view. The reactivity order were observed for Pd catalysts are: PdRu/C > PdFe/C > PdMn/C > PdRh/C > PdSn/C. Tartronic acid (6 electrons) and 1,3-DHA (2 electrons) were only identified at PdRh/C and PdFe/C catalysts
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2016-08-16
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