Genome structure of a Saccharomyces cerevisiae strain widely used in bioethanol production

Bioethanol is a biofuel produced mainly from the fermentation of carbohydrates derived from agricultural feedstocks by the yeast Saccharomyces cerevisiae. One of the most widely adopted strains is PE-2, a heterothallic diploid naturally adapted to the sugar cane fermentation process used in Brazil. Here we report the molecular genetic analysis of a PE-2 derived diploid (JAY270), and the complete genome sequence of a haploid derivative (JAY291). The JAY270 genome is highly heterozygous (similar to 2 SNPs/kb) and has several structural polymorphisms between homologous chromosomes. These chromosomal rearrangements are confined to the peripheral regions of the chromosomes, with breakpoints within repetitive DNA sequences. Despite its complex karyotype, this diploid, when sporulated, had a high frequency of viable spores. Hybrid diploids formed by outcrossing with the laboratory strain S288c also displayed good spore viability. Thus, the rearrangements that exist near the ends of chromosomes do not impair meiosis, as they do not span regions that contain essential genes. This observation is consistent with a model in which the peripheral regions of chromosomes represent plastic domains of the genome that are free to recombine ectopically and experiment with alternative structures. We also explored features of the JAY270 and JAY291 genomes that help explain their high adaptation to industrial environments, exhibiting desirable phenotypes such as high ethanol and cell mass production and high temperature and oxidative stress tolerance. The genomic manipulation of such strains could enable the creation of a new generation of industrial organisms, ideally suited for use as delivery vehicles for future bioenergy technologies.

Storage as a tool to improve wood fuel quality

This work analysed the influence of storage in the quality of forest biomass for energy generation in the region of Lages, Brazil. Logs of Pinus taeda L. and Eucalyptus dunnii Maiden were harvested and piled during the four different seasons: spring, summer, fall and winter. The analyses were performed immediately after harvesting (without being stored), after two, four and six months of storage. The evaluated properties were: moisture content, gross and net calorific value, ash content and solubility in cold water, hot water and sodium hydroxide. The species composition, storage span, harvesting season and storage season influenced the forest biomass characteristics. In general, eucalyptus presented better results than pine, losing moisture faster, having less alteration in the chemical composition and producing greater energetic gain over storage time. For both species, the ideal storage time was four months. Furthermore, spring and summer were the best harvesting seasons. Thus, if the forest biomass is harvested at the end of winter or beginning of spring with subsequent storage during the summer, this biomass will have the best performance for energy production. (C) 2011 Elsevier Ltd. All rights reserved.

Pt-RuO(2) electrodes prepared by thermal decomposition of polymeric precursors as catalysts for direct methanol fuel cell applications

The electrocatalytic activity of Pt and RuO(2) mixed electrodes of different compositions towards methanol oxidation was investigated. The catalysts were prepared by thermal decomposition of polymeric precursors and characterized by energy dispersive X-ray, scanning electronic microscopy, X-ray diffraction and cyclic voltammetry. This preparation method allowed obtaining uniform films with controlled stoichiometry and high surface area. Cyclic voltammetry experiments in the presence of methanol showed that mixed electrodes decreased the potential peak of methanol oxidation by approximately 100 mV (RHE) when compared to the electrode containing only Pt. In addition, voltammetric experiments indicated that the Pt(0.6)Ru(0.4)O(y) electrode led to higher oxidation current densities at lower potentials. Chronoamperometry experiments confirmed the contribution of RuO(2) to the catalytic activity as well as the better performance of the Pt(0.6)Ru(0.4)O(y) electrode composition. Formic acid and CO(2) were identified as being the reaction products formed in the electrolysis performed at 400 and 600 mV. The relative formation of CO(2) was favored in the electrolysis performed at 400 mV (RHE) with the Pt(0.6)Ru(0.4)O(y) electrode. The presence of RuO(2) in Pt-Ru-based electrodes is important for improving the catalytic activity towards methanol electrooxidation. Moreover, the thermal decomposition of polymeric precursors seems to be a promising route for the production of catalysts applicable to DMFC. (C) 2009 International Association for Hydrogen Energy. Published by Elsevier Ltd. All rights reserved.

Amphiphilic cerium(III) beta-diketonate as a catalyst for reducing diesel/biodiesel soot emissions

This work reports on the synthesis, characterization and applications of the new cerium(III) beta-diketonate Ce(hdacac)(3)(Hhdacac)(3)center dot 2H(2)O (where hdacac and Hhdacac denote, respectively, the hexadecylpentane-2,4-dionate and hexadecylpentane-2,4-dione ligands) as catalyst for the reduction of automotive emissions. Due to its amphiphilic character, this complex can be solubilized in non-polar fuels, thus generating cerium(IV) oxide particles, which efficiently catalyze the oxidation of diesel/biodiesel soot. The synthesized complex was characterized by microanalysis (C, H), thermal analysis, and infrared spectroscopy. Scanning electron microscopy, X-ray diffractometry, and specific surface area measurements attested that the complex can act as a soluble precursor of homogeneous CeO(2) spherical nanoparticles. The efficiency of this compound as catalyst for the reduction of soot emission was evaluated through static studies (comprising carbon black oxidation), which confirmed that increasing concentrations of the complex result in lower carbon black oxidation temperatures and lower activation Gibbs free energies. Dynamic studies, which embraced the combustion of diesel/biodiesel blends containing different amounts of the solubilized complex in a stationary motor, allowed a comparative evaluation of the soot emission through diffuse reflectance spectroscopy. These analyses provided very emphatic evidences of the efficiency of this new cerium complex for the control of soot emission in diesel/biodiesel motors. (c) 2009 Published by Elsevier B.V.

Sucrose Fermentation by Brazilian Ethanol Production Yeasts in Media Containing Structurally Complex Nitrogen Sources

Four Saccharomyces cerevisiae Brazilian industrial ethanol production strains were grown, under shaken and static conditions, in media containing 22% (w/v) sucrose supplemented with nitrogen sources varying from a single ammonium salt (ammonium sulfate) to free amino acids (casamino acids) and peptides (peptone). Sucrose fermentations by Brazilian industrial ethanol production yeasts strains were strongly affected by both the structural complexity of the nitrogen source and the availability of oxygen. Data suggest that yeast strains vary in their response to the nitrogen source`s complex structure and to oxygen availability. In addition, the amount of trehalose produced could be correlated with the fermentation performance of the different yeasts, suggesting that efficient fuel ethanol production depends on finding conditions which are appropriate for a particular strain, considering demand and dependence on available nitrogen sources in the fermentation medium.

Acute Cardiovascular and Inflammatory Toxicity Induced by Inhalation of Diesel and Biodiesel Exhaust Particles

Analysis of fuel emissions is crucial for understanding the pathogenesis of mortality because of air pollution. The objective of this study is to assess cardiovascular and inflammatory toxicity of diesel and biodiesel particles. Mice were exposed to fuels for 1 h. Heart rate (HR), heart rate variability, and blood pressure were obtained before exposure, as well as 30 and 60 min after exposure. After 24 h, bronchoalveolar lavage, blood, and bone marrow were collected to evaluate inflammation. B100 decreased the following emission parameters: mass, black carbon, metals, CO, polycyclic aromatic hydrocarbons, and volatile organic compounds compared with B50 and diesel; root mean square of successive differences in the heart beat interval increased with diesel (p < 0.05) compared with control; low frequency increased with diesel (p < 0.01) and B100 (p < 0.05) compared with control; HR increased with B100 (p < 0.05) compared with control; mean corpuscular volume increased with B100 compared with diesel (p < 0.01), B50, and control (p < 0.001); mean corpuscular hemoglobin concentration decreased with B100 compared with B50 (p < 0.001) and control (p < 0.05); leucocytes increased with B50 compared with diesel (p < 0.05); platelets increased with B100 compared with diesel and control (p < 0.05); reticulocytes increased with B50 compared with diesel, control (p < 0.01), and B100 (p < 0.05); metamyelocytes increased with B50 and B100 compared with diesel (p < 0.05); neutrophils increased with diesel and B50 compared with control (p < 0.05); and macrophages increased with diesel (p < 0.01), B50, and B100 (p < 0.05) compared with control. Biodiesel was more toxic than diesel because it promoted cardiovascular alterations as well as pulmonary and systemic inflammation.

Estudo da Influencia de antioxidantes na avaliacao da estabilidade oxidativa de biodiesel pelo metodo petroOXY

O uso do biodiesel como um substituto total ou parcial do diesel de petróleo é significativo, entretanto a sua baixa estabilidade oxidativa é um ponto desfavorável. Portanto o uso de antioxidantes é viável desde que diminuam a velocidade de degradação promovido pela oxidação. Mas a ação de um antioxidante está relacionada com a composição química do biodiesel ao qual é adicionado. Considerando a importância e o crescimento da indústria de biodiesel, a necessidade de utilização de antioxidantes, e a busca por novas fontes como matérias primas, faz-se necessário estudar a eficiência de antioxidantes para o aumento da vida útil do biodiesel, além de avaliar novas culturas com potencial de produção como o pinhão manso (Jatropha curcas L.) e nabo forrageiro (Raphanus sativus L.). O objetivo deste trabalho foi avaliar os antioxidantes BHT (butilhidroxitolueno), PA (ácido pirogálico) e PG (galato de propila), em concentrações de 50, 200, 500, 1000 e 2000 mg/kg, nos biodiesel de pinhão manso, nabo forrageiro e soja, empregando a metodologia PetroOXY, ensaio acelerado de oxidação, para a determinação do seu período de indução. Os biodieseis foram obtidos através de reações de transesterificação, utilizando rota metílica, com rendimentos superiores a 80% e foram caracterizados através de alguns parâmetros físico-químicos. Foi observada a eficiência do uso de antioxidantes no aumento da vida útil do biodiesel. E com o aumento da concentração houve um aumento do período de indução. A eficiência do BHT foi sempre crescente com o aumento da concentração para todos os biodieseis enquanto que para o PG e PA houve uma diminuição da eficiência na maior concentração. A metodologia usada para avaliação da estabilidade oxidativa, PetroOXY, mostrou-se eficaz, de boa repetibilidade e reprodutibilidade, além de ser mais rápida e completa que o método Rancimat. Na concentração mais elevada, 2000 mg/kg, o melhor desempenho foi para o BHT, nas concentrações inferiores a 2000 mg/kg, a melhor eficiência foi para o PA ~ PG, nos três biodieseis estudados, soja, nabo forrageiro e pinhão manso.

Effect of spatial arrangement on the production components and yield of sunflower

ABSTRACT The sunflower plant is an oilseed crop that has aroused a great interest in the Brazilian and international scenery especillay because of the possibility of using its oil for biodiesel production. The objective of this study was to evaluate productivity and yield components of Embrapa 122 sunflower according to the spatial arrangement. Treatments were arranged in 4 x 4 factorial arrangement, which are the four spacings between rows (0.30; 0.50; 0.70 and 0.90 m) and four sowing densities (30,000; 45,000; 60,000 and 75,000 plants ha-1). The experiment was carried out in a complete randomized block design with four replications. The experiments were conducted in the experimental area of the Plant Science Department in Fortaleza, State of Ceará-Brazil and on the Curu Vale Experimental Farm in Pentecoste, State of Ceará-Brazil. Productivity and the following production components were analyzed in the end of the crop cycle: harvested capitula, capitulum diameter, capitulum mass, achene mass per capitulum, mass of 100 achenes, achenes per capitulum, harvest index and oil content in the achenes. The experiments were analyzed jointly in relation to the cropping area and the data submitted to analysis of variance and quantitative factors tested by polynomial regression. The variables, spacing, density and cropping area did not interact with these variables and the spatial arrangement of the plants affected only the components. The cropping area influences the productive behavior of sunflower Embrapa 122. The spatial arrangement of the plants of sunflower of variety Embrapa 122 influences yield components but does not affect productivity.

Eficiência de antioxidantes em biodiesel

Mestrado em Engenharia Química.Ramo optimização energética na indústria química

Produção de biodiesel por catálise heterogénea

Mestrado em Engenharia Química. Ramo optimização energética na indústria química.

Produção de biodiesel via catálise heterogénea básica

Mestrado em Engenharia Química. Ramo Tecnologias de Protecção Ambiental.

Aproveitamento e valorização de resíduos provenientes da produção de Biodiesel

Com o desenvolvimento económico das últimas décadas, a gestão de recursos energéticos é um desafio que a sociedade moderna enfrenta. Assim, actualmente há a necessidade da procura de novas fontes de energia, fontes de energia renováveis. Sendo o biodiesel uma fonte de energia renovável, a sua crescente produção irá trazer um aumento da produção de resíduos, como o glicerol e ácidos gordos. É pois importante reduzir/valorizar estes resíduos de forma a impedir a sua acumulação ao longo do tempo. A valorização destes resíduos é o objectivo principal deste trabalho. A primeira parte consistiu na esterificação de ácidos gordos livres com glicerol, na presença de um catalisador ácido, para a produção de monoglicerídeos. Foram utilizados diferentes tipos de matérias-primas: glicerol (76,3%) e resíduo de ácidos gordos (20,8%), fornecidos pela empresa SOCIPOLE SA, glicerol puro (92,2%) e ácido oleico puro (93,1%). Os catalisadores usados foram o cloreto de zinco comercial e o ácido p-tolueonossulfónico comercial. Não foram efectuadas análises específicas aos monoglicerídeos, o produto foi caracterizado pelo índice de acidez. Aparentemente, a maior conversão de ácidos gordos foi obtida no ensaio de esterificação de ácidos gordos com glicerol, ambos da SOCIPOLE SA. No entanto, este não serviu como termo de comparação com os outros devido à formação de uma fase sólida (polímero). Relativamente aos outros ensaios, com razão molar glicerol/ácidos gordos de 1:3, o melhor resultado foi obtido na reacção de glicerol da SOCIPOLE SA com ácido oleico puro, na presença do catalisador ácido p-toluenossulfónico, à temperatura de 106,3ºC e tempo de reacção de 4h30min, sendo a conversão final de ácido oleico 80,7%. Na segunda parte foi feito o estudo da esterificação de ácidos gordos livres com metanol, na presença de ácido sulfúrico, para a produção de biodiesel utilizando ácidos gordos fornecidos pela empresa SOCIPOLE SA, ácidos gordos derivados dos sabões de um resíduo de glicerol fornecido pelo Laboratório de Tecnologia Química, Professora Doutora Lídia Vasconcelos do ISEP e ácidos gordos derivados dos sabões do glicerol bruto, fornecido pela empresa SOCIPOLE SA. Os ensaios foram efectuados a 65ºC, com uma agitação de 120rpm e uma razão molar ácidos gordos/metanol de 1:3. Verificou-se que o índice de acidez do produto, depois de lavado e seco, diminuía com o tempo de reacção e na generalidade a percentagem de ésteres aumentava, observando-se que a partir das seis horas, a reacção se tornava muito lenta. O estudo da razão ácidos gordos/metanol, não permitiu tirar conclusões. O melhor resultado obtido correspondeu a um produto com 96,2% de ésteres metílicos e 8,54mgKOH/gamostra de índice de acidez, pelo que não pode ainda ser designado de biodiesel.

Processos de purificação/ valorização do glicerol proveniente da produção de biodiesel

Mestrado em Engenharia Química - Ramo optimização energética na indústria química

A new MILP based approach for unit commitment in power production planning

This paper presents a complete, quadratic programming formulation of the standard thermal unit commitment problem in power generation planning, together with a novel iterative optimisation algorithm for its solution. The algorithm, based on a mixed-integer formulation of the problem, considers piecewise linear approximations of the quadratic fuel cost function that are dynamically updated in an iterative way, converging to the optimum; this avoids the requirement of resorting to quadratic programming, making the solution process much quicker. From extensive computational tests on a broad set of benchmark instances of this problem, the algorithm was found to be flexible and capable of easily incorporating different problem constraints. Indeed, it is able to tackle ramp constraints, which although very important in practice were rarely considered in previous publications. Most importantly, optimal solutions were obtained for several well-known benchmark instances, including instances of practical relevance, that are not yet known to have been solved to optimality. Computational experiments and their results showed that the method proposed is both simple and extremely effective.

Construção de curvas binodais para sistemas ternários, contendo biodiesel, álcool e água

Trabalho Final de Mestrado para obtenção do grau de Mestre em Engenharia Química