Physio-chemical assessment of beauty leaf (Calophyllum inophyllum) as second-generation biodiesel feedstock

Recently, second-generation (non-vegetable oil) feedstocks for biodiesel production are receiving significant attention due to the cost and social effects connected with utilising food products for the production of energy products. The Beauty leaf tree (Calophyllum inophyllum) is a potential source of non-edible oil for producing second-generation biodiesel because of its suitability for production in an extensive variety of atmospheric condition, easy cultivation, high fruit production rate, and the high oil content in the seed. In this study, oil was extracted from Beauty leaf tree seeds through three different oil extraction methods. The important physical and chemical properties of these extracted Beauty leaf oils were experimentally analysed and compared with other commercially available vegetable oils. Biodiesel was produced using a two-stage esterification process combining of an acid catalysed pre-esterification process and an alkali catalysed transesterification process. Fatty acid methyl ester (FAME) profiles and important physicochemical properties were experimentally measured and estimated using equations based on the FAME analysis. The quality of Beauty leaf biodiesels was assessed and compared with commercially available biodiesels through multivariate data analysis using PROMETHEE-GAIA software. The results show that mechanical extraction using a screw press produces oil at a low cost, however, results in low oil yields compared with chemical oil extraction. High pressure and temperature in the extraction process increase oil extraction performance. On the contrary, this process increases the free fatty acid content in the oil. A clear difference was found in the physical properties of Beauty leaf oils, which eventually affected the oil to biodiesel conversion process. However, Beauty leaf oils methyl esters (biodiesel) were very consistent physicochemical properties and able to meet almost all indicators of biodiesel standards. Overall this study found that Beauty leaf is a suitable feedstock for producing second-generation biodiesel in commercial scale. Therefore, the findings of this study are expected to serve as the basis for further development of Beauty leaf as a feedstock for industrial scale second-generation biodiesel production.

Influence of biodiesel fuel composition on the morphology and microstructure of particles emitted from diesel engines

This study investigates the morphology, microstructure and surface composition of Diesel engine exhaust particles. The state of agglomeration, the primary particle size and the fractal dimension of exhaust particles from petroleum Diesel (petrodiesel) and biodiesel blends from microalgae, cotton seed and waste cooking oil were investigated by means of high resolution transmission electron microscopy. With primary particle diameters between 12-19 nm, biodiesel blend primary particles are found to be smaller than petrodiesel ones (21±2 nm). Also it was found that soot agglomerates from biodiesels are more compact and spherical, as their fractal dimensions are higher, e.g. 2.2±0.1 for 50% algae biodiesel compared to 1.7±0.1 for petrodiesel. In addition, analysis of the chemical composition by means of x-ray photoelectron spectroscopy revealed an up to a factor of two increased oxygen content on the primary particle surface for biodiesel. The length, curvature and distance of graphene layers were measured showing a greater structural disorder for biodiesel with shorter fringes of higher tortuosity. This change in carbon chemistry may reflect the higher oxygen content of biofuels. Overall, it seems that the oxygen content in the fuels is the underlying reason for the observed morphological change in the resulting soot particles.

Synthesis of biodiesel in supercritical alcohols and supercritical carbon dioxide

Biodiesel was synthesized in supercritical fluids by two routes: non-catalytically in supercritical alcohols and by enzyme catalysis in supercritical carbon dioxide. Two oils, sesame oil and mustard oil, and two alcohols, methanol and ethanol, were used for the synthesis. Complete conversion was observed for synthesis in supercritical alcohols whereas only a maximum of 70% conversion was observed for the enzymatic synthesis in supercritical carbon dioxide. For the synthesis in supercritical alcohols, the activation energies and pseudo-first order rate constants were determined. For the reactions in supercritical carbon dioxide, a mechanism based on ping pong bi-bi was proposed and the kinetic parameters were determined. (C) 2009 Elsevier Ltd. All rights reserved.

Discharge Plasma Combined With Bauxite Residue for Biodiesel Exhaust Cleaning: A Case Study on NOx Removal

Experiments were conducted at laboratory level to treat the oxides of nitrogen (NOx) present in raw and dry biodiesel exhaust utilizing a combination of electric discharge plasma and bauxite residue, i. e., red mud, an industrial waste byproduct from the aluminum industry. In this paper, the adsorption and a possible catalytic property of bauxite residue are discussed. Nonthermal plasma was generated using dielectric barrier discharges initiated by ac/repetitive pulse energization. The effect of corona electrodes on the plasma generation was qualitatively studied through NOx cleaning. The plasma reactor and adsorbent reactors were connected in cascade while treating the exhaust. The diesel generator, running on biodiesel fuel, was electrically loaded to study the effectiveness of the cascade system in cleaning the exhaust. Interestingly, under the laboratory conditions studied, plasma-bauxite residue combination has shown good synergistic properties and enhanced the NOx removal up to about 90%. With proper scaling up, the suggested cascade system may become an economically feasible option to treat the exhaust in larger installations. The results were discussed emphasizing the role of bauxite residue as an adsorbent and as a room temperature catalyst.

Biodiesel Exhaust Treatment with Dielectric Barrier Discharges Coupled with Industrial Waste Byproducts

Biodiesel run engines are gaining popularity since the last few years as a viable alternative to conventional petro-diesel based engines. In biodiesel exhaust the content of volatile organic compounds, oil mist, and mass of particulate matter is considerably lower. However, the concentration of oxides of nitrogen (NOx) is relatively higher. In this paper the biodiesel exhaust from a stationary engine is treated under controlled laboratory conditions for removal of NOx using dielectric barrier discharge plasma in cascade with adsorbents prepared from abundantly available industrial waste byproducts like red mud and copper slag. Results were compared with gamma-alumina, a commercial adsorbent. Two different dielectric barrier discharge (DBD) reactors were tested for their effectiveness under Repetitive pulses /AC energization. NOx removal as high as 80% was achieved with pulse energized reactors when cascaded with red mud as adsorbent.

Biodiesel Exhaust Treatment with HFAC Plasma supported by Red Mud: Study on DeNOx and power consumption

The concentration of Nitrogen Oxides (NOx) in engines which use biodiesel as fuel is higher compared to conventional diesel engine exhaust. In this paper, an attempt has been made to treat this exhaust using a combination of High frequency AC (HFAC) plasma and an industrial waste, Red Mud which shows proclivity towards Nitrogen dioxide (NO2) adsorption. The high frequency AC source in combination with the proposed compact double dielectric plasma reactors is relatively more efficient in converting Nitric Oxide (NO) to NO2. It has been shown that the plasma treated gas enhances the activity of red mud as an adsorbent/catalyst and about 60-72% NOx removal efficiency was observed at a specific energy of 250 J/L. The advantage in this method is the cost effectiveness and abundant availability of the waste red mud in the industry. Further, power estimation studies were carried out using Manley's equation for the two reactors employed in the experiment and a close agreement between experimental and predicted powers was observed. (C) 2015 The Authors. Published by Elsevier Ltd.

O biodiesel e o desenvolvimento social da Bahia

Consultoria Legislativa - Área XII - Recursos Minerais, Hídricos e Energéticos.

Biodiesel : um novo combustível para o Brasil

Consultoria Legislativa - Área XII - Recursos Minerais, Hídricos e Energéticos.

O biodiesel e a inclusão social

Consultoria Legislativa - Área XII - Recursos Minerais, Hídricos e Energéticos.

O biodiesel no Brasil e no mundo e o potencial do estado da Paraíba

Consultoria Legislativa - Área XII - Recursos Minerais, Hídricos e Energéticos.

Análise dos impactos de uma usina de biodiesel à luz dos objetivos e das diretrizes do Programa Nacional de Produção e Uso do Biodiesel

Avalia os impactos de uma usina de biodiesel analisando os objetivos e as diretrizes do Programa Nacional de Produção e Uso de Biodiesel (PNPB), a fim de aferir se a usina de biodiesel gerou, no município onde está instalada, os resultados positivos previstos no Programa. A análise dessa Política Pública foi realizada em cinco frentes de estudo: financiamentos de projetos, oleaginosas disponíveis, meio ambiente, geração de emprego e renda, desenvolvimento regional e recursos orçamentários.

A técnica da reação em cadeia de polimerase para diagnóstico de tuberculose : meta-análise de estudos publicados

A tuberculose (TB) é uma doença infecto-contagiosa causada pelo complexo Mycobacteruim tuberculosis. A melhor forma de prevenção se baseia na detecção e na cura dos casos. Um diagnóstico acurado de TB seria essencial para a identificação e tratamento dos pacientes. O diagnóstico laboratorial recomendado baseia-se na baciloscopia e na cultura de material clínico. Novos métodos, os quais empregam técnica genética baseada na amplificação e detecção do DNA bacteriano ou do RNA, visam melhorar a velocidade, sensibilidade e especificidade da detecção da bactéria. O principal teste desse grupo é o método da reação da cadeia da polimerase (PCR). Entretanto, há discordância na literatura quanto as dados de validade da PCR aplicada ao diagnóstico de tuberculose. O presente estudo realizou uma meta-análise sobre o teste da PCR no diagnóstico de TB. O método estatístico usado estimou efeitos do teste entre os estudos primários. A sensibilidade e a especificidade foram calculadas de acordo com as suas definições: Sensibilidade = TPR, taxa de verdadeiros positivos e Especificidade = 1 FPR, onde FPR = taxa de falsos positivos. Calculamos os logit de TPR e FPR a soma e suas diferenças e fizemos uma back transformação aos eixos de TPR vs. FPR com posterior construção da curva SROC (Moses & Shapiro, 1993). A curva SROC representa uma estimativa da medida de acurácia do teste índice a qual é ajustada pelo ponto de corte tanto quanto pela interdependência dos valores de sensibilidade e especificidade obtidos de cada estudo. Foram localizados 1375 artigos através de busca base de dados do Medline no período de 1988 a 2000. Considerando os critérios de elegibilidade, foram aceitos 111 artigos. A caracterização dos estudos, a validade e a sua aplicabilidade foram apreciadas. A medida combinada de todos os estudos foi de 0,86 para a sensibilidade e 0,95 para a especificidade usando-se o método de efeitos aleatórios. A PCR in-house apresentou melhor performance do que a Amplicor. O AMTD obteve os maiores valores de acurácia possivelmente devido o rRNA apresentar múltiplas cópias por célula. Diante das evidências, a PCR se constitui num teste complementar para tuberculose devendo ter critérios próprios para a sua utilização. No entanto, este teste não contempla os atributos requeridos para a substituição da baciloscopia na rotina diagnóstica.

Obtenção de biodiesel por transesterificação enzimática de óleo de soja com etanol empregando t-butanol como solvente

Neste estudo foi investigada a alcoólise enzimática do óleo de soja com etanol, utilizando t-butanol como solvente e enzimas imobilizadas Lipozyme TL IM, Lipozyme RM IM e Novozym 435 como catalisadores. As reações foram realizadas em um reator batelada fechado acoplado a um condensador e com constante agitação. Foram avaliadas a influência do t-butanol, do tipo de enzima utilizada, da razão molar álcool/óleo e da temperatura no rendimento em biodiesel. A etanólise do óleo de soja por sucessivas adições de álcool foi investigada e as melhores condições foram obtidas em presença de t-butanol, razão molar etanol/óleo igual a 3, temperatura de 50C e 5% (m/m) de Novozym 435. Nas reações conduzidas em presença de t-butanol não foram observadas diferenças significativas entre a adição direta e a escalonada do álcool. Os efeitos da adição de álcool só foram observados na ausência de t-butanol. O rendimento máximo em ésteres etílicos atingido foi cerca de 66% após 4h de reação com Novozym 435 na presença de solvente.