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Sample records for biodiesel analisando todos

  1. Comparison of energy production with diesel and biodiesel analyzing all costs involved; Comparacao da producao de energia com diesel e biodiesel analisando todos os custos envolvidos

    Energy Technology Data Exchange (ETDEWEB)

    Udaeta, Miguel Edgar Morales; Baitelo, Ricardo Lacerda; Burani, Geraldo Francisco; Grimoni, Jose Aquiles Baesso [Universidade de Sao Paulo (USP), SP (Brazil). Dept. de Engenharia de Energia e Automacao Eletricas. Grupo de Energia], e-mail: udaeta@pea.usp.br

    2004-07-01

    This paper presents the result of a study comparing two energy resources: diesel and bio-diesel. For the comparative analysis, the full cost accounting is used, a tool that encompasses all the factors involved in a specific project, including not only technical or economical aspects, but also environmental and social aspects. According to the results, it is pointed that both fuels are comparable, since both of them obtained similar scores. However, diesel fuel has more technical and economical advantages, whereas biodiesel proves to be superior in terms of social and environmental areas. (author)

  2. ANALISANDO AS TÉCNICAS DE SOLUÇÃO POR QUADROS E O MÉTODO SIMPLEX QUANDO EMPREGADOS NA RESOLUÇÃO DO PROBLEMA DE TRANSPORTE DE UMA INDÚSTRIA DE PNEUS

    OpenAIRE

    de Souza, Simone Silva frutuoso; Departamento de Engenharia Elétrica - Faculdade de Engenharia de Ilha Solteira, UNESP - Universidade Estadual Paulista "Júlio de mesquita Filho".; Lima, Fernando Parra dos Anjos; Departamento de Engenharia Elétrica - Faculdade de Engenharia de Ilha Solteira, UNESP - Universidade Estadual Paulista "Júlio de mesquita Filho".; Romero, Ruben; Departamento de Engenharia Elétrica - Faculdade de Engenharia de Ilha Solteira, UNESP - Universidade Estadual Paulista "Júlio de mesquita Filho".; Minussi, Carlos Roberto; Departamento de Engenharia Elétrica - Faculdade de Engenharia de Ilha Solteira, UNESP - Universidade Estadual Paulista "Júlio de mesquita Filho".

    2012-01-01

    Este artigo tem por objetivo apresentar um método de resolução alternativo para o problema de transporte de uma indústria de pneus, modelado em programação linear (PL), sendo que o método comumente empregado para solucionar este problema é o método simplex. Faz-se também uma análise entre as duas maneiras de solução.

  3. PRODUÇÃO DE BIODIESEL POR BIOCATÁLISE UTILIZANDO MÉTODO ALTERNATIVO DE IMOBILIZAÇÃO DA LIPASE EM HIDROGEL

    Directory of Open Access Journals (Sweden)

    Fernanda Marder

    2008-12-01

    Full Text Available A sociedade vem buscando alternativas para reduzir o processo de destruição ambiental instalada no planeta, porém, a partirdo século passado, uma nova visão sobre o uso indiscriminado dos recursos ambientais passou a ser discutido levando a utilizaçãode tecnologias alternativas de produção de combustíveis mais limpos, como o biodiesel, produzido a partir de óleos vegetais. Osprocessos enzimáticos constituem-se numa alternativa de produção, por serem métodos biotecnológicos e menos impactantes aomeio ambiente, apresentando até então, elevado custo de produção. Com o objetivo de diminuir custos e aumentar a eficiênciainvestigou-se a imobilização das enzimas por método alternativo e o emprego destes biocatalisadores na produção de biodiesel. Aimobilização da lipase PS Amano foi realizada utilizando esferas formadas pela hidratação de hidrogéis comerciais em soluçãoaquosa contendo a enzima. Com a enzima imobilizada realizou-se a transesterificação, na qual obteve-se conversões em ésteresmetílicos com rendimento de até 70%, em solvente orgânico, no tempo de 24h, temperatura de 55°C, 100 rpm e 40 esferas dehidrogel com enzima imobilizada. O método de transesterificação enzimática com as enzimas imobilizadas em hidrogéisapresentou-se como uma tecnologia alternativa e promissora para a obtenção de biodiesel.

  4. Estimativa da viscosidade de misturas de biodiesel por métodos de contribuição de grupo

    Directory of Open Access Journals (Sweden)

    Epaminondas Gonzaga Lima Neto

    2012-01-01

    Full Text Available Knowing fuel properties is of fundamental importance during the design of sprinklers and others engine components. Group contribution methods are important skills for predicting properties of innumerable types of compounds because they enable the representation of an immense quantity of mixtures. In this work, viscosities of both pure biodiesels and blends derived from various oleaginous plants were estimated. To accomplish this, three group contribution estimation methods were evaluated, one of them being specific for fatty compounds. The mixture was simulated according to two mixing rules, and the precision of the methods were compared to the experimental data. The estimates agree with experimental values and hence confirm their applicability in engineering problems and engine design.

  5. Adaptación del método Bligh & Dyer a la extracción de lípidos de microalgas colombianas para la producción de biodiesel de tercera generación

    OpenAIRE

    González Delgado, Ángel; Galindo, Leisslly; González, Silvia; Peralta Ruiz, Yeimmy; Kafarov, Viatchesla

    2012-01-01

    En la cadena de producción de biodiesel a partir de microalgas, las etapas de disrupción celular y extracción de lípidos son importantes para la obtención de triglicéridos que pueden ser transesterificados a biodiesel y glicerina. En este trabajo se adaptó el método propuesto por Bligh & Dyer, a la extracción de lípidos de microalgas nativas, evaluando conjuntamente el pretratamiento organosolv o hidrólisis ácida como mecanismo de disrupción celular y utilizando el cloroformo (CHCl3), el meta...

  6. Biodiesel Basics

    Energy Technology Data Exchange (ETDEWEB)

    Putzig, Mollie [National Renewable Energy Laboratory (NREL), Golden, CO (United States)

    2017-10-04

    This fact sheet (updated for 2017) provides a brief introduction to biodiesel, including a discussion of biodiesel blends, which blends are best for which vehicles, where to buy biodiesel, how biodiesel compares to diesel fuel in terms of performance, the difference between biodiesel and renewable diesel, how biodiesel performs in cold weather, whether biodiesel use will plug vehicle filters, how long-term biodiesel use may affect engines, biodiesel fuel standards, and whether biodiesel burns cleaner than diesel fuel. The fact sheet also dismisses the use of vegetable oil as a motor fuel.

  7. Biodiesel Basics

    Energy Technology Data Exchange (ETDEWEB)

    None

    2014-07-01

    This fact sheet provides a brief introduction to biodiesel, including a discussion of biodiesel blends and specifications. It also covers how biodiesel compares to diesel fuel in terms of performance (including in cold weather) and whether there are adverse effects on engines or other systems. Finally, it discusses biodiesel fuel quality and standards, and compares biodiesel emissions to those of diesel fuel.

  8. Obtención de biodiesel por transesterificación de aceites vegetales: nuevos métodos de sínteses

    OpenAIRE

    Pardal, Ana Cristina Dinis Vicente

    2012-01-01

    El impacto ocasionado en el medio ambiente por el uso de hidrocarburos y combustibles fósiles ha motivado la necesidad de buscar otros tipos de energias sostenibles. El biodiesel representa una de las alternativas más interesantes, al reemplazar parcial o totalmente el diesel de origen mineral. Los aceites vegetales constituyen la materia prima principal en la producción de biodiesel mediante procesos de transesterificación. En este proceso los triglicéridos reaccionan con un alcohol, en l...

  9. todo para monitorear el rendimiento y contenido de metil-ésteres en el biodiesel usando la espectroscopia vibracional IR Método para monitorear el rendimiento y contenido de metil-ésteres en el biodiesel usando la espectroscopia vibracional IR

    Directory of Open Access Journals (Sweden)

    Jorge Ramírez-Ortiz

    2012-02-01

    Full Text Available El producto principal de la trans-esterificación de aceite comestible fue caracterizado por medio de la espectroscopia del infrarrojo confirmando la presencia de metil-esteres en los mismos, así como la presencia notable de alcanos posiblemente presentes en el diesel, lo que indica que se trata de biodiesel obtenido a partir de aceite comestible. En este trabajo se considera la diferencia en intensidad de los picos en el espectro del infrarrojo en las posiciones 2 925 cm-1 y 1 170 cm-1, que corresponden a las vibraciones de los grupos –CH3 y C=O presentes en el biodiesel, diferencia que se relaciona con el rendimiento del producto y con otras propiedades a través de un modelo matemático que prediga el comportamiento de la variabilidad de diferentes factores. Se puede obtener información a partir del modelo matemático generado con la relación de intensidades de picos característicos y confirmarse con pruebas experimentales. Esto para emplear el modelo matemático para pronosticar diferentes propiedades inherentes sin necesidad de llevar a cabo la experimentación, disminuyendo tiempo y costos.Trans-esterification main product from corn oil were synthesized and characterised by infrared spectroscopy technique, detecting methyl-esters and normal paraffins, compounds present in diesel and confirming that biodiesel from fresh and cocking oil was obtained. In this work, the difference for infrared peaks intensities at 2 925 cm-1 and 1 170 cm-1, that correspond to vibrations of –CH3 y C=O groups in biodiesel, was related with product yield and other proprieties through a regression model that fit behaviour of several factors. Important information is generated from this mathematical model combining handling factors and using differences between two infrared typical peaks in order to predict inherent proprieties, reducing thus time and costs.

  10. todos biocatalíticos de produção de biodiesel de óleo de girassol por lipase de candida antarctica

    Directory of Open Access Journals (Sweden)

    Maiara Priscilla de Souza

    2010-01-01

    Full Text Available A utilização de lipases nas reações de transformação de óleo vegetal alinha-se aos princípios da química verde, principalmentepor serem de fontes renováveis e apresentarem grande eficiência e especificidade nas reações oleoquímicas. Dentre as lipasesestudadas destaca-se a Candida antarctica B (Novozym ® 435 por ser comercializada já imobilizada em suporte de resina acrílica, ecom a vantagem de ser reutilizada nas reações. Neste trabalho esta lipase foi testada na produção de biodiesel realizando ensaios detransesterificação enzimática com óleo de girassol em meio metanólico ou etanólico. Como principal resultado foi possível otimizarum sistema de transesterificação enzimática através de processo contínuo, obtendo alta conversão do óleo de girassol em ésteresetílicos, assim como realizando 87 ciclos com a mesma enzima sem reduzir a atividade e 224 ciclos, após a redução da atividade. Ossistemas obtidos são adequados aos objetivos e podem ser utilizados com ausência de um solvente orgânico, sendo necessário somenteo excesso do álcool.Abstract The use of lipases in reactions of transformationof vegetable oil is against the principles of green chemistry,mainly because they are renewable and have a high efficiencyand specificity in oleochemical reactions. Among the lipasesstudied stands out mainly Candida antarctica B (Novozym ®435 and being marketed already immobilized in support ofacrylic resin, has the advantage of being reused in the reactions.It was possible to optimize a system of transesterification by acontinuous process, with which it was possible maximumconversion of substrate (sunflower oil in ethyl esters, andperform 87 cycles with the same enzyme without reducing theactivity and 224 cycles, after the reduction of the activity. Thesystem obtained are adequate to objectives and can be used inabsence of organic solvent, it is only need the alcohol excess.

  11. Cor ASTM: um método simples e rápido para determinar a qualidade do biodiesel produzido a partir de óleos residuais de fritura ASTM color: a simple and fast method for determining quality of biodiesel produced from used cooking oils

    Directory of Open Access Journals (Sweden)

    Verônica Santos de Morais

    2013-01-01

    Full Text Available In this study, 23 biodiesel samples were produced, 20 from used cooking oil and the remaining 3 from refined soybean oil. The following properties were determined in all of the samples (oil and its respective biodiesel: density; viscosity; total acid number and ASTM color. The results indicated high correlation (R > 0.6 between ASTM color of used cooking oil and total acid number of its resultant biodiesel. This high correlation allows prediction of the quality of the biodiesel produced using a simple and fast procedure such as ASTM color.

  12. Biodiesel fuels

    Science.gov (United States)

    The mono-alkyl esters, most commonly the methyl esters, of vegetable oils, animal fats or other materials consisting mainly of triacylglycerols, often referred to as biodiesel, are an alternative to conventional petrodiesel for use in compression-ignition engines. The fatty acid esters that thus com...

  13. AVALIAÇÃO DE MÉTODOS DE SOLUBILIZAÇÃO PARA DETERMINAÇÃO DE METAIS EM GLICERINA PROVENIENTE DA PRODUÇÃO DE BIODIESEL POR TÉCNICAS DE ESPECTROMETRIA ATÔMICA

    Directory of Open Access Journals (Sweden)

    Caroline D Clasen

    2015-01-01

    Full Text Available This paper describes the evaluation of simple and fast solubilization methods for the determination of Ca, Mg, and K in glycerin samples from biodiesel production by atomic spectrometry. The solubilization in water was compared with two other methods: solubilization in formic acid and solubilization in ethanol. Using solubilization in water, determination of the three analytes was possible; the values of limits of detection for Ca, K, Mg were 0.31, 0.06, and 0.16 mg kg−1, respectively. Because no adequate reference material was available, the accuracy was evaluated by assessing the recoveries tests with both solubilization methods; the evaluation ranged from 90% to 115%, with values of relative standard deviation >8%, indicating good accuracy of the measure. Four crude glycerin samples obtained from biodiesel plants of Rio Grande do Sul were analyzed after treatment with the different methods of solubilization, and the obtained results of Ca, Mg, and K concentration were in agreement with the values obtained from both solubilization methods. Therefore, solubilization in water is concluded to be a simpler, faster, and viable method for sample preparation of glycerin.

  14. Biodiesel and its properties

    Science.gov (United States)

    Biodiesel is a bio-based alternative to conventional diesel fuel derived from petroleum. It consists mainly of the fatty acid esters of vegetable oils or other triacylglycerol feedstocks. This chapter provides a background on biodiesel as well as an overview of biodiesel production, analysis, and pr...

  15. Determinação de glicerol livre e total em amostras de biodiesel por método enzimático com detecção colorimétrica

    Directory of Open Access Journals (Sweden)

    Higor da Cal Valdez

    2012-01-01

    Full Text Available A method based on enzymatic activities was developed using three enzymes (glycerokinase, glycerol-3-phosphate oxidase and peroxidase and colorimetric detection for the determination of glycerol in biodiesel. The enzymatic conversion of glycerol produces H2O2 that is eliminated by the action of peroxidase, an oxygen acceptor and 4- aminoantipirine, producing water and a colored compound, which was analyzed. This method showed good linear correlation coefficient (r = 0.9937 in the concentration range of 4.95 x 10-5 to 3.96 x 10-4% (w/w and had experimental limits of detection and quantitation of 7.10 x 10-6 and 2.10 x 10-5% (w/w, respectively.

  16. Market penetration of biodiesel

    Directory of Open Access Journals (Sweden)

    Kenneth R. Szulczyk, Bruce A. McCarl

    2010-01-01

    Full Text Available This research examines in detail the technology and economics of substituting biodiesel for diesel #2. This endeavor examines three areas. First, the benefits of biodiesel are examined, and the technical problems of large-scale implementation. Second, the biodiesel production possibilities are examined for soybean oil, corn oil, tallow, and yellow grease, which are the largest sources of feedstocks for the United States. Examining in detail the production possibilities allows to identity the extent of technological change, production costs, byproducts, and greenhouse gas (GHG emissions. Finally, a U.S. agricultural model, FASOMGHG was used to predict market penetration of biodiesel, given technological progress, variety of technologies and feedstocks, market interactions, energy prices, and carbon dioxide equivalent prices. FASOMGHG has several interesting results. First, diesel fuel prices have an expansionary impact on the biodiesel industry. The higher the diesel fuel prices, the more biodiesel is produced. However, given the most favorable circumstances, the maximum biodiesel market penetration is 9% in 2030 with a wholesale diesel price of $4 per gallon. Second, the two dominant sources of biodiesel are from corn and soybeans. Sources like tallow and yellow grease are more limited, because they are byproducts of other industries. Third, GHG prices have an expansionary impact on the biodiesel prices, because biodiesel is quite GHG efficient. Finally, U.S. government subsidies on biofuels have an expansionary impact on biodiesel production, and increase market penetration at least an additional 3%.

  17. Market penetration of biodiesel

    Energy Technology Data Exchange (ETDEWEB)

    Szulczyk, Kenneth R. [Department of Economics, Orbita 3, Suleyman Demirel University, Almaty, 050043 (Kazakhstan); McCarl, Bruce A. [Department of Agricultural Economics, 2124 TAMU, Texas A& amp; M University, College Station, Texas, 77843 (United States)

    2010-07-01

    This research examines in detail the technology and economics of substituting biodiesel for diesel number 2. This endeavor examines three areas. First, the benefits of biodiesel are examined, and the technical problems of large-scale implementation. Second, the biodiesel production possibilities are examined for soybean oil, corn oil, tallow, and yellow grease, which are the largest sources of feedstocks for the United States. Examining in detail the production possibilities allows to identity the extent of technological change, production costs, byproducts, and greenhouse gas (GHG) emissions. Finally, a U.S. agricultural model, FASOMGHG was used to predict market penetration of biodiesel, given technological progress, variety of technologies and feedstocks, market interactions, energy prices, and carbon dioxide equivalent prices. FASOMGHG has several interesting results. First, diesel fuel prices have an expansionary impact on the biodiesel industry. The higher the diesel fuel prices, the more biodiesel is produced. However, given the most favorable circumstances, the maximum biodiesel market penetration is 9% in 2030 with a wholesale diesel price of $4 per gallon. Second, the two dominant sources of biodiesel are from corn and soybeans. Sources like tallow and yellow grease are more limited, because they are byproducts of other industries. Third, GHG prices have an expansionary impact on the biodiesel prices, because biodiesel is quite GHG efficient. Finally, U.S. government subsidies on biofuels have an expansionary impact on biodiesel production, and increase market penetration at least an additional 3%.

  18. Biodiesel at TRANSPETRO; Biodiesel na TRANSPETRO

    Energy Technology Data Exchange (ETDEWEB)

    Fonseca, Antonio Carlos C. da; Machado, Tupinamba da Conceicao S. [TRANSPETRO, Rio de Janeiro, RJ (Brazil)

    2008-07-01

    TRANSPETRO took the challenge, in early 2007, to design and install in less than one year, the systems of injection of Biodiesel in its Distribution Bases with loading truck. The basics premises, adopted for the development of the project, were based on the criteria of safety, operational reliability and to complying with legal deadline. These points guided the actions of Coordinating with two goals: Ensure the injection of Biodiesel according to time by law and the future flexibility of the system. Two to three sets were installed in each Distribution Base, respecting the characteristics of the market and the distance from centers producers of Biodiesel. TRANSPETRO was one of the first companies in Brazil using cutting-edge technology in injection of this product through the use of digital valves in the control of flow of the product. Sum up the storage capacity of Biodiesel the first and second phase of the project, TRANSPETRO will provide 8 to 10 days' stock of Biodiesel to its customers based on the injection of 5% to Diesel Oil. The Project Biodiesel at TRANSPETRO was differentiated by working in teams, the strategy for deployment and the modular aspect with focus on future demand. (author)

  19. Supercritical Synthesis of Biodiesel

    Directory of Open Access Journals (Sweden)

    Michel Vaultier

    2012-07-01

    Full Text Available The synthesis of biodiesel fuel from lipids (vegetable oils and animal fats has gained in importance as a possible source of renewable non-fossil energy in an attempt to reduce our dependence on petroleum-based fuels. The catalytic processes commonly used for the production of biodiesel fuel present a series of limitations and drawbacks, among them the high energy consumption required for complex purification operations and undesirable side reactions. Supercritical fluid (SCF technologies offer an interesting alternative to conventional processes for preparing biodiesel. This review highlights the advances, advantages, drawbacks and new tendencies involved in the use of supercritical fluids (SCFs for biodiesel synthesis.

  20. Catalysis in biodiesel processing

    Science.gov (United States)

    A substantial industry has grown in recent years to achieve the industrial scale production of biodiesel, a renewable replacement for petroleum-derived diesel fuel. The prevalent technology for biodiesel production at this time involves use of the long known single-use catalysts sodium hydroxide (o...

  1. Biodiesel from conventional feedstocks.

    Science.gov (United States)

    Du, Wei; Liu, De-Hua

    2012-01-01

    At present, traditional fossil fuels are used predominantly in China, presenting the country with challenges that include sustainable energy supply, energy efficiency improvement, and reduction of greenhouse gas emissions. In 2007, China issued The Strategic Plan of the Mid-and-Long Term Development of Renewable Energy, which aims to increase the share of clean energy in the country's energy consumption to 15% by 2020 from only 7.5% in 2005. Biodiesel, an important renewable fuel with significant advantages over fossil diesel, has attracted great attention in the USA and European countries. However, biodiesel is still in its infancy in China, although its future is promising. This chapter reviews biodiesel production from conventional feedstocks in the country, including feedstock supply and state of the art technologies for the transesterification reaction through which biodiesel is made, particularly the enzymatic catalytic process developed by Chinese scientists. Finally, the constraints and perspectives for China's biodiesel development are highlighted.

  2. Biodiesel from microalgae

    OpenAIRE

    Aullón Alcaine, Anna

    2010-01-01

    In this project we will travel back in time to the nineteenth century to discover the inventor of the diesel engine, Rudolf Diesel, and his renewable fuel vision that is only now being realized. Biodiesel has received considerable attention in recent years as it is biodegradable, renewable and non-toxic fuel. It emits less gaseous pollutants than conventional diesel fuel, and can work directly in diesel engines with no required modifications. The most common way to produce biodiesel is by tra...

  3. Biodiesel Fuel Quality and the ASTM Biodiesel Standard

    Science.gov (United States)

    Biodiesel is usually produced from vegetable oils, animal fats and used cooking oils with alternative feedstocks such as algae receiving increasing interest. The transesterification reaction which produces biodiesel also produces glycerol and proceeds stepwise via mono- and diacylglycerol intermedi...

  4. Business management for biodiesel producers

    Energy Technology Data Exchange (ETDEWEB)

    Gerpen, Jon Van [Iowa State Univ., Ames, IA (United States)

    2004-07-01

    The material in this book is intended to provide the reader with information about the biodiesel and liquid fuels industry, biodiesel start-up issues, legal and regulatory issues, and operational concerns.

  5. Biodiesel Handling and Use Guide (Fifth Edition)

    Energy Technology Data Exchange (ETDEWEB)

    Alleman, Teresa L.; McCormick, Robert L.; Christensen, Earl D.; Fioroni, Gina; Moriarty, Kristi; Yanowitz, Janet

    2016-11-08

    This document is a guide for those who blend, distribute, and use biodiesel and biodiesel blends. It provides basic information on the proper and safe use of biodiesel and biodiesel blends in engines and boilers, and is intended to help fleets, individual users, blenders, distributors, and those involved in related activities understand procedures for handling and using biodiesel fuels.

  6. Snohomish County Biodiesel Project

    Energy Technology Data Exchange (ETDEWEB)

    Chang, Terrill; Carveth, Deanna

    2010-02-01

    Snohomish County in western Washington State began converting its vehicle fleet to use a blend of biodiesel and petroleum diesel in 2005. As prices for biodiesel rose due to increased demand for this cleaner-burning fuel, Snohomish County looked to its farmers to grow this fuel locally. Suitable seed crops that can be crushed to extract oil for use as biodiesel feedstock include canola, mustard, and camelina. The residue, or mash, has high value as an animal feed. County farmers began with 52 acres of canola and mustard crops in 2006, increasing to 250 acres and 356 tons in 2008. In 2009, this number decreased to about 150 acres and 300 tons due to increased price for mustard seed.

  7. Why Teach about Biodiesel?

    Science.gov (United States)

    Lawrence, Richard

    2002-01-01

    Proposes that study of biodiesel as a healthier alternative to petroleum diesel be included in the curriculum. Suggests that teachers will play a critical role during the transition away from fossil fuel technologies. Provides background information and web-based resources. (DLH)

  8. Analysis of biodiesel

    Science.gov (United States)

    Biodiesel is a biogenic alternative to diesel fuel derived from petroleum. It is produced by a transesterification reaction from materials consisting largely of triacylglycerols such as vegetable and other plant oils, animal fats, used cooking oils, and “alternative” feedstocks such as algal oils. T...

  9. Costilla County Biodiesel Pilot Project

    Energy Technology Data Exchange (ETDEWEB)

    Doon, Ben; Quintana, Dan

    2011-08-25

    The Costilla County Biodiesel Pilot Project has demonstrated the compatibility of biodiesel technology and economics on a local scale. The project has been committed to making homegrown biodiesel a viable form of community economic development. The project has benefited by reducing risks by building the facility gradually and avoiding large initial outlays of money for facilities and technologies. A primary advantage of this type of community-scale biodiesel production is that it allows for a relatively independent, local solution to fuel production. Successfully using locally sourced feedstocks and putting the fuel into local use emphasizes the feasibility of different business models under the biodiesel tent and that there is more than just a one size fits all template for successful biodiesel production.

  10. Biodiesel production using heterogeneous catalysts.

    Science.gov (United States)

    Semwal, Surbhi; Arora, Ajay K; Badoni, Rajendra P; Tuli, Deepak K

    2011-02-01

    The production and use of biodiesel has seen a quantum jump in the recent past due to benefits associated with its ability to mitigate greenhouse gas (GHG). There are large number of commercial plants producing biodiesel by transesterification of vegetable oils and fats based on base catalyzed (caustic) homogeneous transesterification of oils. However, homogeneous process needs steps of glycerol separation, washings, very stringent and extremely low limits of Na, K, glycerides and moisture limits in biodiesel. Heterogeneous catalyzed production of biodiesel has emerged as a preferred route as it is environmentally benign needs no water washing and product separation is much easier. The present report is review of the progress made in development of heterogeneous catalysts suitable for biodiesel production. This review shall help in selection of suitable catalysts and the optimum conditions for biodiesel production.

  11. Sustainable Biocatalytic Biodiesel Production

    DEFF Research Database (Denmark)

    Güzel, Günduz

    and chemical equilibria as part of his main sustainable biodiesel project. The transesterification reaction of vegetable oils or fats with an aliphatic alcohol – in most cases methanol or ethanol – yields biodiesel (long-chain fatty acid alkyl esters – FAAE) as the main product in the presence of alkaline....../acid catalysts or biocatalysts (free or immobilised lipase enzymes). The reaction by-product glycerol is immiscible with the ester products (FAAE and oils/fats) in addition to the partial miscibility problem of methanol or ethanol with oils/fats. The insoluble parts of alcohol feeds or by-products form emulsion...... droplets within the reaction media, where continuous stirring operations are applied to improve mass transfer and thus reaction rates. In all other cases, there is a heterogeneous alcohol phase in equilibrium with the ester phase under equilibrium conditions. The immiscibility and/or miscibility drawbacks...

  12. Production of biodiesel from microalgae

    Directory of Open Access Journals (Sweden)

    Danilović Bojana R.

    2014-01-01

    Full Text Available In recent years, more attention has been paid to the use of third generation feedstocs for the production of biodiesel. One of the most promising sources of oil for biodiesel production are microalgae. They are unicellular or colonial photosynthetic organisms, with permanently increasing industrial application in the production of not only chemicals and nutritional supplements but also biodiesel. Biodiesel productivity per hectare of cultivation area can be up to 100 times higher for microalgae than for oil crops. Also, microalgae can grow in a variety of environments that are often unsuitable for agricultural purposes. Microalgae oil content varies in different species and can reach up to 77% of dry biomass, while the oil productivity by the phototrophic cultivation of microalgae is up to 122 mg/l/d. Variations of the growth conditions and the implementation of the genetic engineering can induce the changes in the composition and productivity of microalgal oil. Biodiesel from microalgae can be produced in two ways: by transesterification of oil extracted from biomass or by direct transesterification of algal biomass (so called in situ transesterification. This paper reviews the curent status of microalgae used for the production of biodiesel including their isolation, cultivation, harvesting and conversion to biodiesel. Because of high oil productivity, microalgae will play a significant role in future biodiesel production. The advantages of using microalgae as a source for biofuel production are increased efficiency and reduced cost of production. Also, microalgae do not require a lot of space for growing and do not have a negative impact on the global food and water supplies. Disadvantages of using microalgae are more difficult separation of biomass and the need for further research to develop standardized methods for microalgae cultivation and biodiesel production. Currently, microalgae are not yet sustainable option for the commercial

  13. Biodiesel Test Plan

    Science.gov (United States)

    2014-07-01

    toxic replacement is most often made from soybean oil through a process called transesterfication, whereby it is mixed with methanol to produce both soy...vegeta b le oils or animal fats , for use in compression-ignition (diesel) engines. This specification is For pure (100%) biodiesel prior to use or...field testing, provided no safety concerns or major issues are discovered. The BUSL engines and fuel system will be prepared and modified to ensure

  14. Predicting various biodiesel fuel properties

    Science.gov (United States)

    Several essential fuel properties of biodiesel are largely determined by the properties of the fatty esters which are its main components. These include cetane number, kinematic viscosity, oxidative stability, and cold flow which are contained in almost all biodiesel standards but also other propert...

  15. The State High Biodiesel Project

    Science.gov (United States)

    Heasley, Paul L.; Van Der Sluys, William G.

    2009-01-01

    Through a collaborative project in Pennsylvania, high school students developed a method for converting batches of their cafeteria's waste fryer oil into biodiesel using a 190 L (50 gal) reactor. While the biodiesel is used to supplement the school district's heating and transportation energy needs, the byproduct--glycerol--is used to make hand…

  16. Biodiesel lubricity and other properties

    Science.gov (United States)

    Biodiesel, defined as the mono-alkyl esters of vegetable oils or animal fats, is an “alternative” diesel fuel that is becoming accepted in a steadily growing number of countries worldwide. Since the source of biodiesel varies with the location, and other sources such as recycled oils are continuousl...

  17. Metal content determination in biodiesel samples by microwave mineralization and ICP-AES

    OpenAIRE

    Molina Mayo, Carlos; Garcia Salgado, Sara; Garcia Casillas, David; Brito Alayón, Andrea; Garcia Rodriguez, Teresa; Jimenez Moreno, Francisco; Quijano Nieto, M. Angeles; Bonilla Simon, M. Milagros

    2010-01-01

    El trabajo comprende la puesta a punto de un método de digestión, mediante calentamiento de microondas, de muestras de biodiesel obtenidas mediante catálisis homogénea de aceites vegetales, para la determinación de 20 elementos mediante ICP-AES.

  18. Er biodiesel en god ide?

    DEFF Research Database (Denmark)

    Schmidt, Jannick

    2007-01-01

    Biodiesel opfattes som en grøn miljøvenlig teknologi. Men har dette 'grønne' alternativ til konventionel diesel en skjult bagside af medaljen? Og kan det være, at man i stedet for at få et bedre miljø, medvirker til øgede miljøpåvirkninger i form af emissioner og naturødelæggelse, når man skifter...... til biodiesel? I artiklen belyses nogle af de mest sejlivede myter omkring biodiesel. Udgivelsesdato: Januar...

  19. Obtention and characterization of biodiesel; Obtencao e caracterizacao do biodiesel

    Energy Technology Data Exchange (ETDEWEB)

    Santos, Leonidas B.O. dos; Caitano, Moises; Aranda, Donato A.G.; Mothe, Cheila G. [Universidade Federal do Rio de Janeiro (UFRJ), RJ (Brazil)

    2004-07-01

    Biodiesel is an ester resulting from the transesterification reaction of an alcohol and an oil obtained from biomass. The products of the transesterification are an ester and the glycerol. The biodiesel and the petroleum commercial diesel have similar properties, and they can be mixed and used in diesel motors. The use of biodiesel will allow a better exploration of the energetic potential of our cultures. The biodiesel has some advantages compared to others combustibles, such as adaptability to usual diesel motors and non-generation of NO{sub x} and SO{sub x} compounds. Many experiments with biodiesel have been made in Brazil since the 70's. This work made samples of biodiesel by transesterification batch reactions to many blends of soybean oil and residual fry oil, at room temperature, using mechanical mixture or magnetic agitation by a magnetic stirrer, using as catalysts sodium methoxide and potassium hydroxide. For each obtained sample tests to determine the Acidity Index (ABNT-MB-74), Saponification Index (ABNT-MB-75), Iodine Wijz Index (ABNT-MB- 77), thermal analysis by DTA and TG (TA Instruments SDT 2960, 30 to 800 deg C, 10 deg C/min at nitrogen atmosphere) and rheological test (Haake RS 150 Rheo Stress rheometer) were done. (author)

  20. Lipases as biocatalyst for biodiesel production.

    Science.gov (United States)

    Fan, Xiaohu; Niehus, Xochitl; Sandoval, Georgina

    2012-01-01

    The global shortages of fossil fuels, significant increase in the price of crude oil, and increased environmental concerns have stimulated the rapid growth in biodiesel production. Biodiesel is generally produced through transesterification reaction catalyzed either chemically or enzymatically. Enzymatic transesterification draws high attention because that process shows certain advantages over the chemical catalysis of transesterification and it is "greener." This paper reviews the current status of biodiesel production with lipase-biocatalysis approach, including sources of lipases, kinetics, and reaction mechanism of biodiesel production using lipases, and lipase immobilization techniques. Factors affecting biodiesel production and economic feasibility of biodiesel production using lipases are also covered.

  1. Verf en biodiesel uit algen

    NARCIS (Netherlands)

    Mooibroek, H.

    2009-01-01

    Met algen kun je niet alleen biodiesel en groene coatings produceren, maar ook iets doen aan het mestoverschot en de uitstoot van kooldioxide. In Delfzijl zijn kweekvijvers geopend om de technologie hiervoor te ontwikkelen

  2. Toxicology of Biodiesel Combustion products

    Science.gov (United States)

    1. Introduction The toxicology of combusted biodiesel is an emerging field. Much of the current knowledge about biological responses and health effects stems from studies of exposures to other fuel sources (typically petroleum diesel, gasoline, and wood) incompletely combusted. ...

  3. Análisis Químico de Mezclas Biodiesel de Aceite de Cocina Usado y Diesel por Espectroscopia Infrarroja Chemical Analysis of Mixtures of Biodiesel from Used Cooking Oil and Diesel by Infrared Spectroscopy

    Directory of Open Access Journals (Sweden)

    Jennifer J Lafont

    2011-01-01

    Full Text Available Se propone un método eficiente para determinar los porcentajes óptimos de mezclas biodiesel de aceite usado y diesel, para uso automotor. El procedimiento consiste en recolección del aceite usado, limpieza de residuos, y obtención del biodiesel mediante una reacción de transesterificación, con diferentes proporciones molares metanol/aceite . Las muestras fueron analizadas por espectroscopia infrarroja. Se encontró que una proporción metanol/aceite de 1:8 presentó mayor rendimiento en la obtención de biodiesel. Los espectros de infrarrojo mostraron el incremento del máximo de carbonilo de los esteres metílicos al aumentar las concentraciones de biodiesel en las mezcla biodiesel+diesel. Se concluye que la técnica usada cumple con la ley de Beer-Lambert y es adecuada para cuantificar este tipo de mezclas.An efficient method to determine the optimum percentages of blends biodiesel from used oil and diesel for automotive use, is proposed. The procedure consists of recollection of used frying oil, residue cleaning and synthesis of biodiesel by a transesterification reaction with different molar proportions of methanol/oil. The samples were analyzed by infrared spectroscopy. It was found that a ratio methanol/oil of 1:8 showed higher performance in the production of biodiesel. The infrared spectra showed an increase in the carbonyl peak of the methyl esters with the increase of the concentration of biodiesel in the mixtures biodiesel+diesel. It is concluded that proposed technique complies with the Beer-Lambert law and it is a good method to quantify these types of mixtures.

  4. Biodiesel Fuel Quality and the ASTM Standard

    Science.gov (United States)

    Biodiesel is usually produced from vegetable oils, animal fats and used cooking oils with alternative feedstocks such as algae receiving increasing interest. The transesterification reaction which produces biodiesel also produces glycerol and proceeds stepwise via mono- and diacylglycerol intermedia...

  5. Performance and emission characteristics of double biodiesel blends with diesel

    OpenAIRE

    Kuthalingam Arun Balasubramanian; Asokan Guruprasath; Marta Vivar; Skryabin Igor; Karuppian Srithar

    2013-01-01

    Recent research on biodiesel focused on performance of single biodiesel and its blends with diesel. The present work aims to investigate the possibilities of the application of mixtures of two biodiesel and its blends with diesel as a fuel for diesel engines. The combinations of Pongamia pinnata biodiesel, Mustard oil biodiesel along with diesel (PMD) and combinations of Cotton seed biodiesel, Pongamia pinnata biodiesel along with diesel (CPD) are taken for the experimental analysis. Ex...

  6. Todos interinos ¿todos precarios?

    OpenAIRE

    Riesco Sanz, Alberto; García López, Jorge; Meseguer Gancedo, Pablo

    2006-01-01

    La “precariedad”, por ejemplo. Un término con el que nos hemos familiarizado últimamente a la hora de diagnosticar la situación presente, entendiéndola como “todo fenómeno” de “degradación” de las condiciones “de vida, empleo y trabajo” que dificulte la realización de “proyectos de vida personales emancipados”. Pero, con dicho término, ¿estamos dando cuenta de la especifi cidad de ciertos procesos sociales o describiendo algunos de sus efectos? Parece, más bien, lo seg...

  7. Biodiesel Production from Spent Coffee Grounds

    Science.gov (United States)

    Blinová, Lenka; Bartošová, Alica; Sirotiak, Maroš

    2017-06-01

    The residue after brewing the spent coffee grounds is an oil-containing waste material having a potential of being used as biodiesel feedstock. Biodiesel production from the waste coffee grounds oil involves collection and transportation of coffee residue, drying, oil extraction, and finally production of biodiesel. Different methods of oil extraction with organic solvents under different conditions show significant differences in the extraction yields. In the manufacturing of biodiesel from coffee oil, the level of reaction completion strongly depends on the quality of the feedstock oil. This paper presents an overview of oil extraction and a method of biodiesel production from spent coffee grounds.

  8. Recent trends in biodiesel production

    Directory of Open Access Journals (Sweden)

    Meisam Tabatabaei

    2015-09-01

    Full Text Available This article fully discusses the recent trends in the production of one the most attractive types of biofuels, i.e., biodiesel.with a focus on the existing obstacles for its large scale production. Moreover, recent innovations/improvements under three categories of upstream, mainstream, and downstream processes are also presented. Upstream strategies are mainly focused on seeking more sustainable oil feedstocks and/or enhancing the quality of waste-oriented ones. The mainstream strategies section highlights the numerous attempts made to enhance agitation efficiency including chemical and/or mechanical strategies. Finally, the innovative downstream strategies basically dealing with 1 separation of biodiesel and glycerin, 2 purification of biodiesel and glycerin, and 3 improving the characteristics of the produced fuel, are comprehensively reviewed.

  9. Biodiesel production : process and characterization

    OpenAIRE

    2010-01-01

    Resumo: O biodiesel (ésteres) é um combustível que pode ser produzido a partir de óleos vegetais, gorduras animais e óleo de origem microbiana (algas, fungos e bactérias). As matérias-primas são convertidas em biodiesel por meio de uma reação química envolvendo álcool e catalisador. Esta reação é chamada de transesterificação ou etanólise, caso o álcool for o etanol. Neste trabalho, foi realizada a produção de biodiesel utilizando os seguintes sistemas: reator em batelada, processo de destila...

  10. Analysis of used frying fats for biodiesel production

    Directory of Open Access Journals (Sweden)

    Dobarganes, M. C.

    2008-03-01

    Full Text Available Used frying fats and oils with highly variable and uncontrolled quality are used for the production of biodiesel . The objective of this study was to define the analytical methods useful to obtaining information on the quality of the used frying oils as raw material for biodiesels as well as for the characterization of the biodiesels obtained from them. Twentyfour used frying oils from restaurants and domestic fryers were analyzed before and after transesterification to fatty acid methyl esters (FAME. From a detailed analysis of the samples by means of a combination of adsorption and size exclusion chromatography, the quantitative importance of polymeric compounds was deduced both from the direct analysis of the oils and from their FAME. Excellent linear correlation between polar compounds and polar FAME (R=0.9768 was found. The possibilities of interferences from polar fatty acid in the standard method to determine the ester content are defined. Finally, determination of non-polar FAME by silica column is proposed as a good alternative to the gas chromatography method.Los aceites y grasas de fritura, que se caracterizan por tener una calidad muy variable, se utilizan como material prima para la producción de biodiesel. El objetivo de este estudio es definir la utilidad de los métodos analíticos desarrollados para los aceites y grasas de fritura para caracterizar el biodiesel obtenido. Veinticuatro aceites de fritura procedentes del sector de restauración y de fritura doméstica fueron analizados antes y después de su transesterificación a ésteres metílicos de ácidos grasos. A partir de un análisis detallado mediante cromatografías de adsorción y exclusión, se deduce la importancia cuantitativa de los compuestos de polimerización tanto en el análisis directo de los aceites como en el análisis de los ésteres metílicos. Se encontró una excelente correlación lineal entre los compuestos polares y los ésteres metílicos polares

  11. High oleic sunflower biodiesel: quality control and different purification methods

    Directory of Open Access Journals (Sweden)

    Pighinelli, Anna L.M.T.

    2011-06-01

    catalizador. Un experimento fue entonces realizado en un pequeño reactor, y el biodiesel producido fue purificado por tres métodos diferentes: agua ácida, sílica y destilación. Los aspectos de calidad de las muestras de biodiesel purificadas fueron evaluados de acuerdo a las especificaciones brasileñas para biodiesel, y la destilación mostro ser el mejor método de purificación.

  12. Montana BioDiesel Initiative

    Energy Technology Data Exchange (ETDEWEB)

    Peyton, Brent [Montana State Univ., Bozeman, MT (United States)

    2017-01-29

    This initiative funding helped put Montana State University (MSU) in a position to help lead in the development of biodiesel production strategies. Recent shortages in electrical power and rising gasoline prices have focused much attention on the development of alternative energy sources that will end our dependence on fossil fuels. In addition, as the concern for environmental impact of utilizing fossil fuels increases, effective strategies must be implemented to reduce emissions or the increased regulations imposed on fossil fuel production will cause economic barriers for their use to continue to increase. Biodiesel has been repeatedly promoted as a more environmentally sound and renewable source of fuel and may prove to be a highly viable solution to provide, at the least, a proportion of our energy needs. Currently there are both practical and economic barriers to the implementation of alternative energy however the advent of these technologies is inevitable. Since many of the same strategies for the storage, transport, and utilization of biodiesel are common with that of fossil fuels, the practical barriers for biodiesel are comparatively minimal. Strategies were developed to harness the CO2 as feedstock to support the growth of biodiesel producing algae. The initiative funding led to the successful funding of highly rated projects in competitive national grant programs in the National Science Foundation and the Department of Energy. This funding put MSU in a key position to develop technologies to utilize the CO2 rich emissions produced in fossil fuel utilization and assembled world experts concerning the growth characteristics of photosynthetic microorganisms capable of producing biodiesel.

  13. A review of chromatographic characterization techniques for biodiesel and biodiesel blends.

    Energy Technology Data Exchange (ETDEWEB)

    Pauls, R. E. (Chemical Sciences and Engineering Division)

    2011-05-01

    This review surveys chromatographic technology that has been applied to the characterization of biodiesel and its blends. Typically, biodiesel consists of fatty acid methyl esters produced by transesterification of plant or animal derived triacylglycerols. Primary attention is given to the determination of trace impurities in biodiesel, such as methanol, glycerol, mono-, di-, and triacylglycerols, and sterol glucosides. The determination of the fatty acid methyl esters, trace impurities in biodiesel, and the determination of the biodiesel content of commercial blends of biodiesel in conventional diesel are also addressed.

  14. Biodiesel production with microalgae as feedstock: from strains to biodiesel.

    Science.gov (United States)

    Gong, Yangmin; Jiang, Mulan

    2011-07-01

    Due to negative environmental influence and limited availability, petroleum-derived fuels need to be replaced by renewable biofuels. Biodiesel has attracted intensive attention as an important biofuel. Microalgae have numerous advantages for biodiesel production over many terrestrial plants. There are a series of consecutive processes for biodiesel production with microalgae as feedstock, including selection of adequate microalgal strains, mass culture, cell harvesting, oil extraction and transesterification. To reduce the overall production cost, technology development and process optimization are necessary. Genetic engineering also plays an important role in manipulating lipid biosynthesis in microalgae. Many approaches, such as sequestering carbon dioxide from industrial plants for the carbon source, using wastewater for the nutrient supply, and maximizing the values of by-products, have shown a potential for cost reduction. This review provides a brief overview of the process of biodiesel production with microalgae as feedstock. The methods associated with this process (e.g. lipid determination, mass culture, oil extraction) are also compared and discussed.

  15. Study on Carbonyl Emissions of Diesel Engine Fueled with Biodiesel

    National Research Council Canada - National Science Library

    Ruina Li; Zhong Wang; Guangju Xu

    2017-01-01

      Biodiesel is a kind of high-quality alternative fuel of diesel engine. In this study, biodiesel and biodiesel/diesel blend were used in a single cylinder diesel engine to study the carbonyl emissions...

  16. [Progress and prospect of biodiesel industry in China].

    Science.gov (United States)

    Li, Yang; Zeng, Jing; Du, Wei; Liu, Dehua

    2015-06-01

    The development of biodiesel and production feedstock in China was introduced, and the biodiesel production technologies as well as corresponding representative enterprises were reviewed. In addition, the development prospect of biodiesel industry in China was addressed.

  17. Biodiesel via hydrotreating of fat

    DEFF Research Database (Denmark)

    Madsen, Anders Theilgaard; Ahmed, El Hadi; Christensen, Claus Hviid

    Biodiesel production via transesterification to fatty acid alkyl esters is rising rapidly worldwide due to the limited availability of fossil resources and the problems of global warming. Often, however, the use of 2nd-generation feedstock like animal waste fat and trap greases etc. is made...

  18. Biodiesel production using heterogenous catalyst

    Science.gov (United States)

    The current transesterification of triacylglycerides (TAG) to produce biodiesel is based on the homogenous catalyst method using strong base such as hydroxides or methoxides. However, this method results in a number of problems: (1) acid pre-treatment is required of feedstocks high in free fatty ac...

  19. Analisando a dacriocistorrinostomia endoscópica: dificuldades e soluções Analyzing endoscopic dacryocystorhinostomy: difficulties and solutions

    Directory of Open Access Journals (Sweden)

    Denis Knijnik

    2007-06-01

    Full Text Available OBJETIVO: Verificar a incidência de dificuldades operatórias em dacriocistorrinostomias endoscópicas, assim como propor soluções. MÉTODOS: Estudo retrospectivo que verificou nossos registros de 268 dacriocistorrinostomias endoscópicas endonasais, em 241 pacientes, realizadas de outubro de 1999 a agosto de 2005. A idade dos pacientes variou de 2 a 92 anos (média: 49,1 anos. A uncinectomia (remoção de parte do processo uncinado foi utilizada como acesso à fossa lacrimal, não havendo necessidade de brocas. RESULTADOS: Houve dificuldades operatórias em 37 (13,8% procedimentos. As dificuldades mais comuns foram: hemorragia (n=12 e anormalidades da anatomia nasal (n=14. Houve ainda dificuldade em alguns casos de mucocele, células etmoidais anteriores e processo uncinado resistente. Das alterações nasais que dificultaram a cirurgia, a mais comum foi desvio de septo, seguida de pólipos, hipertrofia da concha média e fratura da parede lateral. Complicações ocorreram em apenas 5 (1,9% casos, incluindo epistaxe pós-operatória (n=3, enfisema subcutâneo na face e deslocamento do tubo de silicone. CONCLUSÃO: A dacriocistorrinostomia endoscópica endonasal com uncinectomia mostrou-se segura, com um mínimo de complicações no pós-operatório. Embora a maioria das cirurgias tenha transcorrido sem dificuldades, este procedimento pode ser tecnicamente difícil, principalmente na presença de hemorragia ou espaço nasal reduzido.PURPOSE: To assess the incidence of operative difficulties in endonasal endoscopic dacryocystorhinostomies, as well as to suggest solutions. METHODS: This retrospective study searched for reports of complications and intraoperative difficulties in our records of 268 endoscopic endonasal dacryocystorhinostomies, in 241 patients, performed from October 1999 to August 2005. The patients' age ranged from 2 to 92 years (mean: 49.1 years. Uncinectomy (partial excision of the uncinate process was employed as the entry to

  20. New regulatory landmark for biodiesel use; Novo marco regulatorio para usos de biodiesel

    Energy Technology Data Exchange (ETDEWEB)

    Araujo, Rosangela Moreira de [Agencia Nacional do Petroleo, Gas Natural e Biocombustiveis (ANP), Rio de Janeiro, RJ (Brazil)

    2008-07-01

    The Brazilian Biodiesel Production and Use of Biodiesel - PNPB, made possible the insert of Biodiesel in the Brazilian energy matrix. The National Agency of the Petroleum, Natural Gas and Biofuels - ANP was responsible to create the outline regulatory that established the rules for entrance and commercialization of this new fuel in the country. This work seeks to present the effects of the implantation of the new relative rules to the biodiesel use. (author)

  1. Chemical alternative to the energetic use of biodiesel; Chemische Alternativen zur energetischen Nutzung von Biodiesel

    Energy Technology Data Exchange (ETDEWEB)

    Warwel, S; Ruesch genannt Klaas, M.; Harperscheid, M. [Bundesanstalt fuer Getreide-, Kartoffel- und Fettforschung, Muenster (Germany). Inst. fuer Biochemie und Technologie der Fette - H.P. Kaufmann-Inst.

    1996-12-31

    Biodiesel is environment-friendly, but much more costly to produce than `normal` diesel fuel. Higher economic efficiency can be achieved by using biodiesel as a chemical feedstock instead. Tenside and polymers offer a wide range of applications. (orig) [Deutsch] Biodiesel ist ein umweltfreundlicher Kraftstoff, jedoch in der Herstellung deutlich teurer als Mineraloel-Dieselkraftstoff. Eine signifikant hoehere Wertschoepfung koennte errreicht werden, wenn Biodiesel nicht im Kraftstoffsektor, sondern als chemischer Rohstoff verwendet wird. Tenside und Polymere sind hierbei grossvolumige Einsatzbereiche. (orig)

  2. Thermoanalytical characterization of castor oil biodiesel

    Energy Technology Data Exchange (ETDEWEB)

    Conceicao, Marta M.; Fernandes, Valter J. [Universidade Federal do Rio Grande do Norte, Departamento de Quimica, Laboratorio de Combustiveis, Natal, RN, Lagoa Nova, CEP 59072970 (Brazil); Candeia, Roberlucia A.; Bezerra, Aline F.; Souza, Antonio G. [Universidade Federal da Paraiba, Departamento Quimica, Joao Pessoa, PB (Brazil); Silva, Fernando C. [Universidade Federal do Maranhao, Sao Luis, Maranhao (Brazil)

    2007-06-15

    The castor oil seed has 47-49% of oil. Biodiesel obtained from castor oil has a lower cost compared to the ones obtained from other oils, as due its solvability in alcohol transesterification occurs without heating. The use of biodiesel will allow a reduction on the consumption of petroleum-derived fuels minimizing the harmful effects on the environment. This work wants to provide a thermoanalytical and physical-chemistry characterization of castor oil and biodiesel. Biodiesel was obtained with methyl alcohol and characterized through several techniques. Gas chromatography indicated methyl ester content of 97.7%. The volatilization of biodiesel starts and finishes under inferior temperatures than the beginning and final volatilization temperatures of castor oil. Biodiesel data are very close to the volatilization temperatures of conventional diesel. (author)

  3. Genetic engineering of microorganisms for biodiesel production.

    Science.gov (United States)

    Lin, Hui; Wang, Qun; Shen, Qi; Zhan, Jumei; Zhao, Yuhua

    2013-01-01

    Biodiesel, as one type of renewable energy, is an ideal substitute for petroleum-based diesel fuel and is usually made from triacylglycerides by transesterification with alcohols. Biodiesel production based on microbial fermentation aiming to establish more efficient, less-cost and sustainable biodiesel production strategies is under current investigation by various start-up biotechnology companies and research centers. Genetic engineering plays a key role in the transformation of microbes into the desired cell factories with high efficiency of biodiesel production. Here, we present an overview of principal microorganisms used in the microbial biodiesel production and recent advances in metabolic engineering for the modification required. Overexpression or deletion of the related enzymes for de novo synthesis of biodiesel is highlighted with relevant examples.

  4. Biodiesel research progress 1992-1997

    Energy Technology Data Exchange (ETDEWEB)

    Tyson, K.S. [ed.

    1998-04-01

    The US Department of Energy (DOE) Office of Fuels Development began evaluating the potential of various alternative fuels, including biodiesel, as replacement fuels for traditional transportation fuels. Biodiesel is derived from a variety of biological materials from waste vegetable grease to soybean oil. This alkyl ester could be used as a replacement, blend, or additive to diesel fuel. This document is a comprehensive summary of relevant biodiesel and biodiesel-related research, development demonstration, and commercialization projects completed and/or started in the US between 1992 and 1997. It was designed for use as a reference tool to the evaluating biodiesel`s potential as a clean-burning alternative motor fuel. It encompasses, federally, academically, and privately funded projects. Research projects are presented under the following topical sections: Production; Fuel characteristics; Engine data; Regulatory and legislative activities; Commercialization activities; Economics and environment; and Outreach and education.

  5. Correlating Engine NOx Emission with Biodiesel Composition

    Science.gov (United States)

    Jeyaseelan, Thangaraja; Mehta, Pramod Shankar

    2016-06-01

    Biodiesel composition comprising of saturated and unsaturated fatty acid methyl esters has a significant influence on its properties and hence the engine performance and emission characteristics. This paper proposes a comprehensive approach for composition-property-NOx emission analysis for biodiesel fuels and highlights the pathways responsible for such a relationship. Finally, a procedure and a predictor equation are developed for the assessment of biodiesel NOx emission from its composition details.

  6. Genetic Engineering Strategies for Enhanced Biodiesel Production.

    Science.gov (United States)

    Hegde, Krishnamoorthy; Chandra, Niharika; Sarma, Saurabh Jyoti; Brar, Satinder Kaur; Veeranki, Venkata Dasu

    2015-07-01

    The focus on biodiesel research has shown a tremendous growth over the last few years. Several microbial and plant sources are being explored for the sustainable biodiesel production to replace the petroleum diesel. Conventional methods of biodiesel production have several limitations related to yield and quality, which led to development of new engineering strategies to improve the biodiesel production in plants, and microorganisms. Substantial progress in utilizing algae, yeast, and Escherichia coli for the renewable production of biodiesel feedstock via genetic engineering of fatty acid metabolic pathways has been reported in the past few years. However, in most of the cases, the successful commercialization of such engineering strategies for sustainable biodiesel production is yet to be seen. This paper systematically presents the drawbacks in the conventional methods for biodiesel production and an exhaustive review on the present status of research in genetic engineering strategies for production of biodiesel in plants, and microorganisms. Further, we summarize the technical challenges need to be tackled to make genetic engineering technology economically sustainable. Finally, the need and prospects of genetic engineering technology for the sustainable biodiesel production and the recommendations for the future research are discussed.

  7. Oxidation stability and risk evaluation of biodiesel

    Directory of Open Access Journals (Sweden)

    Hoshino Takashi

    2007-01-01

    Full Text Available This review describes oxidation and thermal stability and hazardous possibility of biodiesel by auto-oxidation. As it can be distributed using today’s infrastructure biodisel production has increased especially in the European Union. Biodiesel has many surpassing properties as an automotive fuel. Biodiesel is considered safer than diesel fuel because of the high flash point, but it has oxygen and double bond(s. Fatty acid methyl esters are more sensitive to oxidative degradation than fossil diesel fuel. The ability of producing peroxides is rather high, therefore we should care of handling of biodiesel.

  8. Purification of crude biodiesel using dry washing and membrane technologies

    Directory of Open Access Journals (Sweden)

    I.M. Atadashi

    2015-12-01

    Full Text Available Purification of crude biodiesel is mandatory for the fuel to meet the strict international standard specifications for biodiesel. Therefore, this paper carefully analyzed recently published literatures which deal with the purification of biodiesel. As such, dry washing technologies and the most recent membrane biodiesel purification process have been thoroughly examined. Although purification of biodiesel using dry washing process involving magnesol and ion exchange resins provides high-quality biodiesel fuel, considerable amount of spent absorbents is recorded, besides the skeletal knowledge on its operating process. Further, recent findings have shown that biodiesel purification using membrane technique could offer high-quality biodiesel fuel with less wastewater discharges. Thus, both researchers and industries are expected to benefit from the development of membrane technique in purifying crude biodiesel. As well biodiesel purification via membranes has been shown to be environmentally friendly. For these reasons, it is important to explore and exploit membrane technology to purify crude biodiesel.

  9. Análisis Químico de Mezclas Biodiesel de Aceite de Cocina Usado y Diesel por Espectroscopia Infrarroja Chemical Analysis of Mixtures of Biodiesel from Used Cooking Oil and Diesel by Infrared Spectroscopy

    OpenAIRE

    Jennifer J Lafont; Manuel S Páez; Yudi C Torres

    2011-01-01

    Se propone un método eficiente para determinar los porcentajes óptimos de mezclas biodiesel de aceite usado y diesel, para uso automotor. El procedimiento consiste en recolección del aceite usado, limpieza de residuos, y obtención del biodiesel mediante una reacción de transesterificación, con diferentes proporciones molares metanol/aceite . Las muestras fueron analizadas por espectroscopia infrarroja. Se encontró que una proporción metanol/aceite de 1:8 presentó mayor rendimiento en la obten...

  10. Experiences in the construction and operation of a biodiesel pilot plant in Tabasco; Experiencias en la construccion y operacion de una planta piloto de biodiesel en Tabasco

    Energy Technology Data Exchange (ETDEWEB)

    Custodio Garcia, E; Cordova Gomez, Jose F.; Irineo Mijangos, Jose A.; Montiel Reyes, W.; Gutierrez Leon, Gustavo M. [Universidad Tecnologica de Tabasco, Tecnologia Ambiental (Mexico)

    2010-07-01

    encuentren en el mercado por su especializacion. En este trabajo los autores su experiencia en el diseno y construccion de la primera planta piloto para produccion de biodiesel en el estado de Tabasco, asi como en el uso del biocombustible en los autobuses y plantas de emergencia donde se ha probado el biodiesel. La planta piloto para biodiesel esta disenada para producir 400 litros por hora, cada Bach, tiene una capacidad de almacenamiento de 2400 litros y cuenta con un sistema de filtros y tanque de lavado con agua para eliminar agua y materias solidas que esten contaminando el proceso. Para la produccion del biodiesel se utiliza metoxido, que es una mezcla de hidroxido de sodio y alcohol metanol para que reaccione con el aceite y se forme el biodiesel. La planta se encuentra trabajando con aceite vegetal usado como materia prima, mismo que se recolecta de los hoteles y restaurantes de la zona. Las criticas han servido para ir mejorando el proceso, pues en ocasiones no todo se ha escrito sobre el biodiesel. Este trabajo es el producto conjunto entre la union de la iniciativa privada (Grupo DG) y la Universidad Tecnologica de Tabasco.

  11. WSF Biodiesel Demonstration Project Final Report

    Energy Technology Data Exchange (ETDEWEB)

    Washington State University; University of Idaho; The Glosten Associates, Inc.; Imperium Renewables, Inc.

    2009-04-30

    In 2004, WSF canceled a biodiesel fuel test because of “product quality issues” that caused the fuel purifiers to clog. The cancelation of this test and the poor results negatively impacted the use of biodiesel in marine application in the Pacific Northwest. In 2006, The U.S. Department of Energy awarded the Puget Sound Clean Air Agency a grant to manage a scientific study investigating appropriate fuel specifications for biodiesel, fuel handling procedures and to conduct a fuel test using biodiesel fuels in WSF operations. The Agency put together a project team comprised of experts in fields of biodiesel research and analysis, biodiesel production, marine engineering and WSF personnel. The team reviewed biodiesel technical papers, reviewed the 2004 fuel test results, designed a fuel test plan and provided technical assistance during the test. The research reviewed the available information on the 2004 fuel test and conducted mock laboratory experiments, but was not able to determine why the fuel filters clogged. The team then conducted a literature review and designed a fuel test plan. The team implemented a controlled introduction of biodiesel fuels to the test vessels while monitoring the environmental conditions on the vessels and checking fuel quality throughout the fuel distribution system. The fuel test was conducted on the same three vessels that participated in the canceled 2004 test using the same ferry routes. Each vessel used biodiesel produced from a different feedstock (i.e. soy, canola and yellow grease). The vessels all ran on ultra low sulfur diesel blended with biodiesel. The percentage of biodiesel was incrementally raised form from 5 to 20 percent. Once the vessels reached the 20 percent level, they continued at this blend ratio for the remainder of the test. Fuel samples were taken from the fuel manufacturer, during fueling operations and at several points onboard each vessel. WSF Engineers monitored the performance of the fuel systems and

  12. Biodiesel/Cummins CRADA Report

    Science.gov (United States)

    2014-07-01

    nitrile rubber , natural rubber ) that are commonly used for hoses, seals and gaskets, and may degrade them to the point where they fail. Failure can...cloud point (33.5°F for the test fuel). Gelling can be prevented through fuel management (e.g., fuel additives, shifting to a diesel/biodiesel blend ...Engineering CG Coast Guard CNG Compressed Natural Gas CO Carbon monoxide CO2 Carbon dioxide COG Course over ground CRADA Cooperative Research and

  13. Mississippi State Biodiesel Production Project

    Energy Technology Data Exchange (ETDEWEB)

    Rafael Hernandez; Todd French; Sandun Fernando; Tingyu Li; Dwane Braasch; Juan Silva; Brian Baldwin

    2008-03-20

    Biodiesel is a renewable fuel conventionally generated from vegetable oils and animal fats that conforms to ASTM D6751. Depending on the free fatty acid content of the feedstock, biodiesel is produced via transesterification, esterification, or a combination of these processes. Currently the cost of the feedstock accounts for more than 80% of biodiesel production cost. The main goal of this project was to evaluate and develop non-conventional feedstocks and novel processes for producing biodiesel. One of the most novel and promising feedstocks evaluated involves the use of readily available microorganisms as a lipid source. Municipal wastewater treatment facilities (MWWTF) in the USA produce (dry basis) of microbial sludge annually. This sludge is composed of a variety of organisms, which consume organic matter in wastewater. The content of phospholipids in these cells have been estimated at 24% to 25% of dry mass. Since phospholipids can be transesterified they could serve as a ready source of biodiesel. Examination of the various transesterification methods shows that in situ conversion of lipids to FAMEs provides the highest overall yield of biodiesel. If one assumes a 7.0% overall yield of FAMEs from dry sewage sludge on a weight basis, the cost per gallon of extracted lipid would be $3.11. Since the lipid is converted to FAMEs, also known as biodiesel, in the in Situ extraction process, the product can be used as is for renewable fuel. As transesterification efficiency increases the cost per gallon drops quickly, hitting $2.01 at 15.0% overall yield. An overall yield of 10.0% is required to obtain biodiesel at $2.50 per gallon, allowing it to compete with soybean oil in the marketplace. Twelve plant species with potential for oil production were tested at Mississippi State, MS. Of the species tested, canola, rapeseed and birdseed rape appear to have potential in Mississippi as winter annual crops because of yield. Two perennial crops were investigated, Chinese

  14. Mississippi State Biodiesel Production Project

    Energy Technology Data Exchange (ETDEWEB)

    Rafael Hernandez; Todd French; Sandun Fernando; Tingyu Li; Dwane Braasch; Juan Silva; Brian Baldwin

    2008-03-20

    Biodiesel is a renewable fuel conventionally generated from vegetable oils and animal fats that conforms to ASTM D6751. Depending on the free fatty acid content of the feedstock, biodiesel is produced via transesterification, esterification, or a combination of these processes. Currently the cost of the feedstock accounts for more than 80% of biodiesel production cost. The main goal of this project was to evaluate and develop non-conventional feedstocks and novel processes for producing biodiesel. One of the most novel and promising feedstocks evaluated involves the use of readily available microorganisms as a lipid source. Municipal wastewater treatment facilities (MWWTF) in the USA produce (dry basis) of microbial sludge annually. This sludge is composed of a variety of organisms, which consume organic matter in wastewater. The content of phospholipids in these cells have been estimated at 24% to 25% of dry mass. Since phospholipids can be transesterified they could serve as a ready source of biodiesel. Examination of the various transesterification methods shows that in situ conversion of lipids to FAMEs provides the highest overall yield of biodiesel. If one assumes a 7.0% overall yield of FAMEs from dry sewage sludge on a weight basis, the cost per gallon of extracted lipid would be $3.11. Since the lipid is converted to FAMEs, also known as biodiesel, in the in Situ extraction process, the product can be used as is for renewable fuel. As transesterification efficiency increases the cost per gallon drops quickly, hitting $2.01 at 15.0% overall yield. An overall yield of 10.0% is required to obtain biodiesel at $2.50 per gallon, allowing it to compete with soybean oil in the marketplace. Twelve plant species with potential for oil production were tested at Mississippi State, MS. Of the species tested, canola, rapeseed and birdseed rape appear to have potential in Mississippi as winter annual crops because of yield. Two perennial crops were investigated, Chinese

  15. Todo sobre el neobarroco

    Directory of Open Access Journals (Sweden)

    Arturo Carrera

    2007-07-01

    Full Text Available Lo que hemos escuchado y atendido hasta aquí, hoy, ayer, sobre todo en la propuesta poética esbozada por Sergio Raimondi en su ensayo sobre Aldo Oliva, demuestra que las singularidades, su pasión, anulan subrepticiamente las nominaciones.Anoche en la televisión una orquesta sinfónica y un coro numeroso. Súbitamente, me hubiera gustado ser uno de esos intérpretes solitarios para sí, a pesar de la armonía, anónimos, a pesar del brillo sonoro… un violín, un triángulo… apenas… tres grillos… como ...

  16. Promoting Scientific and Technological Literacy: Teaching Biodiesel.

    Science.gov (United States)

    Eilks, Ingo

    2000-01-01

    Describes a unit on biodiesel from a socio-critical chemistry teaching approach aimed at improving student participation and decision making. Explores the use of biodiesel (chemically changed vegetable oils), especially in Europe. The unit proved to be successful as students participated enthusiastically and social and scientific goals were…

  17. Comparative toxicity and mutagenicity of biodiesel exhaust

    Science.gov (United States)

    Biodiesel (BD) is commercially made from the transesterification of plant and animal derived oils. The composition of biodiesel exhaust (BE) depends on the type of fuel, the blend ratio and the engine and operating conditions. While numerous studies have characterized the health ...

  18. Comparative toxicity and mutagenicity of biodiesel exhaust

    Science.gov (United States)

    Biodiesel (BD) is commercially made from the transesterification of plant and animal derived oils. The composition of biodiesel exhaust (BE) depends on the type of fuel, the blend ratio and the engine and operating conditions. While numerous studies have characterized the health ...

  19. Algal biodiesel economy and competition among bio-fuels.

    Science.gov (United States)

    Lee, D H

    2011-01-01

    This investigation examines the possible results of policy support in developed and developing economies for developing algal biodiesel through to 2040. This investigation adopts the Taiwan General Equilibrium Model-Energy for Bio-fuels (TAIGEM-EB) to predict competition among the development of algal biodiesel, bioethanol and conventional crop-based biodiesel. Analytical results show that algal biodiesel will not be the major energy source in 2040 without strong support in developed economies. In contrast, bioethanol enjoys a development advantage relative to both forms of biodiesel. Finally, algal biodiesel will almost completely replace conventional biodiesel. CO(2) reduction benefits the development of the bio-fuels industry.

  20. Biodiesel production from municipal secondary sludge.

    Science.gov (United States)

    Kumar, Manish; Ghosh, Pooja; Khosla, Khushboo; Thakur, Indu Shekhar

    2016-09-01

    In the present study, feasibility of biodiesel production from freeze dried sewage sludge was studied and its yield was enhanced by optimization of the in situ transesterification conditions (temperature, catalyst and concentration of sludge solids). Optimized conditions (45°C, 5% catalyst and 0.16g/mL sludge solids) resulted in a 20.76±0.04% biodiesel yield. The purity of biodiesel was ascertained by GC-MS, FT-IR and NMR ((1)H and (13)C) spectroscopy. The biodiesel profile obtained revealed the predominance of methyl esters of fatty acids such as oleic, palmitic, myristic, stearic, lauric, palmitoleic and linoleic acids indicating potential use of sludge as a biodiesel feedstock.

  1. Microbial recycling of glycerol to biodiesel.

    Science.gov (United States)

    Yang, Liu; Zhu, Zhi; Wang, Weihua; Lu, Xuefeng

    2013-12-01

    The sustainable supply of lipids is the bottleneck for current biodiesel production. Here microbial recycling of glycerol, byproduct of biodiesel production to biodiesel in engineered Escherichia coli strains was reported. The KC3 strain with capability of producing fatty acid ethyl esters (FAEEs) from glucose was used as a starting strain to optimize fermentation conditions when using glycerol as sole carbon source. The YL15 strain overexpressing double copies of atfA gene displayed 1.7-fold increase of FAEE productivity compared to the KC3 strain. The titer of FAEE in YL15 strain reached to 813 mg L(-1) in minimum medium using glycerol as sole carbon source under optimized fermentation conditions. The titer of glycerol-based FAEE production can be significantly increased by both genetic modifications and fermentation optimization. Microbial recycling of glycerol to biodiesel expands carbon sources for biodiesel production.

  2. Process development for scum to biodiesel conversion.

    Science.gov (United States)

    Bi, Chong-hao; Min, Min; Nie, Yong; Xie, Qing-long; Lu, Qian; Deng, Xiang-yuan; Anderson, Erik; Li, Dong; Chen, Paul; Ruan, Roger

    2015-06-01

    A novel process was developed for converting scum, a waste material from wastewater treatment facilities, to biodiesel. Scum is an oily waste that was skimmed from the surface of primary and secondary settling tanks in wastewater treatment plants. Currently scum is treated either by anaerobic digestion or landfilling which raised several environmental issues. The newly developed process used a six-step method to convert scum to biodiesel, a higher value product. A combination of acid washing and acid catalyzed esterification was developed to remove soap and impurities while converting free fatty acids to methyl esters. A glycerol washing was used to facilitate the separation of biodiesel and glycerin after base catalyzed transesterification. As a result, 70% of dried and filtered scum was converted to biodiesel which is equivalent to about 134,000 gallon biodiesel per year for the Saint Paul waste water treatment plant in Minnesota.

  3. Impacts of biodiesel production on Croatian economy

    Energy Technology Data Exchange (ETDEWEB)

    Kulisic, Biljana [Energy Institute Hrvoje Pozar, Zagreb (Croatia). Department for Renewable Energy Sources and Energy Efficiency; Mediterranean Agronomic Institute Chania - MAICh, CIHEAM - International Centre for Advanced Mediterranean Agronomic Studies (Greece); Loizou, Efstratios [Technological Education Institute (TEI) of Western Macedonia (Greece). Department of Agricultural Products Marketing and Quality Control; Rozakis, Stelios [Agricultural University of Athens (Greece). Department of Agricultural Economics and Rural Development; Segon, Velimir [Energy Institute Hrvoje Pozar, Zagreb (Croatia). Department for Renewable Energy Sources and Energy Efficiency

    2007-12-15

    The aim of this paper is to assess the direct and indirect impacts on a national economy from biodiesel (rapeseed methyl ester (RME)) production using input-output (I-O) analysis. Biodiesel development in Croatia is used as a case study. For Croatia, as for many other countries in Europe, biodiesel is a new activity not included in the existing I-O sectoral accounts. For this reason the I-O table has to be modified accordingly before being able to quantify the effect of an exogenous demand for biodiesel. Impacts in terms of output, income and employment lead to the conclusion that biodiesel production could have significant positive net impact on the Croatian economy despite the high level of subsidies for rapeseed growing. (author)

  4. UTILIZANDO O MÉTODO TODIM PARA AVALIAR AS MELHORES EMPRESAS PARA TRABALHAR

    Directory of Open Access Journals (Sweden)

    Renato Teixeira da Silva

    2011-06-01

    Full Text Available Este artigo expõe uma nova proposta de ordenação das 5 melhores empresas para trabalhar em termos de qualidade do ambiente de trabalho e qualidade na gestão de pessoas utilizando-se do método TODIM como suporte científico para tal. A ordenação inicial, proposta pela revista Você/SA Exame, utiliza como método classificador o índice de felicidade no trabalho, uma soma ponderada de índices resultantes da percepção dos funcionários, das práticas da empresa e da constatação feita por jornalistas em visitas às empresas. Este trabalho, que utiliza o método TODIM, considera esses itens como critérios de avaliação e realiza uma análise comparativa das alternativas. Ao final, é executada uma comparação entre as ordenações e uma análise de sensibilidade, analisando as especificidades de cada método de ordenação e a consistência de seus resultados.

  5. Universidades accesibles para todos

    Directory of Open Access Journals (Sweden)

    Roxana Stupp Kupiec

    2001-01-01

    Full Text Available Este trabajo pretende hacer conciencia sobrelos factores que inciden en la construcción colectiva deuniversidades dispuestas a innovar y transformar suideología, sus políticas, el currículum, los servicios estu-diantiles, la infraestructura física y administrativa y lasestrategias de comunicación e información, bajo el para-digma de la accesibilidad en el entorno. Se hace referen-cia al marco legal internacional y nacional que orientalas acciones que deben planificarse e implementarse enlas instituciones de Educación Superior.En la construcción de universidades accesibles para to-dos se requiere de un cambio en la concepción curricu-lar. Se analizan conceptos como la flexibilidad en la for-mación y el acceso a los planes de estudio para respondera las necesidades educativas de todos los estudiantes. Para promover estas transformaciones se proponen prin-cipios y prácticas tales como la interdisciplinareidad y lainclusión del tema de la discapacidad en todas las carre-ras. Además, se presentan ejemplos de aplicación en dife-rentes áreas del perfil profesional, en la formación deldocente universitario y en actividades de proyección so-cial, vida estudiantil e investigación. En el ámbito estu-diantil, se describen algunos servicios y procesos que sehan desarrollado en la Universidad de Costa Rica

  6. Characterization of beef tallow biodiesel and their mixtures with soybean biodiesel and mineral diesel fuel

    Energy Technology Data Exchange (ETDEWEB)

    Teixeira, Leonardo S.G. [Instituto de Quimica, Universidade Federal da Bahia, Campus Universitario de Ondina, 40.170-280, Salvador, Bahia (Brazil); INCT de Energia e Ambiente, Universidade Federal da Bahia, 40.170-280, Salvador, Bahia (Brazil); Couto, Marcelo B.; Filho, Miguel Andrade; Assis, Julio C.R.; Guimaraes, Paulo R.B.; Pontes, Luiz A.M.; Almeida, Selmo Q. [Departamento de Engenharia e Arquitetura, Universidade Salvador - UNIFACS, Av. Cardeal da Silva 132, 40.220-141, Salvador, Bahia (Brazil); Souza, Giancarlos S. [Instituto de Quimica, Universidade Federal da Bahia, Campus Universitario de Ondina, 40.170-280, Salvador, Bahia (Brazil); Teixeira, Josanaide S.R. [Instituto Federal de Educacao Ciencia e Tecnologica da Bahia - IFBAHIA, Rua Emidio de Morais S/N, 40.625-650, Salvador, Bahia (Brazil)

    2010-04-15

    Tallow is a raw material for biodiesel production that, due to their highly centralized generation in slaughter/processing facilities and historically low prices, may have energy, environmental, and economic advantages that could be exploited. However beef tallow biodiesel have unfavorable properties due the presence of high concentration of saturated fatty esters. One way to overcome these inconveniences is using blending procedures. In this way, blends of beef tallow biodiesel with soybean biodiesel and with conventional mineral diesel fuel were prepared and the quality of the mixtures was monitored with the purpose to study ideal proportions of the fuels. By measurement of the viscosity, density, cold filter plugging point, and flash point, it was demonstrated that tallow biodiesel can be blended with both mineral diesel and soybean biodiesel to improve the characteristics of the blend fuels, over that of the tallow. (author)

  7. Determination of the biodiesel content in diesel/biodiesel blends: a method based on fluorescence spectroscopy.

    Science.gov (United States)

    Scherer, Marisa D; Oliveira, Samuel L; Lima, Sandro M; Andrade, Luis H C; Caires, Anderson R L

    2011-05-01

    Blends of biodiesel and diesel are being used increasingly worldwide because of environmental, economic, and social considerations. Several countries use biodiesel blends with different blending limits. Therefore, it is necessary to develop or improve methods to quantify the biodiesel level in a diesel/biodiesel blend, to ensure compliance with legislation. The optical technique based on the absorption of light in the mid-infrared has been successful for this application. However, this method presents some challenges that must be overcome. In this paper, we propose a novel method, based on fluorescence spectroscopy, to determine the biodiesel content in the diesel/biodiesel blend, which allows in loco measurements by using portable systems. The results showed that this method is both practical and more sensitive than the standard optical method. © Springer Science+Business Media, LLC 2011

  8. Development of a biodiesel activity

    Directory of Open Access Journals (Sweden)

    Vermeersch Georges

    2001-01-01

    Full Text Available Nutritional values of fatty acid classes are normally discussed on the basis of their saturated, monounsaturated and polyunsaturated structures with implicit understanding that they are straight-chain. Here we focus on chlorophyll-derived phytanic and pristanic acids that are minor isoprenoid branched-chain lipid constituents in food, but of unknown nutritional value. After describing the enzyme machinery that degrades these nutrient fatty acids in the peroxisome, we show by the criteria of a mouse model and of a human cell culture model that they induce with high potency expression of enzymes responsible for beta-oxidation of straight-chain fatty acids in the peroxisome. We summarize present mechanistic knowledge on fatty acid signaling to the nucleus, which involves protein/protein contacts between peroxisome proliferator activated receptor (PPAR and fatty acid binding protein (FABP. In this signaling event the branched-chain fatty acids are the most effective ones. Finally, on the basis of this nutrient-gene interaction we discuss nutritional opportunities and therapeutic aspects of the chlorophyll-derived fatty acids. The circumstances that led to the significant French biodiesel activity will be examined: the oilseed producers and transformers actions, the partnership with the oil refiners, the government support - regulation and detaxation... The French production units will be described, followed by update scientific results highlighting the advantages of biodiesel: functionality and friendly environmentally impact. The current usage of biodiesel by oil refiners will be described and its future in the oncoming context (fuel specifications, HDI engines and post-treatment discussed.

  9. KINETIKA TRANSESTERIFIKASI BIODIESEL JARAK PAGAR

    OpenAIRE

    Buchori Luqman; Budi Sasongko Setia

    2012-01-01

    Biodiesel were produced by trans-etherification of castor oil with alcohol in the presence of NaOH catalyst. Thereaction mechanism and model of castor oil trans-etherification isA + 3B C + 3 DA, B, C, and D were castor oil, alcohol, glycerol, and ester. The reaction rate equation was r=-dCA/dt =k1(CA)(CB)3–k2(CC)(CD)3. In this study was used two measurement method of free fat acid as the rest content ofcastor oil with SNI 01-3555-1998 and AOAC (Association of Analytical Chemist). It found tha...

  10. Biodiesel production by transesterification using immobilized lipase.

    Science.gov (United States)

    Narwal, Sunil Kumar; Gupta, Reena

    2013-04-01

    Biodiesel can be produced by transesterification of vegetable or waste oil catalysed by lipases. Biodiesel is an alternative energy source to conventional fuel. It combines environmental friendliness with biodegradability, low toxicity and renewability. Biodiesel transesterification reactions can be broadly classified into two categories: chemical and enzymatic. The production of biodiesel using the enzymatic route eliminates the reactions catalysed under acid or alkali conditions by yielding product of very high purity. The modification of lipases can improve their stability, activity and tolerance to alcohol. The cost of lipases and the relatively slower reaction rate remain the major obstacles for enzymatic production of biodiesel. However, this problem can be solved by immobilizing the enzyme on a suitable matrix or support, which increases the chances of re-usability. The main factors affecting biodiesel production are composition of fatty acids, catalyst, solvents, molar ratio of alcohol and oil, temperature, water content, type of alcohol and reactor configuration. Optimization of these parameters is necessary to reduce the cost of biodiesel production.

  11. Process Simulation of enzymatic biodiesel production -at what cost can biodiesel be made with enzymes?

    DEFF Research Database (Denmark)

    Fjerbæk Søtoft, Lene; Christensen, Knud Villy; Rong, Benguang

    The industrial production of biodiesel has had a very turbulent lifetime due to drastic changes in prices of raw materials and fossil fuels as well as regulatory changes and produced amounts of biodiesel. Biodiesel production is carried out by various forms of catalysts, but industrially only...... as well as environmental impacts of the alternative process must be evaluated towards the conventional process. With process simulation tools, an evaluation will be carried out looking at what it will cost to produce biodiesel with enzymes. Different scenarios will be taken into account with variations...

  12. Element pollution of exhaust aftertreatment systems by using biodiesel; Elementbelastungen von Abgasnachbehandlungssystemen durch Biodiesel

    Energy Technology Data Exchange (ETDEWEB)

    Stein, Hendrik; Wilharm, Thomas [ASG Analytik-Service Gesellschaft mbH, Neusaess (Germany); Winkler, Markus [DEUTZ AG, Koeln (Germany); Knuth, Hans-Walter

    2012-06-15

    Biodiesel is a particularly attractive fuel for agricultural machinery. However, the introduction of new emission standards has made the use of exhaust gas treatment systems in agricultural vehicles essential. The combination of biodiesel and exhaust gas treatment causes problems, because the biodiesel contains traces of inorganic elements. These turn into ash during the combustion process in the engine, which can result in permanent damage to the components of the exhaust gas treatment system. Deutz and ASG have investigated the impact of current grades of biodiesel on the systems in real-life operation. (orig.)

  13. Prediction of cold flow properties of Biodiesel

    Directory of Open Access Journals (Sweden)

    Parag Saxena

    2016-08-01

    Full Text Available Biodiesel being environmentally friendly is fast gaining acceptance in the market as an alternate diesel fuel. But compared to petroleum diesel it has certain limitations and thus it requires further development on economic viability and improvement in its properties to use it as a commercial fuel. The cold flow properties play a major role in the usage of biodiesel commercially as it freezes at cold climatic conditions. In the present study, cold flow properties of various types of biodiesel were estimated by using correlations available in literature. The correlations were evaluated based on the deviation between the predicted value and experimental values of cold flow properties.

  14. Innovative Canadian Process Technology For Biodiesel Production

    Energy Technology Data Exchange (ETDEWEB)

    Johar, Sangat; Norton, Kevin

    2010-09-15

    The need for increasing renewable and alternative energy in the global energy mix has been well recognized by Governments and major scientific forums to reduce climate change impact for this living planet. Biodiesel has very high potential for GHG emission reduction. An innovative process developed in Canada provides solution to mitigate the feedstock, yield and quality issues impacting the industry. The Biox process uses a continuous process which reduces reaction times, provides > 99% yield of high quality biodiesel product. The process is feedstock flexible and can use cheaper higher FFA feedstock providing a sustainable approach for biodiesel production.

  15. Aqueous solubility, dispersibility and toxicity of biodiesels

    Energy Technology Data Exchange (ETDEWEB)

    Hollebone, B.P.; Fieldhouse, B.; Lumley, T.C.; Landriault, M. [Environment Canada, Ottawa, ON (Canada). ; Doe, K.; Jackman, P. [Environment Canada, Moncton, NB (Canada). Toxicology Laboratory, Environmental Science Centre

    2007-07-01

    The renewed interest in the use of biological fuels can be attributed to that fact that feedstocks for fatty-acid ester biodiesels are renewable and can be reclaimed from waste. Although there are significant benefits to using biodiesels, their increased use leaves potential for accidental release to the environment. Therefore, their environmental behaviours and impacts must be evaluated along with the risk associated with their use. Biodiesel fuels may be made from soy oil, canola oil, reclaimed restaurant grease, fish oil and animal fat. The toxicological fate of biofuel depends on the variability of its chemical composition. This study provided an initial assessment of the aqueous fate and effects of biodiesel from a broad range of commonly available feedstocks and their blends with petroleum diesels. The study focused primarily on the fate and impact of these fuels in fresh-water. The use of chemical dispersion as a countermeasure for saltwater was also investigated. The exposure of aquatic ecosystems to biodiesels and petroleum diesel occurs via the transfer of material from the non-aqueous phase liquid (NAPL) into the aqueous phase, as both soluble and dispersed components. The aqueous solubilities of the fuels were determined from the equilibrium water-accommodated fraction concentrations. The acute toxicities of many biodiesels were reported for 3 test species used by Environment Canada for toxicological evaluation, namely rainbow trout, the water flea and a luminescent bacterium. This study also evaluated the natural potential for dispersion of the fuels in the water column in both low and high-energy wave conditions. Chemical dispersion as a potential countermeasure for biodiesel spills was also evaluated using solubility testing, acute toxicity testing, and dispersibility testing. It was shown that biodiesels have much different fates and impacts from petroleum diesels. The compounds partitioning into the water column are also very different for each

  16. Biodiesel and Other Renewable Diesel Fuels

    Energy Technology Data Exchange (ETDEWEB)

    2006-11-01

    Present federal tax incentives apply to certain types of biomass-derived diesel fuels, which in energy policy and tax laws are described either as renewable diesel or biodiesel. To understand the distinctions between these diesel types it is necessary to understand the technologies used to produce them and the properties of the resulting products. This fact sheet contains definitions of renewable and biodiesel and discusses the processes used to convert biomass to diesel fuel and the properties of biodiesel and renewable diesel fuels.

  17. Metodologia analítica para quantificar o teor de biodiesel na mistura biodiesel: diesel utilizando espectroscopia na região do infravermelho Determination of biodiesel percentage in biodiesel: diesel mixtures using mid-infrared spectroscopy

    Directory of Open Access Journals (Sweden)

    Lílian Lefol Nani Guarieiro

    2008-01-01

    Full Text Available Considered the best substitute for diesel, biodiesel can be blended with diesel in any ratio, bringing lots of environmental, economic and social advantages. Brazilian law Nº 11097/2005, proposes the introduction of biodiesel in to the Brazilian energy matrix, mixed with diesel at a minimum percentage of 2%. For consumers and sellers to be sure that the commercialized mixture of biodiesel:diesel contains the correct percentage, it is necessary to develop analytical methodologies to quantify the amount of biodiesel added. This work presents a fast, low-cost and simple methodology to determine the biodiesel proportion in mixtures of biodiesel:diesel, based on infrared spectroscopy.

  18. Biodiesel production with immobilized lipase: A review.

    Science.gov (United States)

    Tan, Tianwei; Lu, Jike; Nie, Kaili; Deng, Li; Wang, Fang

    2010-01-01

    Fatty acid alkyl esters, also called biodiesel, are environmentally friendly and show great potential as an alternative liquid fuel. Biodiesel is produced by transesterification of oils or fats with chemical catalysts or lipase. Immobilized lipase as the biocatalyst draws high attention because that process is "greener". This article reviews the current status of biodiesel production with immobilized lipase, including various lipases, immobilization methods, various feedstocks, lipase inactivation caused by short chain alcohols and large scale industrialization. Adsorption is still the most widely employed method for lipase immobilization. There are two kinds of lipase used most frequently especially for large scale industrialization. One is Candida antartica lipase immobilized on acrylic resin, and the other is Candida sp. 99-125 lipase immobilized on inexpensive textile membranes. However, to further reduce the cost of biodiesel production, new immobilization techniques with higher activity and stability still need to be explored.

  19. Enzymatic biodiesel production: Technical and economical considerations

    DEFF Research Database (Denmark)

    Munk Nielsen, Per; Brask, Jesper; Fjerbæk, Lene

    2008-01-01

    It is well documented in the literature that enzymatic processing of oils and fats for biodiesel is technically feasible. However, with very few exceptions, enzyme technology is not currently used in commercial-scale biodiesel production. This is mainly due to non-optimized process design...... and a lack of available costeffective enzymes. The technology to re-use enzymes has typically proven insufficient for the processes to be competitive. However, literature data documenting the productivity of enzymatic biodiesel together with the development of new immobilization technology indicates...... that enzyme catalysts can become cost effective compared to chemical processing. This work reviews the enzymatic processing of oils and fats into biodiesel with focus on process design and economy....

  20. Sustainable Future for Biodiesel in Brazil

    DEFF Research Database (Denmark)

    Dias, Maria Amélia de Paula

    This thesis aims to study alternatives to biodiesel industry in Brazil, for 2030, taking in account the sustainability dimensions, namely economic, environmental, ecological, social, national and international politics, territorial, cultural, and technological, through the development of scenarios...... for agriculture and pasture. Thus, a simulation, using linear programming models, was made in order to verify the alternatives of feedstock to produce biodiesel. It was observed that it is possible to decentralize the market, reduce land use, and regionalize production, making better use of the availability...... to identify the driving forces to develop the scenario storylines. This proposition was tested in an in-depth interview with the biodiesel market stakeholders. Based on the findings of the two approaches, the simulations and the interviews, it was possible to obtain future alternatives, where the biodiesel...

  1. Current status of biodiesel development in Brazil.

    Science.gov (United States)

    Ramos, Luiz Pereira; Wilhelm, Helena Maria

    2005-01-01

    In recent years, the concept of producing biodiesel from renewable lipid sources has regained international attention. In Brazil, a national program was launched in 2002 to evaluate the technical, economic, and environmental competitiveness of biodiesel in relation to the commercially available diesel oil. Several research projects were initiated nationwide to investigate and/or optimize biodiesel production from renewable lipid sources and ethanol derived from sugarcane (ethyl esters). Once implemented, this program will not only decrease our dependence on petroleum derivatives but also create new market opportunities for agribusiness, opening new jobs in the countryside, improving the sustainability of our energy matrix, and helping the Brazilian government to support important actions against poverty. This article discusses the efforts to develop the Brazilian biodiesel program in the context of technical specifications as well as potential oilseed sources.

  2. ANALYSIS OF COCONUT ETHYL ESTER (BIODIESEL) AND ...

    African Journals Online (AJOL)

    ANALYSIS OF COCONUT ETHYL ESTER (BIODIESEL) AND FOSSIL DIESEL BLENDING: PROPERTIES AND CORROSION CHARACTERISTICS. ... resulting coconut oil ethyl ester (COEE) was blended with fossil diesel (B0). ... Article Metrics.

  3. Survey of alternative feedstocks for biodiesel production

    Science.gov (United States)

    Summarized will be results obtained from the production of biodiesel from several alternative feedstocks with promising agronomic characteristics. Such feedstocks include camelina (Camelina sativa L.), coriander (Coriandrum sativum L.), field pennycress (Thlaspi arvense L.), and meadowfoam (Limnanth...

  4. Production of Biodiesel by Enzymatic Transesterification: Review

    Directory of Open Access Journals (Sweden)

    Abdel E. Ghaly

    2010-01-01

    Full Text Available Problem Statement: The research on the production of biodiesel has increased significantly in recent years because of the need for an alternative fuel which endows with biodegradability, low toxicity and renewability. Plant oils, animal fats, microalgal oils and waste products such as animal rendering, fish processing waste and cooking oils have been employed as feedstocks for biodiesel production. In order to design an economically and environmentally sustainable biodiesel production process, a proper understanding of the factors affecting the process and their relative importance is necessary. Approach: A comprehensive review of the literature on the subject of biodiesel production was carried out. Traditionally biodiesel has been produced using either acid or base catalysts. The multi-step purification of end products, wastewater treatment and energy demand of the conventional process has lead to search for alternative option for production of biodiesel. The use the enzyme lipase as a biocatalyst for the transesterification reaction step in biodiesel production has been extensively investigated. Lipase is produced by all living organisms and can be used intracellularly or extracellularly. Conclusion: To date, the most popular microbes used for their lipases have been filamentous fungi and recombinant bacteria. A summary of lipases used in transesterification and their optimum operating conditions is provided. In addition to the choice of lipase employed, factors which make the transesterification process feasible and ready for commercialization are: enzyme modification, the selection of feedstock and alcohol, use of common solvents, pretreatment of the lipase, alcohol to oil molar ratio, water activity/content and reaction temperature. Optimization of these parameters is necessary in order to reduce the cost of biodiesel production. Use of no/low cost waste materials as feedstocks will have double environmental benefits by reducing the

  5. Microbial degradation of palm (Elaeis guineensis) biodiesel

    OpenAIRE

    Giselle Lutz; Max Chavarría; María Laura Arias; Mata-Segreda, Julio F.

    2014-01-01

    The kinetics of biodegradation of palm-derived fatty methyl and ethyl esters (Elaeis guineensis biodiesel) by a wild-type aerobic bacterial population was measured at 20 °C, as the rate of oxygen uptake by a manometric technique. The methyl and ethyl biodiesels were obtained by potassium-hydroxide catalysed transesterification of palm oil, respectively. The bacterial flora included the genera Bacillus, Proteus, Pseudomonas, Citrobacter and Enterobacter. The rate of oxygen uptake for palm biod...

  6. Perspectives of microbial oils for biodiesel production.

    Science.gov (United States)

    Li, Qiang; Du, Wei; Liu, Dehua

    2008-10-01

    Biodiesel has become more attractive recently because of its environmental benefits, and the fact that it is made from renewable resources. Generally speaking, biodiesel is prepared through transesterification of vegetable oils or animal fats with short chain alcohols. However, the lack of oil feedstocks limits the large-scale development of biodiesel to some extent. Recently, much attention has been paid to the development of microbial, oils and it has been found that many microorganisms, such as algae, yeast, bacteria, and fungi, have the ability to accumulate oils under some special cultivation conditions. Compared to other plant oils, microbial oils have many advantages, such as short life cycle, less labor required, less affection by venue, season and climate, and easier to scale up. With the rapid expansion of biodiesel, microbial oils might become one of potential oil feedstocks for biodiesel production in the future, though there are many works associated with microorganisms producing oils need to be carried out further. This review is covering the related research about different oleaginous microorganisms producing oils, and the prospects of such microbial oils used for biodiesel production are also discussed.

  7. Butter as a feedstock for biodiesel production.

    Science.gov (United States)

    Haas, Michael J; Adawi, Nadia; Berry, William W; Feldman, Elaine; Kasprzyk, Stephen; Ratigan, Brian; Scott, Karen; Landsburg, Emily Bockian

    2010-07-14

    Fatty acid methyl esters (FAME) were produced from cow's milk (Bostaurus) butter by esterification/transesterification in the presence of methanol. The product was assayed according to the Standard Specification for Biodiesel Fuel Blend Stock (B100) for Middle Distillate Fuels (ASTM D 6751). The preparation failed to meet the specifications for flash point, free and total glycerin contents, total sulfur, and oxidation stability. Failures to meet the flash point and free/total glycerin specifications were determined to be due to interference with standard assays for these parameters by short-chain-length fatty acid esters. The oxidation stability of the butterfat FAME was improved by supplementation with a commercial antioxidant formulation. Approximately 725 ppm of antioxidant was required to meet the ASTM-specified stability value for biodiesel. This work indicates that, without further purification to reduce a slightly excessive sulfur content, fatty acid ester preparations produced from butter are unacceptable as sole components of a biodiesel fuel. However, it is possible that even without further purification a butter-based ester preparation could be mixed with biodiesel from other feedstocks to produce a blend that meets the current quality standards for biodiesel. The results presented here also illustrate some potential weaknesses in the accepted methods for biodiesel characterization when employed in the analysis of FAME preparations containing mid- and short-chain fatty acid esters.

  8. Obtención de biodiesel con aceite de maíz usado en frituras y metacaolinita como catalizador Obtención de biodiesel con aceite de maíz usado en frituras y metacaolinita como catalizador

    Directory of Open Access Journals (Sweden)

    Jorge Medina-Valtierra

    2012-02-01

    Full Text Available Se investigó la producción de biodiesel usando un reactor intermitente, se utilizó la metacaolinita como un catalizador sólido ácido que presentó una alta actividad para la pro­ducción de biodiesel a partir de aceite de maíz usado en freidora. El área superficial de la metacaolinita, diámetro de poro y volumen de poro fueron 10 m2/g, 13.0 nm y 30 mm3/g, respectivamente. Las condiciones óptimas para la reacción de transesterificación fueron: una relación molar aceite/metanol 1:31, temperatura de 160 ºC, presión manométrica de 1.65 MPa y una cantidad de catalizador de 3 (% peso. El rendimiento de ésteres metílicos de ácidos grasos (biodiesel fue de 92.4 % para 2 h de reacción. Este método de preparación de biodiesel puede ser una buena alternativa para la utilización de aceite de maíz usado en freidora como una fuente muy barata para la producción de biodiesel combinado con un catalizador barato y además amigable con el medio ambiente.Biodiesel production with used frying corn oil by transesterification reaction, with methanol, using a commercial kaolinite thermally-activated solid acid catalyst was investigated. The surface area, the average pore diameter and volume of pore of metakaolinite were 10 m2/g, 13.0 nm and 30 mm3/g, respectively. The optimal conditions for the transesterification reaction were determinate to be oil/methanol, in a molar ratio 1:31, temperature 160 ºC, manometer pressure of 1.65 MPa and catalyst concentration of 3 % (w/w. The yield of fatty acid methyl esters (biodiesel was 92.4 % after 2 h of reaction. This method of preparation of biodiesel can be a positive alternative for utilizing used frying corn oil for feedstock of biodiesel combined with the cited inexpensive, “green” catalyst.

  9. The effect of biodiesel policies on world biodiesel and oilseed prices

    NARCIS (Netherlands)

    Drabik, D.; Gorter, de H.; Timilsina, G.R.

    2014-01-01

    A theoretical and empirical model is developed to analyze the effect of a biodiesel mandate, a tax exemption (tax credit) and an exogenous diesel price shock on world soybean and canola markets. The jointness in crushing oil and meal from the oilseed reduces the size of the link between biodiesel

  10. The effect of biodiesel policies on world biodiesel and oilseed prices

    NARCIS (Netherlands)

    Drabik, D.; Gorter, de H.; Timilsina, G.R.

    2014-01-01

    A theoretical and empirical model is developed to analyze the effect of a biodiesel mandate, a tax exemption (tax credit) and an exogenous diesel price shock on world soybean and canola markets. The jointness in crushing oil and meal from the oilseed reduces the size of the link between biodiesel an

  11. Optimisation of integrated biodiesel production. Part I. A study of the biodiesel purity and yield.

    Science.gov (United States)

    Vicente, Gemma; Martínez, Mercedes; Aracil, José

    2007-07-01

    This study consists of the development and optimisation of the potassium hydroxide-catalysed synthesis of fatty acid methyl esters (biodiesel) from sunflower oil. A factorial design of experiments and a central composite design have been used. The variables chosen were temperature, initial catalyst concentration by weight of sunflower oil and the methanol:vegetable oil molar ratio, while the responses were biodiesel purity and yield. The initial catalyst concentration is the most important factor, having a positive influence on biodiesel purity, but a negative one on biodiesel yield. Temperature has a significant positive effect on biodiesel purity and a significant negative influence on biodiesel yield. The methanol:vegetable oil molar ratio is only significant for the biodiesel purity, having a positive influence. Second-order models were obtained to predict biodiesel purity and yield as a function of these variables. The best conditions are 25 degrees C, a 1.3%wt for the catalyst concentration and a 6:1 methanol:sunflower oil molar ratio.

  12. TODOS LOS TIEMPOS

    Directory of Open Access Journals (Sweden)

    Juan José López de la Cruz

    2011-05-01

    Full Text Available RESUMEN La intervención sobre la arquitectura pasada no es más que un asunto concreto de una concepción universal de los procesos de transformación que incumben a todo el proyecto de arquitectura. Podríamos pensar que la acción arquitectónica es siempre una alteración de nuestro mundo ya existente, por lo que proyectar no es sino repensar una y otra vez sobre él, un fabuloso intento de transformar continuamente la realidad, construida o figurada, para acomodarla a lo variable de nuestro pensamiento en constante cambio. Este modo de aproximarnos al proyecto de arquitectura como alteración de una realidad continua, permanente antes y después del proyecto, observa el tiempo como materia de investigación y reflexión, el proyecto se convierte entonces en el Aleph capaz de reunir todos los instantes reales o imaginados que atañen a un lugar, entendiendo la arquitectura como una superposición de momentos entretejidos donde, a través de estrategias de alteración, podemos rescatar tiempos pasados y proyectar instantes futuros como quien recorre senderos que se bifurcan y se reencuentran, pudiendo reemprender caminos descartados en su día o descubriendo convergencias que han de producirse en un mañana a través del proyecto. La reunión de ayeres, presentes y futuros que propicia el proyecto de arquitectura permite incorporar a nuestro ámbito cultural realidades consideradas aparentemente agotadas, al tiempo que nos incita a imaginar nuestras intervenciones como un estadio más de una realidad permanente que volverá a ser ineludiblemente alterada en tiempos venideros. Este viaje pendular a través del tiempo del proyecto de arquitectura, induce a entender la degradación y la obsolescencia como parte del ciclo vital pero no siendo necesariamente el fin de éste, sino un momento intermedio a partir del cual explorar nuevas posibilidades formalizadas a través de la metamorfosis de la materia y los espacios degradados. Simult

  13. Performance and emission characteristics of double biodiesel blends with diesel

    Directory of Open Access Journals (Sweden)

    Kuthalingam Arun Balasubramanian

    2013-01-01

    Full Text Available Recent research on biodiesel focused on performance of single biodiesel and its blends with diesel. The present work aims to investigate the possibilities of the application of mixtures of two biodiesel and its blends with diesel as a fuel for diesel engines. The combinations of Pongamia pinnata biodiesel, Mustard oil biodiesel along with diesel (PMD and combinations of Cotton seed biodiesel, Pongamia pinnata biodiesel along with diesel (CPD are taken for the experimental analysis. Experiments are conducted using a single cylinder direct-injection diesel engine with different loads at rated 3000 rpm. The engine characteristics of the two sets of double biodiesel blends are compared. For the maximum load, the value of Specific Fuel consumption and thermal efficiency of CPD-1 blend (10:10:80 is close to the diesel values. CPD blends give better engine characteristics than PMD blends. The blends of CPD are suitable alternative fuel for diesel in stationary/agricultural diesel engines.

  14. Evaluation of hydrolysis-esterification biodiesel production from wet microalgae.

    Science.gov (United States)

    Song, Chunfeng; Liu, Qingling; Ji, Na; Deng, Shuai; Zhao, Jun; Li, Shuhong; Kitamura, Yutaka

    2016-08-01

    Wet microalgae hydrolysis-esterification route has the advantage to avoid the energy-intensive units (e.g. drying and lipid extraction) in the biodiesel production process. In this study, techno-economic evaluation of hydrolysis-esterification biodiesel production process was carried out and compared with conventional (usually including drying, lipid extraction, esterification and transesterification) biodiesel production process. Energy and material balance of the conventional and hydrolysis-esterification processes was evaluated by Aspen Plus. The simulation results indicated that drying (2.36MJ/L biodiesel) and triolein transesterification (1.89MJ/L biodiesel) are the dominant energy-intensive stages in the conventional route (5.42MJ/L biodiesel). By contrast, the total energy consumption of hydrolysis-esterification route can be reduced to 1.81MJ/L biodiesel, and approximately 3.61MJ can be saved to produce per liter biodiesel.

  15. Plant latex lipase as biocatalysts for biodiesel production

    African Journals Online (AJOL)

    MAZOU Mouaïmine

    2016-07-13

    Jul 13, 2016 ... Bio-fuel or biodiesel is ... 1998), the European standard EN14214 (FAME, 2003) and the ... biodiesel and industrial detergent industries (Alonso et al., 2005). ...... product, alkaline wastewater requires treatment, and free.

  16. Puesta a punto y optimización de técnicas para la cuantificación de biodiesel producido a partir de aceites comestibles usados

    OpenAIRE

    Francisco, Nahuel; Matkovic, Silvana R.

    2015-01-01

    En los últimos años, el biodiesel ha ganado considerable atención debido a la creciente preocupación por los problemas ambientales asociados con el uso de combustibles fósiles. Los estudios e investigación que se presentan en este trabajo comienzan con la puesta a punto y optimización de técnicas volumétricas para la cuantificación de glicerol. El método está destinado a cuantificar glicerol libre y total a fin de determinar el rendimiento en la producción de biodiesel. Adicionalmente, se pro...

  17. Market penetration of biodiesel and ethanol

    Science.gov (United States)

    Szulczyk, Kenneth Ray

    This dissertation examines the influence that economic and technological factors have on the penetration of biodiesel and ethanol into the transportation fuels market. This dissertation focuses on four aspects. The first involves the influence of fossil fuel prices, because biofuels are substitutes and have to compete in price. The second involves biofuel manufacturing technology, principally the feedstock-to-biofuel conversion rates, and the biofuel manufacturing costs. The third involves prices for greenhouse gas offsets. The fourth involves the agricultural commodity markets for feedstocks, and biofuel byproducts. This dissertation uses the Forest and Agricultural Sector Optimization Model-Greenhouse Gas (FASOM-GHG) to quantitatively examine these issues and calculates equilibrium prices and quantities, given market interactions, fossil fuel prices, carbon dioxide equivalent prices, government biofuel subsidies, technological improvement, and crop yield gains. The results indicate that for the ranges studied, gasoline prices have a major impact on aggregate ethanol production but only at low prices. At higher prices, one runs into a capacity constraint that limits expansion on the capacity of ethanol production. Aggregate biodiesel production is highly responsive to gasoline prices and increases over time. (Diesel fuel price is proportional to the gasoline price). Carbon dioxide equivalent prices expand the biodiesel industry, but have no impact on ethanol aggregate production when gasoline prices are high again because of refinery capacity expansion. Improvement of crop yields shows a similar pattern, expanding ethanol production when the gasoline price is low and expanding biodiesel. Technological improvement, where biorefinery production costs decrease over time, had minimal impact on aggregate ethanol and biodiesel production. Finally, U.S. government subsidies have a large expansionary impact on aggregate biodiesel production. Finally, U.S. government

  18. Production of Biodiesel from Parinari polyandra B. Seed Oil using ...

    African Journals Online (AJOL)

    Akorede

    The acid value of 2.620 mg KOH/g obtained for the crude oil is suitable for biodiesel .... Khalil, A.; Shaikh S.N., and Nudrat Z.R. (2014). Reinforcement of natural ... transesterification of soybean oil into biodiesel: Effects of biodiesel on engine ...

  19. 10 CFR 490.703 - Biodiesel fuel use credit allocation.

    Science.gov (United States)

    2010-01-01

    ... 10 Energy 3 2010-01-01 2010-01-01 false Biodiesel fuel use credit allocation. 490.703 Section 490.703 Energy DEPARTMENT OF ENERGY ENERGY CONSERVATION ALTERNATIVE FUEL TRANSPORTATION PROGRAM Biodiesel Fuel Use Credit § 490.703 Biodiesel fuel use credit allocation. (a) DOE shall allocate to a fleet...

  20. Enzymatisk omestring til produktion af biodiesel

    DEFF Research Database (Denmark)

    Fjerbæk, Lene

    2007-01-01

      Biodiesel er i dag sammen med bioethanol et bud på, hvordan transportsektoren kan nedbringe sin netto CO2-emission til atmosfæren og lagrene af fossilt brændstof kan strækkes. På verdensplan forventes der en produktion af biodiesel på 7,9 mio. tons i 2007. Ved den industrielle fremstilling af...... biodiesel benyttes i dag kemiske katalysatorer såsom H2SO4, NaOH, MeONa eller KOH, der efterfølgende fjernes fra den producerede biodiesel med store mængder vand og derved produceres store mængder spildevand. Ved at benytte enzymer i processen kan man reducere mængden af spildevand, der skal renses. Enzymer...... benyttes ikke i de eksisterende processer, men det forventes, at udviklingen af processerne vil øge deres anvendelse i biodieselproduktion. I artiklen præsenteres fordele og ulemper ved anvendelse af enzymer til biodiesel produktion....

  1. Compatibility of elastomers in palm biodiesel

    Energy Technology Data Exchange (ETDEWEB)

    Haseeb, A.S.M.A.; Masjuki, H.H.; Siang, C.T.; Fazal, M.A. [Department of Mechanical Engineering, University of Malaya, 50603 Kuala Lumpur (Malaysia)

    2010-10-15

    In recent time, environmental awareness and concern over the rapid exhaustion of fossil fuels have led to an increased popularity of biodiesel as an alternative fuel for automobiles. However, there are concerns over enhanced degradation of automotive materials in biodiesel. The present study aims to investigate the impact of palm biodiesel on the degradation behavior of elastomers such as nitrile rubber (NBR), polychloroprene, and fluoro-viton A. Static immersion tests in B0 (diesel), B10 (10% biodiesel in diesel), B100 (biodiesel) were carried out at room temperature (25 C) and at 50 C for 500 h. At the end of immersion test, degradation behavior was investigated by measuring mass, volume, hardness as well as tensile strength and elongation. The exposed elastomer surface was studied by scanning electron microscopy (SEM). Fourier Transform Infrared (FTIR) spectroscopy was carried out to identify the chemical and structural changes. Results showed that the extent of degradation was higher for both polychloroprene and NBR while fluoro-viton exhibited good resistance to degradation and was least attacked. (author)

  2. Some Technical Aspects for Sustainable Biodiesel Production

    Directory of Open Access Journals (Sweden)

    Imam Paryanto

    2013-01-01

    Full Text Available According to Brundtland Commission (1987, sustainability means the ability to meet the needs of the present without compromising the ability of future generations’ abilities to meet their own needs. The term of sustainability has multi-dimensional objectives of social, environmental and economic. Without ignoring the importance of social, environmental, and economical aspects of sustainability, this study will only highlight some technical aspects for sustainable biodiesel production and, of course, the final goal will target the implication of improved social, environmental and economical conditions. Some technical aspects for sustainable biodiesel production cover the multi-discipline activities at the design stage and at the operation stage of biodiesel production plant. The design stage can be divided into conceptual design, basic engineering design and detailed engineering design. At this stage, the design parameters should consider the selection of the type and availability of raw material, biodiesel plant capacity and location, the efficient production process, the availability of utilities and supporting infrastructures, waste (environmental treatment, and raw material and product handling facilities. And during the operation of biodiesel plant, some important technical issues are the production process activities according to the Standard Operating Procedure (SOP, awareness of safety and Hazard and Operability Study (HAZOP, scheduled maintenance activity, waste management, product quality control, and further, if possible, efficiency improvement in the production line through R&D activities and technological advances.

  3. Environmental accounting of biodiesel from soybeans

    Energy Technology Data Exchange (ETDEWEB)

    Romanelli, T.L. [Escola Superior de Agricultura Luiz de Queiroz (ESALQ/USP), Piracicaba, SP (Brazil). Dept. de Engenharia Rural

    2008-07-01

    As nonrenewable energy sources are depleted globally new sources of energy are becoming necessary. One option that has been explored in recent years is biodiesel production using agricultural products such as soybeans. The emergy accounting method gives value to environmental flows of energy and it quantifies the total amount of energy that has gone in to a product. Also, it provides an inventory of inputs and outputs that can be used to analyze what, if any, types of changes can be made to specific processes within the production as well as improvements in the efficiency of the system as a whole in order to increase the viability of biodiesel as a fuel source. This evaluation uses the concept of emergy to quantify the costs and returns of biodiesel production. This study showed that, currently in the typical production system in the US, biodiesel is not competitive to fossil fuel sources regarding energy providing. But, considering the depletion of the latter source it may become part of source for society. For biodiesel from soybean oil to become more energetically competitive the agricultural production has to be improved since it demands more than 80% of the used resources. Within the soybean production, topsoil loss was responsible for more than 40% which also negatively affects the renewability of this energy source. (author)

  4. Processing Coconut Fiber and Shell to Biodiesel

    Directory of Open Access Journals (Sweden)

    Sri Aulia Novita

    2014-01-01

    Full Text Available Based on research conducted, liquid smoke coming from the husk and coconut shell containing 58-70% Methyl Ester as biodiesel-forming compounds. Then conducted research for the manufacture of methyl esters of liquid smoke based on differences in their boiling points. The purpose of this research is the development of tools producing liquid smoke, liquid smoke processing into biodiesel, biodiesel testing with the diesel engine and the determination of the proper blending between biodiesel. The method used in this study is a phase of making tools, raw material preparation, testing tools  for liquid smoke production, purification, separation of methyl esters and methyl esters testing by blending in diesel engines. Obtained from research conducted work capacity device of liquid smoke 1:22 kg / hour with a yield of 32.17%. Performance test  by blending biodiesel B10, B20, B30, B40, B50 and B100 with a 6.5 HP engine capable of running a diesel engine with performance that is not much different, more smoke clear, odorless and lighter engine speed.

  5. Estimación de propiedades termodinámicas de los compuestos involucrados en la producción de biodiesel

    OpenAIRE

    M. G. Aca-Aca; E. Campos González; O. Sánchez-Daza; M. T. López-Arenas; A. M. Sales-Cruz

    2009-01-01

    En el presente trabajo se estimaron las propiedades termodinámicas de los principales compuestos involucrados en la producción de biodiesel derivado del aceite de ricino (tales como ácidos grasos, triglicéridos y metil esteres), mediante métodos predictivos basados en contribución de grupos. De los métodos de contribución de grupos reportados en literatura, tres métodos fueron seleccionados para estimar las propiedades: Joback-Reid (JR), Constantinou-Gani (CG) y Marrero-Gani (MG), los cuales ...

  6. Comparative characterization of Jatropha, soybean and commercial biodiesel

    Institute of Scientific and Technical Information of China (English)

    Sylvain-Didier B. Kouame

    2011-01-01

    Oil was extracted from seeds of Jatropha Curcas, in high yields (up to 40% by weight). The extracted Jatropha oil was converted in a laboratory reactor to biodiesel by transesterification. Analysis of Jatropha oil and Jatropha biodiesel by GC/MS and GC/SIMDIS showed that Jatropha oil could be readily converted to a biodiesel product through NaOH catalyzed transesterification.The resulting biodiesel has desirable properties such as high cetane number and low flash point, which are major improvements over the properties of commercial biodiesel fuels.

  7. A fuzzy goal programming model for biodiesel production

    Science.gov (United States)

    Lutero, D. S.; Pangue, EMU; Tubay, J. M.; Lubag, S. P.

    2016-02-01

    A fuzzy goal programming (FGP) model for biodiesel production in the Philippines was formulated with Coconut (Cocos nucifera) and Jatropha (Jatropha curcas) as sources of biodiesel. Objectives were maximization of feedstock production and overall revenue and, minimization of energy used in production and working capital for farming subject to biodiesel and non-biodiesel requirements, and availability of land, labor, water and machine time. All these objectives and constraints were assumed to be fuzzy. Model was tested for different sets of weights. Results for all sets of weights showed the same optimal allocation. Coconut alone can satisfy the biodiesel requirement of 2% per volume.

  8. Perspectives for biotechnological production of biodiesel and impacts

    Energy Technology Data Exchange (ETDEWEB)

    Du Wei; Li Wei; Sun Ting; Chen Xin; Liu Dehua [Tsinghua Univ., Beijing (China). Dept. of Chemical Engineering

    2008-06-15

    In recent years, biological ways for biodiesel production have drawn an increasing attention and compared to chemical approaches, lipase-mediated alcoholysis for biodiesel production has many advantages. Currently, there are extensive reports about enzyme-mediated alcoholysis for biodiesel production, and based on the application forms of biocatalyst, the related research can be classified into immobilized lipase, whole cell catalyst, and liquid lipase-mediated alcoholysis for biodiesel production, respectively. This mini-review is focusing on the study of the aforementioned three forms of biocatalyst for biodiesel production, as well as its impacts and prospects. (orig.)

  9. Biodiesel Basics (Spanish Version); Clean Cities, Energy Efficiency & Renewable Energy (EERE)

    Energy Technology Data Exchange (ETDEWEB)

    None

    2015-08-01

    This Spanish-language fact sheet provides a brief introduction to biodiesel, including a discussion of biodiesel blends, which blends are best for which vehicles, where to buy biodiesel, how biodiesel compares to diesel fuel in terms of performance, how biodiesel performs in cold weather, whether biodiesel use will plug vehicle filters, how long-term biodiesel use may affect engines, biodiesel fuel standards, and whether biodiesel burns cleaner than diesel fuel. The fact sheet also dismisses the use of vegetable oil as a motor fuel.

  10. Caracterización de biodiesel obtenido de aceite residual de cocina

    Directory of Open Access Journals (Sweden)

    Betselene Murcia Ordoñez

    2013-06-01

    Full Text Available Título corto: Biodiesel de aceite residual de cocina Título en ingles: "Characterization of Biodiesel obtained from waste cooking oil" Resumen Se realizó un análisis físico y químico a cada uno de los siguientes tipos de aceite: desechado proveniente de asaderos de pollo, usado de hogares y fresco adquirido en el mercado local de la ciudad de Florencia, Caquetá (Colombia. Se evaluaron los siguientes parámetros: Peso específico, índice de yodo, índice de saponificación, índice de refracción, humedad y materia volátil, punto de fusión, impurezas insolubles, índice de acidez, coeficiente específico de extinción valores K232 y K270, color y prueba de Kreiss. Igualmente se evaluaron los espectros UV-VIS de los tres tipos de aceite estudiados. Se ensayaron siete diferentes tipos de catalizadores para la reacción de transesterificación manteniendo en todos los casos la proporción de catalizador: aceite 38:190 (v/v, tiempo de reacción (2h y temperatura de reacción (60°C. Se lograron rendimientos de biodiesel de 75.8% de aceite desechado usando KOH 1,269%p/v/MeOH 99%; 87.50% de aceite usado con KOH 0,537%p/v/MeOH 99% y 86.60% de aceite fresco usando KOH 0,457%p/v/MeOH 99%. Al biodiesel obtenido en cada caso se le determinó peso específico, índice de refracción, humedad y materia volátil, cenizas sulfatadas, carbón residual, corrosión a la lámina de cobre y perfil de ácidos grasos. En todos los casos hubo predominio de ácido  palmítico, ácido  oléico y ácido  esteárico en los aceites usados y desechados. Del análisis por cromatografía de gases acoplada a espectrometría de masas se pudo establecer que el contenido total de ésteres metílicos de ácidos  grasos es del 98,38% para el biodiesel de aceite desechado; 99,53% para el biodiesel de aceite usado y 97, 69% para el biodiesel de aceite fresco. Palabras clave: aceite residual de cocina; biodiesel; ácidos grasos; transesterificación Abstract Aphysical and

  11. Energy aspects of microalgal biodiesel production

    Directory of Open Access Journals (Sweden)

    Edith Martinez-Guerra

    2016-03-01

    Full Text Available Algal biodiesel production will play a significant role in sustaining future transportation fuel supplies. A large number of researchers around the world are investigating into making this process sustainable by increasing the energy gains and by optimizing resource-utilization efficiencies. Although, research is being pursued aggressively in all aspects of algal biodiesel production from microalgal cell cultivation, cell harvesting, and extraction and transesterification steps to the final product separation and purification, there is a large disparity in the data presented in recent reports making it difficult to assess the real potential of microalgae as a future energy source. This article discusses some of the key issues in energy consumption in the process of algal biodiesel production and identifies the areas for improvement to make this process energy-positive and sustainable.

  12. Process for biodiesel production from Cryptococcus curvatus.

    Science.gov (United States)

    Thiru, Meikandhan; Sankh, Santosh; Rangaswamy, Vidhya

    2011-11-01

    The objective of the current report is process optimization for economical production of lipids by the well known oleaginous yeast Cryptococcus curvatus and conversion of the lipids to biodiesel. A high cell density fed-batch cultivation on low cost substrate viz. crude glycerol resulted in a dry biomass and oil yield of up to 69 g/L and 48% (w/w), respectively. The process was scaled up easily to 26 L. The oil extraction process was also optimized using environmentally safe solvents. The oil profile indicated a high oleic acid content followed by palmitic acid, stearic acid and linoleic acid. The oil was trans-esterified to biodiesel and thoroughly characterized. This is the first end to end report on production of biodiesel from the C. curvatus oil.

  13. Operation and Control of Enzymatic Biodiesel Production

    DEFF Research Database (Denmark)

    Price, Jason Anthony; Huusom, Jakob Kjøbsted; Nordblad, Mathias

    -product. Current literature indicates that enzymatic processing of oils and fats to produce biodiesel is technically feasible and developments in immobilization technology indicate that enzyme catalysts can become cost effective compared to chemical processing. However, with very few exceptions, enzyme technology...... is not currently used in commercial-scale biodiesel production. This is mainly due to non-optimized process designs, which do not use the full potential of the catalysts in a cost-efficient way. Furthermore is it unclear what process variables need to be monitored and controlled to ensure optimal economics...... an enzymatic route, batch operation is a straightforward and efficient means for producing BD with its main disadvantage being the downtime between batches. For large-scale production of biodiesel, continuous operation is an attractive alternative as it enables efficient use of manpower and capital assets...

  14. Valorization of crude glycerol from biodiesel production

    Directory of Open Access Journals (Sweden)

    Konstantinović Sandra S.

    2016-01-01

    Full Text Available The increased production of biodiesel as an alternative fuel involves the simultaneous growth in production of crude glycerol as its main by-product. Therefore, the feasibility and sustainability of biodiesel production requires the effective utilization of crude glycerol. This review describes various uses of crude glycerol as a potential green solvent for chemical reactions, a starting raw material for chemical and biochemical conversions into value-added chemicals, a substrate or co-substrate in microbial fermentations for synthesis of valuable chemicals and production of biogas and biohydrogen as well as a feedstuff for animal feed. A special attention is paid to various uses of crude glycerol in biodiesel production. [Projekat Ministarstva nauke Republike Srbije, br. III 45001

  15. Synthesis And Characterization of Biodiesel From Nigerian Palm Kernel oil.

    Directory of Open Access Journals (Sweden)

    IGBOKWE, J. O.

    2016-07-01

    Full Text Available Biodiesel was produced from Nigerian Palm kernel oil through direct base- catalyzed transesterification process using methanol and sodium hydroxide as alcohol and catalyst respectively. The transesterification process involved 1 liter of Palm kernel oil, 200ml of methanol, 1.0% NaOH, reaction temperature of 65 degree Celsius and reaction time of 90mins and an average biodiesel yield of 87.67% was obtained. The produced biodiesel was blended with diesel fuel at a ratio of 20% biodiesel to 80% diesel fuel (by volume. The neat biodiesel and its blend were characterized using the ASTM methods. The results showed that the properties of the neat palm kernel oil biodiesel and its blend fall within the American Society for Testing and Materials (ASTM specifications for Biodiesel fuels hence confirming their suitability as alternative fuels for modern diesel engines.

  16. Improvement of biodiesel methanol blends

    Directory of Open Access Journals (Sweden)

    Y. Datta Bharadwaz

    2016-06-01

    Full Text Available The main objective of this work was to improve the performance of biodiesel–methanol blends in a VCR engine by using optimized engine parameters. For optimization of the engine, operational parameters such as compression ratio, fuel blend, and load are taken as factors, whereas performance parameters such as brake thermal efficiency (Bth and brake specific fuel consumption (Bsfc and emission parameters such as carbon monoxide (CO, unburnt hydrocarbons (HC, Nitric oxides (NOx and smoke are taken as responses. Experimentation is carried out as per the design of experiments of the response surface methodology. Optimization of engine operational parameters is carried out using Derringers Desirability approach. From the results obtained it is inferred that the VCR engine has maximum performance and minimum emissions at 18 compression ratio, 5% fuel blend and at 9.03 kg of load. At this optimized operating conditions of the engine the responses such as brake thermal efficiency, brake specific fuel consumption, carbon monoxide, unburnt hydrocarbons, nitric oxide, and smoke are found to be 31.95%, 0.37 kg/kW h, 0.036%, 5 ppm, 531.23 ppm and 15.35% respectively. It is finally observed from the mathematical models and experimental data that biodiesel methanol blends have maximum efficiency and minimum emissions at optimized engine parameters.

  17. Microbial degradation of palm (Elaeis guineensis biodiesel

    Directory of Open Access Journals (Sweden)

    Giselle Lutz

    2006-03-01

    Full Text Available The kinetics of biodegradation of palm-derived fatty methyl and ethyl esters (Elaeis guineensis biodiesel by a wild-type aerobic bacterial population was measured at 20 °C, as the rate of oxygen uptake by a manometric technique. The methyl and ethyl biodiesels were obtained by potassium-hydroxide catalysed transesterification of palm oil, respectively. The bacterial flora included the genera Bacillus, Proteus, Pseudomonas, Citrobacter and Enterobacter. The rate of oxygen uptake for palm biodiesel is similar to the quantity observed in the biodegradation of 1.0 mM solutions of simple substrates such as carbohydrates or amino acids.Palm methyl or ethyl biodiesel is subjected to facile aerobic biodegradation by wild-type bacteria commonly present in natural open environments. This result should lessen any environmental concern for its use as alternative fuel, solvent or lubricant. Rev. Biol. Trop. 54(1: 59-63.Epub 2006 Mar 31.La cinética de la biodegradación de los ésteres metílicos y etílicos derivados de palma (biodiesel por una población silvestre de bacterias aeróbicas fue medida a 20 °C, como medición manométrica del consumo de oxígeno. Los ésteres metílicos y etílicos se obtuvieron por transesterificación del aceite de palma con metanol y etanol,respectivamente. La flora bacteriana incluyó a los géneros Bacillus, Proteus, Pseudomonas, Citrobacter y Enterobacter. Las velocidades de consumo de oxígeno para las muestras de biodiesel fueron similares a lo observado en la biodegradación de disoluciones 1.0 mM de sustratos sencillos solubles en agua, tales como carbohidratos, aminoácidos y albúmina de huevo.

  18. Isothermal calorimetry of enzymatic biodiesel reaction

    DEFF Research Database (Denmark)

    Fjerbæk Søtoft, Lene; Westh, Peter; Christensen, Knud Villy

    2010-01-01

      Isothermal calorimetry ITC has been used to investigate enzymatic biodiesel production. The transesterification of rapeseed oil with methanol and ethanol was catalyzed by the immobilized lipase Novozym 435 at 40°C. The ITC-experiments clearly demonstrate the possibilities of investigating complex...... and composition change in the system, the heat of reaction at 40°C for the two systems has been determined to -9.8 ± 0.9 kJ/mole biodiesel formed from rapeseed oil and methanol, and - 9.3 ± 0.7 kJ/mole when rapeseed oil and ethanol is used....

  19. Cetane Number of Biodiesel from Karaya Oil

    KAUST Repository

    Wasfi, Bayan

    2017-04-01

    Biodiesel is a renewable fuel alternative to petroleum Diesel, biodiesel has similar characteristic but with lesser exhaust emission. In this study, transesterification of Karaya oil is examined experimentally using a batch reactor at 100-140°C and 5 bar in subcritical methanol conditions, residence time from 10 to 20 minutes, using a mass ratio 6 methanol-to-vegetable oil. Methanol is used for alcoholysis and sodium hydroxide as a catalyst. Experiments varied the temperature and pressure, observing the effect on the yield and reaction time. In addition, biodiesel from corn oil was created and compared to biodiesel from karaya oil. Kinetic model proposed. The model estimates the concentration of triglycerides, diglycerides, monoglycerides and methyl esters during the reaction. The experiments are carried out at temperatures of 100°C and above. The conversion rate and composition of methyl esters produced from vegetable oils are determined by Gas Chromatography Analysis. It was found that the higher the temperature, the higher reaction rate. Highest yield is 97% at T=140°C achieved in 13 minutes, whereas at T=100°C yield is 68% in the same time interval. Ignition Quality Test (IQT) was utilized for determination of the ignition delay time (IDT) inside a combustion chamber. From the IDT cetane number CN inferred. In case of corn oil biodiesel, the IDT = 3.5 mS, leading to a CN = 58. Whereas karaya oil biodiesel showed IDT = 2.4 mS, leading to a CN = 97. The produced methyl esters were also characterized by measurements of viscosity (υ), density (ρ), flash point (FP) and heat of combustion (HC). The following properties observed: For corn biodiesel, υ = 8.8 mPa-s, ρ = 0.863 g/cm3, FP = 168.8 °C, and HC = 38 MJ/kg. For karaya biodiesel, υ = 10 mPa-s, ρ = 0.877 g/cm3, FP = 158.2 °C, and HC = 39 MJ/kg.

  20. MULTIVARIATE REGRESSION MODELS USING INTERVAL SELECTION FOR QUANTIFICATION OF THE BIODIESEL IN BIODIESEL/DIESEL BLENDS

    Directory of Open Access Journals (Sweden)

    Marco Flôres Ferrão

    2010-11-01

    Full Text Available In the present work multivariate regression models using interval partial least square (iPLS and backward interval partial least square (biPLS had been analyzed and compared. iPLS and biPLS models had been developed to determine the concentration of biodiesel in blends of biodiesel/diesel using infrared spectroscopy signals. 45 samples with concentrations in range 8-30% of biodiesel, and two distinct spectrophotometers were used. Both the techniques (iPLS and biPLS using the data obtained by HATR-FTIR if had shown promising to develop simpler, faster and non-destructive methodologies for the biodiesel determination in commercial blends.

  1. Cottonseed oil for biodiesel production; Oleo de algodao para a producao de biodiesel

    Energy Technology Data Exchange (ETDEWEB)

    Pighinelli, Anna L.M.T.; Park, Kil J. [Universidade Estadual de Campinas (UNICAMP), SP (Brazil)], E-mail: annalets@feagri.unicamp.br; Ferrari, Roseli A.; Miguel, Ana M.R.O. [Instituto de Tecnologia de Alimentos (ITAL), Campinas, SP (Brazil)], Emails: roseliferrari@ital.sp.gov.br, anarauen@ital.sp.gov.br, kil@feagri.unicamp.br

    2009-07-01

    Crude cottonseed oil is an alternative for biodiesel production, mostly in Mato Grosso State, where its production is the biggest of Brazil. Even being an acid oil, esterification reaction, followed by transesterification, could make possible the biodiesel production. In this study, crude cottonseed oil obtained from expelled process was reacted to evaluate molar ration and catalyst concentration effects in biodiesel yield. Molar ratio varied from 3 to 15 moles of ethanol to 1 mol of oil, and catalyst, from 1 to 5% by oil mass. Statistic analysis showed that none of studied variables was significant, for the values range. Biodiesel yield had a maximum of 88%, for molar ratio of 4.7 and 4.42% of catalyst concentration. A combination of oil with high free fatty acid content and ethanol as alcohol, affected the separation between esters and glycerol. (author)

  2. Mont-Tremblant biodiesel project : feasibility study; Projet biodiesel Mont-Tremblant : etude de faisabilite

    Energy Technology Data Exchange (ETDEWEB)

    Lagace, C. [Groupe Sine Nomine, Montreal, PQ (Canada); Lamy, V.; Lapointe, L.; Pilon, B. [CEGEP de Saint-Jerome, Saint-Jerome, PQ (Canada). Inst. du transport avance du Quebec, ITAQ

    2008-08-15

    The growing interest in biodiesel can be attributed to concerns regarding climate change, environmental protection and sustainable development. Biodiesel produced from biomass is a renewable energy source that can replace fossil fuels and help reduce greenhouse gas emissions. The City of Mont-Tremblant commissioned a pilot study to determine the feasibility of integrating 20 per cent biodiesel (B20) in city fleet vehicles and school buses. The study focused on the use of biodiesel fuel under winter conditions. The fleet vehicles were analyzed and various strategies for integrating biodiesel mixtures by type and concentration were proposed. The feasibility study also investigated different types of petrodiesel such as Nordic type, seasonal type and kerosene. The effects of an electrical thermal management system were also investigated along with the use of additives. Various laboratory tests were performed in a controlled climate chamber to validate potential solutions. Finally, the study measured the impacts of likely solutions, and proposed 4 different scenarios for the use of biodiesel for the region of Mont-Tremblant. The study showed that it is possible to use B20 year-round, provided that certain conditions are met. The pilot project will also evaluate changes to storage infrastructure that may be needed for storing B20 in winter. 5 tabs., 10 figs., 2 appendices.

  3. Thermodegradation of biodiesel: thermoanalytical and rheological characterization; Degradacao termica de biodiesel: caracterizacao termoanalitica e reologica

    Energy Technology Data Exchange (ETDEWEB)

    Silva, Everson L.; Carvalho, Laura H.; Araujo, Gilmar T.; Gadelha, Tatiana S. [Universidade Federal de Campina Grande (UFCG), PB (Brazil)

    2008-07-01

    Brazil is a country of extensive agricultural land and great oil consumption and these factors favor biodiesel production in this country. In order for diesel/biodiesel mixtures to be effectively employed in diesel engines, a rigid quality control of these mixtures is needed. Biodiesel and mixtures must have their quality monitored with respect to oxidative resistance, thermal stability, fluidity and volatility, properties which can be modified by the adverse transport and stock conditions prior to consumption. Oxidation is the main degradation mechanism of products under transport and stock conditions, which can lead to significant economical losses. In this work sought the thermal degradation of neat biodiesel, synthesized in our laboratories was monitored. Thermal aging was conducted at 210 deg C for up to 1000 h. Virgin and thermally degraded samples were characterized by rheological measurements (in different shear conditions); FTIR; density and by color changes. We concluded that the soy biodiesel was successfully synthesized and that thermal exposure caused thermal-oxidative degradation of the biodiesel sample, significantly changing its properties as a function of thermal exposure times. (author)

  4. Exhaust gas emissions and mutagenic effects of modern diesel fuels, GTL, biodiesel and biodiesel blends

    Energy Technology Data Exchange (ETDEWEB)

    Munack, Axel; Ruschel, Yvonne; Schroeder, Olaf [Federal Research Institute for Rural Areas, Forestry and Fisheries, Braunschweig (Germany)], E-mail: axel.munack@vti.bund.de; Krahl, Juergen [Coburg Univ. of Applied Sciences (Germany); Buenger, Juergen [University of Bochum (Germany)

    2008-07-01

    Biodiesel can be used alone (B100) or blended with petroleum diesel in any proportion. The most popular biodiesel blend in the U.S.A. is B20 (20% biodiesel, 80% diesel fuel), which can be used for Energy Policy Act of 1992 (EPAct) compliance. In the European Union, the use of biofuel blends is recommended and was introduced by federal regulations in several countries. In Germany, biodiesel is currently blended as B5 (5% biodiesel) to common diesel fuel. In 2008, B7 plus three percent hydrotreated vegetable oil (HVO) as well is intended to become mandatory in Germany. To investigate the influence of blends on the emissions and possible health effects, we performed a series of studies with several engines (Euro 0, III and IV) measuring regulated and non-regulated exhaust compounds and determining their mutagenic effects. Emissions of blends showed an approximate linear dependence on the blend composition, in particular when regulated emissions are considered. However, a negative effect of blends was observed with respect to mutagenicity of the exhaust gas emissions. In detail, a maximum of the mutagenic potency was found in the range of B20. From this point of view, B20 must be considered as a critical blend, in case diesel fuel and biodiesel are used as binary mixtures. (author)

  5. Thermodegradation of biodiesel: thermoanalytical and rheological characterization; Degradacao termica de biodiesel: caracterizacao termoanalitica e reologica

    Energy Technology Data Exchange (ETDEWEB)

    Silva, Everson L.; Carvalho, Laura H.; Araujo, Gilmar T.; Gadelha, Tatiana S. [Universidade Federal de Campina Grande (UFCG), PB (Brazil)

    2008-07-01

    Brazil is a country of extensive agricultural land and great oil consumption and these factors favor biodiesel production in this country. In order for diesel/biodiesel mixtures to be effectively employed in diesel engines, a rigid quality control of these mixtures is needed. Biodiesel and mixtures must have their quality monitored with respect to oxidative resistance, thermal stability, fluidity and volatility, properties which can be modified by the adverse transport and stock conditions prior to consumption. Oxidation is the main degradation mechanism of products under transport and stock conditions, which can lead to significant economical losses. In this work sought the thermal degradation of neat biodiesel, synthesized in our laboratories was monitored. Thermal aging was conducted at 210 deg C for up to 1000 h. Virgin and thermally degraded samples were characterized by rheological measurements (in different shear conditions); FTIR; density and by color changes. We concluded that the soy biodiesel was successfully synthesized and that thermal exposure caused thermal-oxidative degradation of the biodiesel sample, significantly changing its properties as a function of thermal exposure times. (author)

  6. Biodiesel: o ônus e o bônus de produzir combustível Biodiesel: the charge and the bond of the fuel producing

    Directory of Open Access Journals (Sweden)

    Paulo Regis Ferreira da Silva

    2008-06-01

    Full Text Available A dependência do petróleo e a poluição gerada pelo óleo diesel são as grandes desvantagens do uso deste combustível, o que vem estimulando a busca por fontes energéticas alternativas. Biodiesel é o combustível derivado de óleos vegetais ou de gordura animal que pode substituir total ou parcialmente o óleo diesel derivado de petróleo. Pode ser obtido por diferentes processos, como craqueamento, transesterificação ou esterificação, tendo glicerina como subproduto. A transesterificação é o método estimulado pelo Programa Nacional de Produção e Uso de Biodiesel no Brasil, consistindo na reação química de triglicerídios com álcoois (metanol ou etanol na presença de um catalisador (NaOH. O objetivo desta revisão é discutir as vantagens e as desvantagens que a produção de biodiesel traz para a agricultura e o ambiente e a competição que pode ocorrer por recursos naturais entre a produção de alimentos e a de combustível. O biodiesel, além de ser obtido de fontes renováveis, tem como vantagens a menor emissão de gases poluentes e a menor persistência no solo. Entretanto, o custo de produção atualmente é maior e o balanço energético, apesar de variar com o sistema de produção utilizado, é menos favorável em relação ao óleo diesel. A maior demanda por grãos oleaginosos promoverá a utilização de mais espécies nos sistemas de produção em todo o país. Na Região Sul, tem sido dado maior enfoque às culturas da soja, girassol, canola e mamona. Esta última, incentivada em regiões de baixa disponibilidade hídrica, está sendo melhorada geneticamente para produção de biocombustível. Tem como desvantagem a presença de ricina, substância tóxica ao homem e que pode contaminar o ambiente. O girassol e a canola produzem óleos "nobres" para alimentação humana, com altos teores de ácidos graxos poliinsaturados. O biodiesel constitui-se em uma boa alternativa para a substituição parcial ou total

  7. KINETIKA TRANSESTERIFIKASI BIODIESEL JARAK PAGAR

    Directory of Open Access Journals (Sweden)

    Buchori Luqman

    2012-07-01

    Full Text Available Biodiesel were produced by trans-etherification of castor oil with alcohol in the presence of NaOH catalyst. Thereaction mechanism and model of castor oil trans-etherification isA + 3B C + 3 DA, B, C, and D were castor oil, alcohol, glycerol, and ester. The reaction rate equation was r=-dCA/dt =k1(CA(CB3–k2(CC(CD3. In this study was used two measurement method of free fat acid as the rest content ofcastor oil with SNI 01-3555-1998 and AOAC (Association of Analytical Chemist. It found that SNI 01-3555-1998 method was the easier and the acurate measurement. The classification of alcohol used was methanol andethanol to compare the action both of them. Methanol produces the higher conversion than ethanol. The reactionin a batch reactor with temperature 40, 50, and 60°C in atmospheric pressure as the operation condition tolooking for kinetics parameter of trans-etherification. Coefficient reaction rate and activation energy were lookinto kinetics study. Reaction rate was a mathematics model as a function of concentration and time which solvedby Runge-Kutta, multivariable optimization and SSE (some square error method using Matlab. The activationenergy (Ea and impact factor (A obtained by linier regression method. The result of study obtained the kineticsparameter of trans-etherification with methanol k1=1.9313x1031exp (-41.940/RT average error 0.0010 andk2=2.7678x1025exp(-37.362/ RT average error 0.0003. While kinetics parameter of trans-etherification withethanol obtained k1=1.168x1019exp(-24.588/ RT average error 0.0306 and k2=4.9966x106exp(-10.328/RTaverage error 0.1589. It means, more reactive alcohol then bigger the value of kinetics parameter.

  8. Acute aqueous toxicities of diesel-biodiesel blends

    Energy Technology Data Exchange (ETDEWEB)

    Hollebone, B.P.; Ho, N.; Landriault, M. [Environment Canada, Ottawa, ON (Canada). Emergencies Science and Technology Division, Science and Technology Branch, Environmental Science and Technology Centre; Harrison, S. [Science Applications International Corp., SAIC Canada, Ottawa, ON (Canada); Doe, K.; Jackman, P. [Environment Canada, Moncton, NB (Canada). Toxicology Laboratory, Environmental Science Centre

    2008-07-01

    The renewed interest in biodiesels as a new transportation fuel was discussed. Although there are several advantages to using biodiesels, their environmental behaviours and effects need to be evaluated along with the risks associated with their use, such as accidental releases of these biodiesels to the environment. The wide variability of biodiesels may result in different toxicological impacts, depending on the fuel feedstock. This study evaluated the aqueous effects of biodiesels from several commonly available feedstocks and their blends with petroleum diesel. Since most of the commercial uses of these products are currently focused on road-use, this study focused on the effects of these fuels in fresh-water. Biodiesels derived from soy, canola and waste restaurant oil feedstocks were used in the study. The acute toxicities of these biodiesels and biodiesel/petroleum diesel fuel blends were reported for 3 test species used by Environment Canada for toxicological evaluation, notably rainbow trout, the water flea, and a luminescent bacterium. The correlations between acute toxicity, water accommodated fractions (WAF) concentrations and fuel property data were examined. The study revealed that biodiesel is significantly less acutely toxic than petroleum diesels in potential ecological impacts. However, the biodiesel-diesel blends were found to be more acutely toxic than a linear dilution model predicts. 11 refs., 6 tabs., 3 figs.

  9. Profitability and sustainability of small - medium scale palm biodiesel plant

    Science.gov (United States)

    Solikhah, Maharani Dewi; Kismanto, Agus; Raksodewanto, Agus; Peryoga, Yoga

    2017-06-01

    The mandatory of biodiesel application at 20% blending (B20) has been started since January 2016. It creates huge market for biodiesel industry. To build large-scale biodiesel plant (> 100,000 tons/year) is most favorable for biodiesel producers since it can give lower production cost. This cost becomes a challenge for small - medium scale biodiesel plants. However, current biodiesel plants in Indonesia are located mainly in Java and Sumatra, which then distribute biodiesel around Indonesia so that there is an additional cost for transportation from area to area. This factor becomes an opportunity for the small - medium scale biodiesel plants to compete with the large one. This paper discusses the profitability of small - medium scale biodiesel plants conducted on a capacity of 50 tons/day using CPO and its derivatives. The study was conducted by performing economic analysis between scenarios of biodiesel plant that using raw material of stearin, PFAD, and multi feedstock. Comparison on the feasibility of scenarios was also conducted on the effect of transportation cost and selling price. The economic assessment shows that profitability is highly affected by raw material price so that it is important to secure the source of raw materials and consider a multi-feedstock type for small - medium scale biodiesel plants to become a sustainable plant. It was concluded that the small - medium scale biodiesel plants will be profitable and sustainable if they are connected to palm oil mill, have a captive market, and are located minimally 200 km from other biodiesel plants. The use of multi feedstock could increase IRR from 18.68 % to 56.52 %.

  10. The Current Status of Biodiesel Production Technology: A Review

    Directory of Open Access Journals (Sweden)

    Rizal Alamsyah

    2007-12-01

    Full Text Available Biodiesel is addressed to the name of fuel which consist of mono-alkyl ester that made from renewable and biodegradable resources, such as oils from plants (vegetable oils, waste or used cooking oil, and animal fats. Such oils or fats are chemically reacted with alcohols or methanol In producing chernical compounds called fatty acid methyl ester (FAME and these reactions are called transesterification and esterification. Glycerol, used in the pharmaceutical and cosmetics industry is produced from biodiesel production as a by-product. Researches on biodiesel as an alternative petroleum diesel have been done for more than 20 years. Transesterification reaction can be acid-catalyzed, alkali-catatyzed, or enzyme-catalyzed. Commercially biodiesel is processed by transesterification with alkali catalyst. This process, however, requires refining of products and recovery of catalysts, Such biodiesel production accelerates researches on biodiesel to obtain simpler methods, better quality. and minimum production cost. Besides the catalytic production for biodiesel, there is a method for biodiesel production namely non-catalytic production. Non-catalytic transesterification method was developed since catalytic tranestertfification still has two main problems assoclated With long reaction time and complicated purification. The first problem occurres because of the two phase nature of vegetable oil/methanol mixture, and the last problem is due to purification of catalyst and glycerol. The application of catalytic tranestertfication method leads to condition of high biodiesel production cost and high energy consumption. This paper provides information of biodiesel production progress namely catalytic tranestertfification (acid, alkali, and enzymatic tranesterfification, and non-catalytic tranesterification (at sub-critical­-supercritical temperature under pressurized conditions. It was found that every method of biodiesel production still has advantages and

  11. Production and application of biodiesel from waste cooking oil

    Science.gov (United States)

    Tuly, S. S.; Saha, M.; Mustafi, N. N.; Sarker, M. R. I.

    2017-06-01

    Biodiesel has been identified as an alternative and promising fuel source to reduce the dependency on conventional fossil fuel in particular diesel. In this work, waste cooking oil (WCO) of restaurants is considered to produce biodiesel. A well-established transesterification reaction by sodium hydroxide (NaOH) catalytic and supercritical methanol (CH3OH) methods are applied to obtain biodiesel. In the catalytic transesterification process, biodiesel and glycerine are simultaneously produced. The impact of temperature, methanol/WCO molar ratio and sodium hydroxide concentration on the biodiesel formation were analysed and presented. It was found that the optimum 95% of biodiesel was obtained when methanol/WCO molar ratio was 1:6 under 873 K temperature with the presence of 0.2% NaOH as a catalyst. The waste cooking oil blend proportions were 10%, 15%, 20% and 25% and named as bio-diesel blends B-10, B-15, B-20, and B-25, respectively. Quality of biodiesel was examined according to ASTM 6751: biodiesel standards and testing methods. Important fuel properties of biodiesel, such as heating value, cetane index, viscosity, and others were also investigated. A four-stroke single cylinder naturally aspirated DI diesel engine was operated using in both pure form and as a diesel blend to evaluate the combustion and emission characteristics of biodiesel. Engine performance is examined by measuring brake specific fuel consumption and fuel conversion efficiency. The emission of carbon monoxide (CO), carbon dioxide (CO2), nitrogen oxides (NOx), and others were measured. It was measured that the amount of CO2 increases and CO decreases both for pure diesel and biodiesel blends with increasing engine load. However, for same load, a higher emission of CO2 from biodiesel blends was recorded than pure diesel.

  12. Isothermal calorimetry of enzymatic biodiesel reaction

    DEFF Research Database (Denmark)

    Fjerbæk Søtoft, Lene; Westh, Peter; Christensen, Knud Villy

    2010-01-01

      Isothermal calorimetry ITC has been used to investigate enzymatic biodiesel production. The transesterification of rapeseed oil with methanol and ethanol was catalyzed by the immobilized lipase Novozym 435 at 40°C. The ITC-experiments clearly demonstrate the possibilities of investigating complex...

  13. Environmental Sustainability Analysis of Biodiesel Production

    DEFF Research Database (Denmark)

    Herrmann, Ivan Tengbjerg; Hauschild, Michael Michael Zwicky; Birkved, Morten

    like these require a life cycle perspective on the biofuel - from the cradle (production of the agricultural feedstock) to the grave (use as fuel). An environmental life cycle assessment is performed on biodiesel to compare different production schemes including chemical and enzymatic esterification...

  14. Jatropha bio-diesel production and use

    Energy Technology Data Exchange (ETDEWEB)

    Achten, W.M.J.; Aerts, R.; Muys, B. [Katholieke Universiteit Leuven, Division Forest, Nature and Landscape, Celestijnenlaan 200 E Box 2411, BE-3001 Leuven (Belgium); Verchot, L. [World Agroforestry Centre (ICRAF) Head Quarters, United Nations Avenue, P.O. Box 30677, Nairobi (Kenya); Franken, Y.J. [FACT Foundation, Horsten 1, 5612 AX Eindhoven (Netherlands); Mathijs, E. [Katholieke Universiteit Leuven, Division Agricultural and Food Economics, Willem de Croylaan 42 Box 2424, BE-3001 Leuven (Belgium); Singh, V.P. [World Agroforestry Centre (ICRAF) Regional Office for South Asia, CG Block, 1st Floor, National Agricultural Science Centre, Dev Prakash Shastri Marg, Pusa, New Delhi 110 012 (India)

    2008-12-15

    The interest in using Jatropha curcas L. (JCL) as a feedstock for the production of bio-diesel is rapidly growing. The properties of the crop and its oil have persuaded investors, policy makers and clean development mechanism (CDM) project developers to consider JCL as a substitute for fossil fuels to reduce greenhouse gas emissions. However, JCL is still a wild plant of which basic agronomic properties are not thoroughly understood and the environmental effects have not been investigated yet. Gray literature reports are very optimistic on simultaneous wasteland reclamation capability and oil yields, further fueling the Jatropha bio-diesel hype. In this paper, we give an overview of the currently available information on the different process steps of the production process of bio-diesel from JCL, being cultivation and production of seeds, extraction of the oil, conversion to and the use of the bio-diesel and the by-products. Based on this collection of data and information the best available practice, the shortcomings and the potential environmental risks and benefits are discussed for each production step. The review concludes with a call for general precaution and for science to be applied. (author)

  15. Hydrotreatment of Oils and Fats for Biodiesel

    DEFF Research Database (Denmark)

    Madsen, Anders Theilgaard; Riisager, Anders; Fehrmann, Rasmus

    The use of renewable biofuels in the transport sector represents an important step towards a sustainable society. Biodiesel is currently produced by the transesterification of fats and oils with methanol, but another viable method could be reaction of the feedstock with H2 to produce long...

  16. Uncertainties in the Bidirectional Biodiesel Supply Chain

    NARCIS (Netherlands)

    Bot, Pieter; van Donk, Dirk Pieter; Pennink, Bartjan; Simatupang, Togar M.

    2015-01-01

    For remote areas, small-scale local biodiesel production is particularly attractive if producers and consumers are the same. Such supply chains are labeled as bidirectional. However, little is known on how raw material supply, transportation, logistics, production and operations uncertainties impact

  17. Lipases as biocatalysts for biodiesel production

    Directory of Open Access Journals (Sweden)

    Ognjanović Nevena D.

    2010-01-01

    Full Text Available Lipases can be used for a variety of biotechnological applications: synthesis of fine chemicals, therapeutics, agrochemicals, cosmetics, flavors, biopolymers and biodiesel. Biodiesel is an alternative fuel for diesel engines that is environmentally acceptable. Conventionally, biodiesel is produced by transesterification of triglycerides and short chain alcohols in the presence of an acid or an alkaline catalyst. There are several problems associated with this kind of production that can be resolved by using lipase as the biocatalyst. The usage of lipases has several advantages over the conventional chemical methods. It is considered as less energy intensive and environmentally friendly. However, there are two main obstacles associated with the effective utilization of lipases in the production of biodiesel. The main one is the cost of the enzyme and its poor stability in the presence of excess alcohol. Several strategies are proposed to overcome these drawbacks: immobilization of lipases, stepwise addition of alcohol, and the usage of novel acyl acceptors and the usage of whole cell biocatalysts.

  18. Characterization of residual oils for biodiesel production

    Directory of Open Access Journals (Sweden)

    Edmilson Antonio Canesin

    2014-01-01

    Conclusions: The obtained results suggesting that it is possible to take advantage of these residues for biodiesel production as the obtained products were approved according to the rules established by the National Association of Petroleum (ANP; the bovine samples were the exception regarding moisture and acidity.

  19. WI Biodiesel Blending Progream Final Report

    Energy Technology Data Exchange (ETDEWEB)

    Redmond, Maria E; Levy, Megan M

    2013-04-01

    The Wisconsin State Energy Office's (SEO) primary mission is to implement cost effective, reliable, balanced, and environmentally friendly clean energy projects. To support this mission the Wisconsin Biodiesel Blending Program was created to financially support the installation infrastructure necessary to directly sustain biodiesel blending and distribution at petroleum terminal facilities throughout Wisconsin. The SEO secured a federal directed award of $600,000 over 2.25 years. With these funds, the SEO supported the construction of inline biodiesel blending facilities at two petroleum terminals in Wisconsin. The Federal funding provided through the state provided a little less than half of the necessary investment to construct the terminals, with the balance put forth by the partners. Wisconsin is now home to two new biodiesel blending terminals. Fusion Renewables on Jones Island (in the City of Milwaukee) will offer a B100 blend to both bulk and retail customers. CITGO is currently providing a B5 blend to all customers at their Granville, WI terminal north of the City of Milwaukee.

  20. BIODIESELS AS A FUNCTION OF ENVIRONMENTAL PROTECTION

    Directory of Open Access Journals (Sweden)

    Lovro Babić

    2013-04-01

    Full Text Available As of July 1st 2013. the Republic of Croatia will be a member of the European Union, which will primarily bring necessary harmonisation of ecological standards and requirements. Biodiesel, as a renewable source of energy, can be produced from algae, vegetable oil, and animal fats, and thus it is biodegradable. Biodiesel in Croatia is mainly produced from oilseed rape which, as an agricultural plant, has an increasing share in the past three years and records positive trends. This paper analyses the trend of production in the Republic of Croatia, and compares it with the production and consumption of fossil fuels. On the grounds of Croatia’s favourable agriculture-related climatic characteristics, in particular in the region of Slavonija and Baranja, more intense exploitation of farm land under the cultures intended for biodiesel production can be organised aiming at bumper yield and production. Croatia has already harmonised its standards of production of biodiesel, and by 2020 the consumption of biodiesel is bound to reach 20%. The data used in this paper are obtained from the sources available by Croatian Institute of Statistics, Market Information System in Agriculture, as well as Eurostat, and the rest used here are translated from the sources in the English language. The reviewed are the surfaces planted with oilseed rape in the period between 2007. and 2011., an average yield, and overall production. On the grounds of available information, the calculations of the quantity of bio fuel to be consumed in Croatia by 2020. and the percentage of the land surfaces planted with oilseed rape have been made.

  1. Study on the lubrication properties of biodiesel as fuel lubricity enhancers

    Energy Technology Data Exchange (ETDEWEB)

    Jianbo Hu; Zexue Du; Changxiu Li; Enze Min [Research Institute of Petroleum Processing, SINOPEC, Beijing (China)

    2005-09-01

    Unrefined biodiesels containing small quantities of monoglycerides, diglycerides, and triglycerides, and refined biodiesels not containing these glycerides were added to diesel fuel and the resulting lubricity was measured using the High Frequency Reciprocating Rig (HFRR) method. The unrefined biodiesels showed higher lubricity properties than refined biodiesels. The chemical factors influencing the lubricity properties of biodiesels were investigated. Methyl esters and monoglycerides are the main compositions that determine the lubricity of biodiesels that meet international standards. Free fatty acids and diglycerides can also affect the lubricity of biodiesel, but not so much as monoglycerides. Triglycerides almost have no effects on the lubricity of biodiesel. 18 refs., 3 figs., 5 tabs.

  2. Microtox aquatic toxicity of petrodiesel and biodiesel blends: the role of biodiesel's autoxidation products.

    Science.gov (United States)

    Yassine, Mohamad H; Wu, Shuyun; Suidan, Makram T; Venosa, Albert D

    2012-12-01

    The acute Microtox toxicity of the water accommodated fraction (WAF) of six commercial soybean biodiesel/petrodiesel blends was investigated at different oil loads. We analyzed five fatty acid methyl esters (FAMEs), C10-C24 n-alkanes, four aromatics, methanol, and total organic carbon (TOC) content. At high oil loads, the WAFs' toxicity was significantly higher for blends containing biodiesel. At the lowest load, the WAFs' toxicity decreased almost linearly with decreasing biodiesel in the blend. At intermediate loads, the WAFs of all the blends appeared to have a similar toxicity. Analysis of WAFs confirmed the presence of autoxidation byproducts of FAMEs at high oil loads. Pure unsaturated FAMEs and n-alkanes were nontoxic when present in water at their reported solubility limits. However, 24-h equilibrated WAFs of pure FAMEs were highly toxic for C18:1 and C18:3, but not for C18:2. The authors concluded that at high oil loads, the acute toxicity of the WAFs was caused by FAMEs' autoxidation byproducts, whereas at low oil loads, the toxicity appeared to be caused primarily by the aromatic compounds present in petrodiesel. The addition of a synthetic antioxidant in biodiesel did not appear to affect the concentration of autoxidation byproducts in the WAF but resulted in a slight decrease in its toxicity. The major autoxidation byproducts identified in the WAF of commercial biodiesel were present neither in the WAFs of pure unsaturated FAMEs nor in the WAF of a different soybean biodiesel that was transesterified in our laboratory, which was nontoxic. We concluded that the process of transesterification of biodiesel might be a more critical factor in determining the aquatic toxicity of the fuel than the source of feedstock itself. Copyright © 2012 SETAC.

  3. An updated comprehensive techno-economic analysis of algae biodiesel.

    Science.gov (United States)

    Nagarajan, Sanjay; Chou, Siaw Kiang; Cao, Shenyan; Wu, Chen; Zhou, Zhi

    2013-10-01

    Algae biodiesel is a promising but expensive alternative fuel to petro-diesel. To overcome cost barriers, detailed cost analyses are needed. A decade-old cost analysis by the U.S. National Renewable Energy Laboratory indicated that the costs of algae biodiesel were in the range of $0.53-0.85/L (2012 USD values). However, the cost of land and transesterification were just roughly estimated. In this study, an updated comprehensive techno-economic analysis was conducted with optimized processes and improved cost estimations. Latest process improvement, quotes from vendors, government databases, and other relevant data sources were used to calculate the updated algal biodiesel costs, and the final costs of biodiesel are in the range of $0.42-0.97/L. Additional improvements on cost-effective biodiesel production around the globe to cultivate algae was also recommended. Overall, the calculated costs seem promising, suggesting that a single step biodiesel production process is close to commercial reality.

  4. Biodiesel production with special emphasis on lipase-catalyzed transesterification.

    Science.gov (United States)

    Bisen, Prakash S; Sanodiya, Bhagwan S; Thakur, Gulab S; Baghel, Rakesh K; Prasad, G B K S

    2010-08-01

    The production of biodiesel by transesterification employing acid or base catalyst has been industrially accepted for its high conversion and reaction rates. Downstream processing costs and environmental problems associated with biodiesel production and byproducts recovery have led to the search for alternative production methods. Recently, enzymatic transesterification involving lipases has attracted attention for biodiesel production as it produces high purity product and enables easy separation from the byproduct, glycerol. The use of immobilized lipases and immobilized whole cells may lower the overall cost, while presenting less downstream processing problems, to biodiesel production. The present review gives an overview on biodiesel production technology and analyzes the factors/methods of enzymatic approach reported in the literature and also suggests suitable method on the basis of evidence for industrial production of biodiesel.

  5. Modelos de regressão multivariada empregando seleção de intervalos para a quantificação do biodiesel em blendas biodiesel/diesel

    Directory of Open Access Journals (Sweden)

    Marco Flôres Ferrão

    2010-01-01

    Full Text Available No presente trabalho foram analisados e comparados modelos de regressão multivariados por mínimos quadrados parciais porintervalo (iPLS e por mínimos quadrados parciais por exclusão (biPLS que selecionaram regiões do espectro mais adequadas,retirando informações não relevantes e otimizando o modelo de calibração, a fim de determinar a concentração de biodiesel emblendas de biodiesel/diesel a partir de dados obtidos por espectroscopia no infravermelho por reflectância total atenuada (HATRFTIR.Foram utilizadas 45 amostras de blendas biodiesel/diesel com concentrações de 8 a 30% de biodiesel e os espectros foramadquiridos em dois distintos espectrofotômetros e misturados aleatoriamente para a realização dos modelos, onde foram construídosmodelos para calibração utilizando 2/3 dos espectros das amostras obtendo assim os valores de RMSECV, e o restante dos espectrosforam empregados no conjunto de previsão, obtendo então os valores de RMSEP. Os dados espectrais foram autoescalados (AUTOou centrados na média (MEAN, com ou sem o emprego da correção multiplicativa de sinal (MSC. A utilização dos métodos deseleção das faixas espectrais aplicados aos espectros por ATR se mostrou viável para a quantificação do biodiesel nas blendas, sendoque a utilização da espectroscopia no infravermelho apresenta vantagens como à necessidade de pequena quantidade de amostra ebaixo tempo de análise, além de ser um procedimento não destrutivo e não gerador de resíduos, otimizando assim o processo emquestão.Abstract In the present work multivariate regressionmodels using interval partial least square (iPLS and backwardinterval partial least square (biPLS had been analyzed andcompared. iPLS and biPLS models had been developed todetermine the concentration of biodiesel in blends ofbiodiesel/diesel using infrared spectroscopy signals. 45samples with concentrations in range 8-30% of biodiesel, andtwo distinct spectrophotometers were

  6. Performance characteristics of mix oil biodiesel blends with smoke emissions

    OpenAIRE

    Sanjay Mohite; Sudhir Kumar; Sagar Maji

    2016-01-01

    Fossil fuel resources are being depleted day by day and its use affects the environment adversely. Renewable energy is one of the alternate for sustainable development and biodiesel is one of the suitable alternate which can replace the diesel. The major hurdles in the successful commercialization of biodiesel are high feedstock cost and conversion technology to reduce viscosity. The choice of raw material and biodiesel production method must depend upon techno-economical view. There are some...

  7. Combustion and Performance Characteristics of CI Engine Running with Biodiesel

    OpenAIRE

    Tesfa, Belachew; Mishra, Rakesh; Gu, Fengshou; Ball, Andrew

    2013-01-01

    Biodiesel is one of the alternative fuels which is renewable and environmentally friendly and can be used in diesel engines with little or no modifications. In the present study, experimental investigations were carried out on the effects of biodiesel types, biodiesel fraction and physical properties on the combustion and performance characteristics of a compression ignition (CI) engine. The experimental work was conducted on a four-cylinder, four -stroke, direct injection (DI) and turbocharg...

  8. Potential use of eucalyptus biodiesel in compressed ignition engine

    OpenAIRE

    Puneet Verma; Mahendra Pal Sharma; Gaurav Dwivedi

    2016-01-01

    The increased population has resulted in extra use of conventional sources of fuels due to which there is risk of extinction of fossil fuels’ resources especially petroleum diesel. Biodiesel is emerging as an excellent alternative choice across the world as a direct replacement for diesel fuel in vehicle engines. Biodiesel offers a great choice. It is mainly derived from vegetable oils, animal fats and algae. Hence in this paper effort has been made to find out feasibility of biodiesel obtain...

  9. Pembuatan Biodiesel Dari Minyak Nyamplung Menggunakan Pemanasan Gelombang Mikro

    Directory of Open Access Journals (Sweden)

    Fatih Ridho Muhammad

    2014-09-01

    Full Text Available Energi fosil yang selama ini menjadi tumpuan penduduk seluruh dunia, jumlahnya semakin menipis dari waktu ke waktu. Peran minyak bumi dalam penyediaan energi nasional pun masih dominan. Sekitar 53% kebutuhan energi nasional dipenuhi dari minyak bumi. Oleh karena itu, pencarian energi alternatif pengganti minyak bumi harus dikembangkan, salah satunya biodiesel. Penggunaan microwave sebagai sumber energi pembuatan biodiesel dapat mempercepat waktu reaksi. Sehingga microwave dipandang lebih efisien. Biji nyamplung (Calophyllum inophyllum memiliki kandungan minyak sebesar 60,1% berat. Dengan kandungan minyak sebesar ini maka biji nyamplung memiliki potensi yang besar bila digunakan sebagai bahan baku pembuatan biodiesel. Nyamplung tersebar luas di pantai-pantai Indonesia. Tujuan penelitian ini adalah untuk mensintesa biodiesel dari minyak mentah nyamplung (Callophyluminophyllum dengan proses trans-esterifikasi dengan menggunakan microwave, mempelajari daya optimal dalam pembuatan biodiesel, mempelajari jumlah katalis yang dibutuhkan untuk mendapatkan biodiesel yang paling baik, mempelajari yield biodiesel yang dihasilkan serta mempelajari pengaruh penambahan ratio mol minyak-metanol terhadap kualitas biodiesel yang dihasilkan. Langkah awal pembuatan biodiesel nyamplung adalah proses degumming atau penghilangan impurities seperti getah, kemudian dilanjutkan dengan esterifikasi yang bertujuan untuk mengubah free fatty acid (FFA menjadi metil ester. Setelah esterifikasi, larutan dititrasi dengan NaOH dan indicator pp hingga konsentrasi FFA menjadi < 2%. Kemudian masuk proses trans-esterifikasi yang merubah trigliserida dalam minyak menjadi metil ester dan gliserol. Proses selanjutnya adalah pemisahan biodiesel dan gliserol dan terakhir proses pencucian. Variabel percobaan adalah kadar katalis CaO 2, 3, 4, 5, dan 6% berat minyak. Ratio mol minyak-metanol 1:9 dan 1:12. Variabel terakhir adalah daya microwave sebesar 100W, 264W dan 400W. Dari hasil

  10. Effectiveness of Low Temperature Additives for Biodiesel Blends

    Science.gov (United States)

    2012-06-30

    UNCLASSIFIED EFFECTIVENESS OF LOW TEMPERATURE ADDITIVES FOR BIODIESEL BLENDS INTERIM REPORT TFLRF No. 428 by Steven R...Do not return it to the originator. UNCLASSIFIED UNCLASSIFIED EFFECTIVENESS OF LOW TEMPERATURE ADDITIVES FOR BIODIESEL BLENDS...17-2010 – 06-30-2012 4. TITLE AND SUBTITLE Effectiveness of Low Temperature Additives for Biodiesel Blends 5a. CONTRACT NUMBER W56HZV-09-C-0100

  11. Optimization of emergy sustainability index for biodiesel supply network design

    DEFF Research Database (Denmark)

    Ren, Jingzheng; Tan, Shiyu; Yang, Le

    2015-01-01

    sustainable design. In the proposed model, the emergy sustainability index of the whole biodiesel supply networks in a life cycle perspective is employed as the measure of the sustainability, and multiple feedstocks, multiple transport modes, multiple regions for biodiesel production and multiple distribution...... centers can be considered. After describing the process and mathematic framework of the model, an illustrative case was studied and demonstrated that the proposed methodology is feasible for finding the most sustainable design and planning of biodiesel supply chains....

  12. Biodiesel Production Using Wet and Dry Purification Methods

    OpenAIRE

    DEMIR, Veli Gokhan

    2017-01-01

    Inbiodiesel production via transesterification, after removing glycerol fromcrude biodiesel, purification process must be performed before using biodieselas a fuel that meets the EN 14214 standard. In the literature, variousprocesses are presented for purification of biodiesel however; dry and wetwashing methods are mostly recommended because of their higher efficiencies andeasier applicabilities. In this study, methyl esters (biodiesel) derived fromwaste frying oil (WFO) and sunflower oil we...

  13. Producción de biodiesel asistida por ultrasonidos

    OpenAIRE

    Sáez Bastante, Javier

    2015-01-01

    The continuous increase of fossil fuel prices has raised interest in searching for new forms of energy to power internal combustion engines. Among the most promising options is biodiesel. According to ASTM (American Society for Testing and Materials Standard) specifications, biodiesel is described as monoalkyl esters of long chain fatty acids derived from renewable lipids such as vegetable oils or animal fats used in ignition engines. The process leading to biodiesel is called ...

  14. Messiah College Biodiesel Fuel Generation Project Final Technical Report

    Energy Technology Data Exchange (ETDEWEB)

    Zummo, Michael M; Munson, J; Derr, A; Zemple, T; Bray, S; Studer, B; Miller, J; Beckler, J; Hahn, A; Martinez, P; Herndon, B; Lee, T; Newswanger, T; Wassall, M

    2012-03-30

    Many obvious and significant concerns arise when considering the concept of small-scale biodiesel production. Does the fuel produced meet the stringent requirements set by the commercial biodiesel industry? Is the process safe? How are small-scale producers collecting and transporting waste vegetable oil? How is waste from the biodiesel production process handled by small-scale producers? These concerns and many others were the focus of the research preformed in the Messiah College Biodiesel Fuel Generation project over the last three years. This project was a unique research program in which undergraduate engineering students at Messiah College set out to research the feasibility of small-biodiesel production for application on a campus of approximately 3000 students. This Department of Energy (DOE) funded research program developed out of almost a decade of small-scale biodiesel research and development work performed by students at Messiah College. Over the course of the last three years the research team focused on four key areas related to small-scale biodiesel production: Quality Testing and Assurance, Process and Processor Research, Process and Processor Development, and Community Education. The objectives for the Messiah College Biodiesel Fuel Generation Project included the following: 1. Preparing a laboratory facility for the development and optimization of processors and processes, ASTM quality assurance, and performance testing of biodiesel fuels. 2. Developing scalable processor and process designs suitable for ASTM certifiable small-scale biodiesel production, with the goals of cost reduction and increased quality. 3. Conduct research into biodiesel process improvement and cost optimization using various biodiesel feedstocks and production ingredients.

  15. A First Law Thermodynamic Analysis of Biodiesel Production from Soybean

    Science.gov (United States)

    Patzek, Tad W.

    2009-01-01

    A proper First Law energy balance of the soybean biodiesel cycle shows that the overall efficiency of biodiesel production is 0.18, i.e., only 1 in 5 parts of the solar energy sequestered as soya beans, plus the fossil energy inputs, becomes biodiesel. Soybean meal is produced with an overall energetic efficiency of 0.38, but it is not a fossil…

  16. Assessing the greenhouse gas emissions from poultry fat biodiesel

    DEFF Research Database (Denmark)

    Jørgensen, Andreas; Bikker, Paul; Herrmann, Ivan Tengbjerg

    2012-01-01

    original use. This implies that even though the use of biodiesel is assumed to displace petrochemical diesel, the ‘original user’ of the poultry fat will have to find a substitute, whose production leads to a greenhouse gas emissions comparable to what is saved through driving on poultry fat biodiesel...... rather than petrochemical diesel. Given that it is the production of the substitute for the poultry fat which mainly eliminates the benefit from using poultry fat for biodiesel, it is argued that whenever assessing the greenhouse gas emissions from biodiesel made from by-products (such as rendered animal...

  17. Biodiesel fuel costs and environmental issues when powering railway locomotives

    Energy Technology Data Exchange (ETDEWEB)

    Mirza, Abdul; Ziemer, Norbert; Tatara, Robert; Moraga, Reinaldo; Mirman, Clifford; Vohra, Promod

    2010-09-15

    Issues for adopting biodiesel fuel, instead of petrodiesel, to power railroad locomotives are engine performance and emissions, fuel infrastructure, and fuel cost. These are evaluated for B2 through B100 blends. Biodiesel's solvent action on fuel systems is addressed. With biodiesel, hydrocarbon, carbon monoxide, and particulate emissions are unchanged or reduced. Nitrogen oxides are elevated but it is believed that engine alterations can minimize these emissions. A Transportation Model, using data from a major railway, has demonstrated that refueling depots can be fully supplied with biodiesel at a pricing premium of 1% to 26%, depending on blend and geographical location.

  18. Spectroscopic Analysis of Structural Transformation in Biodiesel Oxidation

    Institute of Scientific and Technical Information of China (English)

    Wu Jiang; Chen Boshui; Fang Jianhua; Wang Jiu

    2013-01-01

    The oxidation behavior of three biodiesels of different origins, viz. rapesee d oil derived biodiesel, soybean oil derived biodiesel and waste oil based biodiesel, were tested on an oxidation tester. The chemical compositions of the biodie-sels were characterized by gas chromatography. Thereafter, the structural transformation of fatty acid methyl ester (FAME) of the biodiesels was analyzed by an infrared spectrometer and an ultraviolet absorption spectrometer. The results demon-strated that the oxidation behavior of biodiesels of different origins was closely related to the composition and distribution of FAMEs. Higher concentration of unsaturated FAME with multi-double bonds exhibited poorer oxidation resistance. Fur-thermore, cis-trans isomerization transformation occurred in the unsaturated FAME molecules and conjugated double-bond produced during the oxidation process of biodiesel. Greater cis-trans variations corresponded to deeper oxidation degree. The higher the content of unsaturated FAME with multi-double bonds in a biodiesel, the more the conjugated double bonds was formed.

  19. Impact of ternary blends of biodiesel on diesel engine performance

    Directory of Open Access Journals (Sweden)

    Prem Kumar

    2016-06-01

    Full Text Available The Pongamia and waste cooking oils are the main non edible oils for biodiesel production in India. The aim of the present work is to evaluate the fuel properties and investigate the impact on engine performance using Pongamia and waste cooking biodiesel and their ternary blend with diesel. The investigation of the fuel properties shows that Pongamia biodiesel and waste cooking biodiesel have poor cold flow property. This will lead to starting problem in the engine operation. To overcome this problem the ternary blends of diesel, waste cooking biodiesel and Pongamia biodiesel are prepared. The cloud and pour point for ternary blend, (WCB20:PB20:D60 were found to be 7 °C and 6.5 °C which are comparable to cloud and pour point of diesel 6 °C and 5 °C, respectively. The result of the test showed that brake specific fuel consumption for Pongamia biodiesel and waste cooking biodiesel is higher than ternary blend, (WCB20:PB20:D60 due to their lower energy content. The brake thermal efficiency of ternary blend and diesel is comparable while the Pongamia and waste cooking biodiesel have low efficiency. The result of investigation showed that ternary blend can be developed as alternate fuel.

  20. Biodiesel from soybean promotes cell proliferation in vitro.

    Science.gov (United States)

    Gioda, Adriana; Rodríguez-Cotto, Rosa I; Amaral, Beatriz Silva; Encarnación-Medina, Jarline; Ortiz-Martínez, Mario G; Jiménez-Vélez, Braulio D

    2016-08-01

    Toxicological responses of exhaust emissions of biodiesel are different due to variation in methods of generation and the tested biological models. A chemical profile was generated using ICP-MS and GC-MS for the biodiesel samples obtained in Brazil. A cytotoxicity assay and cytokine secretion experiments were evaluated in human bronchial epithelial cells (BEAS-2B). Cells were exposed to polar (acetone) and nonpolar (hexane) extracts from particles obtained from fuel exhaust: fossil diesel (B5), pure soybean biodiesel (B100), soybean biodiesel with additive (B100A) and ethanol additive (EtOH). Biodiesel and its additives exhibited higher organic and inorganic constituents on particles when compared to B5. The biodiesel extracts did not exert any toxic effect at concentrations 10, 25, 50, 75, and 100μgmL(-1). In fact quite the opposite, a cell proliferation effect induced by the B100 and B100A extracts is reported. A small increase in concentrations of inflammatory mediators (Interleukin-6, IL-6; and Interleukin-8, IL-8) in the medium of biodiesel-treated cells was observed, however, no statistical difference was found. An interesting finding indicates that the presence of metals in the nonpolar (hexane) fraction of biodiesel fuel (B100) represses cytokine release in lung cells. This was revealed by the use of the metal chelator. Results suggest that metals associated with biodiesel's organic constituents might play a significant role in molecular mechanisms associated to cellular proliferation and immune responses.

  1. Biodiesel production from waste frying oils and its quality control.

    Science.gov (United States)

    Sabudak, T; Yildiz, M

    2010-05-01

    The use of biodiesel as fuel from alternative sources has increased considerably over recent years, affording numerous environmental benefits. Biodiesel an alternative fuel for diesel engines is produced from renewable sources such as vegetable oils or animal fats. However, the high costs implicated in marketing biodiesel constitute a major obstacle. To this regard therefore, the use of waste frying oils (WFO) should produce a marked reduction in the cost of biodiesel due to the ready availability of WFO at a relatively low price. In the present study waste frying oils collected from several McDonald's restaurants in Istanbul, were used to produce biodiesel. Biodiesel from WFO was prepared by means of three different transesterification processes: a one-step base-catalyzed, a two-step base-catalyzed and a two-step acid-catalyzed transesterification followed by base transesterification. No detailed previous studies providing information for a two-step acid-catalyzed transesterification followed by a base (CH(3)ONa) transesterification are present in literature. Each reaction was allowed to take place with and without tetrahydrofuran added as a co-solvent. Following production, three different procedures; washing with distilled water, dry wash with magnesol and using ion-exchange resin were applied to purify biodiesel and the best outcome determined. The biodiesel obtained to verify compliance with the European Standard 14214 (EN 14214), which also corresponds to Turkish Biodiesel Standards.

  2. Purification of biodiesel by choline chloride based deep eutectic solvent

    Science.gov (United States)

    Niawanti, Helda; Zullaikah, Siti; Rachimoellah, M.

    2017-05-01

    Purification is a crucial step in biodiesel production to meet the biodiesel standard. This study purified biodiesel using choline chloride based deep eutectic solvent (DES). DES was used to reduce unreacted oil and unsaponifiable matter in rice bran oil based biodiesel. The objective of this work was to study the effect of extraction time using DES on the content and yield of fatty acid methyl ester (FAME). Rice bran used in this work contains 16.49 % of oil with initial free fatty acids (FFA) of 44.75 %. Acid catalyzed methanolysis was employed to convert rice bran oil (RBO) into biodiesel under following operation conditions: T = 60 °C, t = 8 h, molar ratio of oil to methanol = 1/10, H2SO4 = 1% w/w of oil. Rice bran oil based biodiesel obtained contain 89.05 % of FAME with very low FFA content (0.05 %). DES was made from a mixture of choline chloride and ethylene glycol with molar ratio of 1/2. Molar ratio of crude biodiesel to DES were 1/2 and 1/4. Extraction time was varied from 15 minutes to 240 minutes at 30 °C. The highest FAME content was obtained after purification for 240 min. at molar ratio crude biodiesel to DES 1/4 was 96.60 %. This work shows that DES has potential to purify biodiesel from non-edible raw material, such as RBO.

  3. Utilization of biodiesel alcohol blends in a compression ignition engine

    Energy Technology Data Exchange (ETDEWEB)

    Yilmaz, Nadir; Sanchez, Tomas M. [Department of Mechanical Engineering, New Mexico Institute of Mining and Technology (United States)], e-mail: nadir@nmt.edu, email: tsanchez@omicron.net

    2011-07-01

    There has been a recent revival of interest in the use of ethanol-diesel and methanol-diesel fuel blends in vehicles as a way to reduce vehicle emissions. This article presents combustion tests and comparisons of standard diesel, neat biodiesel, biodiesel (85%)-methanol (15%), and biodiesel (85%)-ethanol (15%) fuels in a diesel engine. Experiments were carried out using a two-cylinder, 4-cycle, direct injected, water-cooled diesel engine as a function of five loads between no-load and full-load operating conditions at constant engine speed. The performance and emission characteristics of the engine fuelled with biodiesel-ethanol and biodiesel-methanol blends are compared to those of obtained using neat biodiesel and standard diesel fuel as the baseline fuels. The ethanol-biodiesel blends were found to be more effective than methanol-biodiesel for emission reduction and overall engine performance. It was also found that while biodiesel-alcohols reduce nitrogen monoxide emissions, they also increase carbon monoxide and hydrocarbons emissions at below 70% loads unless additional treatments are used, such as preheating intake air. Exhaust temperatures showed similar behavior for all of the fuels, with no significant difference being found.

  4. PRELIMINARY DESIGN OF OSCILLATORY FLOW BIODIESEL REACTOR FOR CONTINUOUS BIODIESEL PRODUCTION FROM JATROPHA TRIGLYCERIDES

    Directory of Open Access Journals (Sweden)

    AZHARI T. I. MOHD. GHAZI

    2008-08-01

    Full Text Available The concept of a continuous process in producing biodiesel from jatropha oil by using an Oscillatory Flow Biodiesel Reactor (OFBR is discussed in this paper. It has been recognized that the batch stirred reactor is a primary mode used in the synthesis of biodiesel. However, pulsatile flow has been extensively researcehed and the fundamental principles have been successfully developed upon which its hydrodynamics are based. Oscillatory flow biodiesel reactor offers precise control of mixing by means of the baffle geometry and pulsation which facilitates to continuous operation, giving plug flow residence time distribution with high turbulence and enhanced mass and heat transfer. In conjunction with the concept of reactor design, parameters such as reactor dimensions, the hydrodynamic studies and physical properties of reactants must be considered prior to the design work initiated recently. The OFBR reactor design involves the use of simulation software, ASPEN PLUS and the reactor design fundamentals. Following this, the design parameters shall be applied in fabricating the OFBR for laboratory scale biodiesel production.

  5. Study about the particularities of biodiesel in Brazil; Estudo sobre as particularidades do biodiesel no Brasil

    Energy Technology Data Exchange (ETDEWEB)

    Santos, Marcia Franca Ribeiro Fernandes dos [Instituto Brasileiro de Geografia e Estatistica (IBGE), Brasilia, DF (Brazil); Peixoto, Jose Antonio Assuncao; Souza, Cristina Gomes de [Centro Federal de Educacao Tecnologica Celso Suckow da Fonseca (CEFET/RJ), Rio de Janeiro, RJ (Brazil)

    2008-07-01

    The environmental concern associated with the impending shortage of oil, which is pressing to raise the price of the barrel, has forced governments and society to seek alternatives that will replace the use of fossil fuels. The biodiesel, in particular, has been set up as an alternative energy by it of fuel come from renewable sources, and less polluting the environment. In this context, the objective of this article is to present some features of the production of biodiesel in Brazil, identifying the characteristics of the main oil used, as well as regional motivations for the use of biodiesel in Brazil. The methodology adopted in this study was exploratory in nature based on a literature search and documentary from a survey of information available in literature. The main results, the article points out that: unlike alcohol, which is in sugar cane their ideal raw material, biodiesel is still in a stage of intensive research and development in order to identify the most appropriate its oil production - with emphasis on soybean and castor bean, and the motivations for regional use of biodiesel are different for the Brazilian regions. The study aims to contribute to the discussion on the subject, emphasizing that technological research should be directed taking into consideration the conditions and needs of Brazil. (author)

  6. 2 Material e Métodos

    African Journals Online (AJOL)

    Mariana

    2016-09-14

    Sep 14, 2016 ... Jatropha curcas L. oil has been shown to be suitable for the production of biodiesel. However, this ... agro-morphological and chemical properties reported in ..... of almond (Ramesh et al., 2006) and J. curcas (Fu et al.,. 2015) ...

  7. Biodiesel Reactor Design with Glycerol Separation to Increase Biodiesel Production Yield

    Directory of Open Access Journals (Sweden)

    Budy Rahmat

    2013-09-01

    Full Text Available The study consisted of reactor design used for transesterification process, effect of glycerol separation ontransesterification reaction, determination of biodiesel quality, and mass balance analysis. The reactor was designed byintegrating circulated pump/stirrer, static mixer, and sprayer that intensify the reaction in the outer tank reactor. The objective was to reduce the use of methanol in excess and to shorten the processing time. The results showed that thereactor that applied the glycerol separation was able to compensate for the decreased use of the reactant methanol from 6:1 to 5:1 molar ratio, and changed the mass balance in the product, including: (i the increase of biodiesel productionfrom 42.37% to 49.34%, and (ii the reduction of methanol in excess from 42.37% to 32.89%. The results suggested that the efficiency of biodiesel production could be increased with the glycerol separation engineering.

  8. Alcohol biodiesel from frying oil residues; Biodiesel etilico a partir de oleo de fritura residual

    Energy Technology Data Exchange (ETDEWEB)

    Festa, Brunna Simoes; Marques, Luiz Guilherme da Costa [Universidade Federal do Rio de Janeiro (IVIG/COPPE/UFRJ), RJ (Brazil). Coordenacao dos Programas de Pos-Graduacao de Engenharia. Inst. Virtual Internacional de Mudancas Globais], E-mail: lguilherme@ivig.coppe.ufrj.br

    2010-07-01

    This paper describes the reaction optimization and production of biodiesel through the use of frying residual oil made available by the restaurant placed at the PETROBRAS Research Center (CENPES-RJ), using ethanol, so that to permit the production of sustainable bio diesel. The environmental gains obtained by the utilization of residual oil, avoiding that this oil be released in the nature, and the economic gains coming from the generation and utilization of ethanol allowing the production of biodiesel be an viable alternative. The obtained results during laboratory tests shown that biodiesel produced from the transesterification in alkaline medium, of the frying residual oil collected presented a reaction yield of approximately 80% considering in mass.

  9. Castor oil biodiesel: an economic evaluation; Biodiesel de mamona: uma avaliacao economica

    Energy Technology Data Exchange (ETDEWEB)

    Pires, Monica de Moura; Alves, Jaenes Miranda; Almeida Neto, Jose Adolfo de; Almeida, Cezar Menezes; Sousa, Geovania Silva de; Cruz, Rosenira Serpa da; Monteiro, Renata; Lopes, Beatriz Sampaio; Robra, Sabine [Universidade Estadual de Santa Cruz, Ilheus, BA (Brazil). Grupo Bioenergia e Meio Ambiente]. E-mails: mpires@uesc.br; jaenes@uesc.br; jalmeida@uesc.br; roserpa@uesc.br

    2004-07-01

    The production cost of castor oil biodiesel by methyl way and its economic viability, using as reference the production cost data of castor oil and the implantation of the pilot plant at UESC - state university of Santa Cruz, Bahia State, Brazil was determined. From this information, it was seen that the estimated price of castor oil biodiesel is close to the diesel price in the Itabuna market, Bahia state, Brazil. The indicators show economic viability of the mini-power plant installation. Such information are preliminary estimative for the market and can be modified as function of changes in the main factors used to have the production costs, as well as the sectorial policies that drives the activity as much in levels of raw material production as in biodiesel.

  10. Landfill gas, canola, and biodiesel. Working towards a sustainable system [Snohomish County Biodiesel Project

    Energy Technology Data Exchange (ETDEWEB)

    Chang, Terrill; Carveth, Deanna

    2010-02-01

    Snohomish County in western Washington State began converting its vehicle fleet to use a blend of biodiesel and petroleum diesel in 2005. As prices for biodiesel rose due to increased demand for this cleaner-burning fuel, Snohomish County looked to its farmers to grow this fuel locally. Suitable seed crops that can be crushed to extract oil for use as biodiesel feedstock include canola, mustard, and camelina. The residue, or mash, has high value as an animal feed. County farmers began with 52 acres of canola and mustard crops in 2006, increasing to 250 acres and 356 tons in 2008. In 2009, this number decreased to about 150 acres and 300 tons due to increased price for mustard seed.

  11. Production of Biodiesel from Chicken Frying Oil

    Directory of Open Access Journals (Sweden)

    Emaad T. Bakir

    2011-12-01

    Full Text Available Chicken fried oil was converted into different biodiesels through single step transesterification and two step transesterification, namely acid-base and base–base catalyzed transesterification. Hydrochloric acid and potassium hydroxide with methanol were used for this purpose. The results showed that two step base catalyzed transesterification was better compared to other methods. It resulted in higher yield and better fuel properties. Transesterification of fried chicken oil was monitored by TLC technique and compared with that of the parent oil. Fuel properties of the products have been measured and found markedly enhanced compared to those of the parent oil. Also, the values satisfied the standard limits according to the ASTM standards. Blending of the better biodiesel sample with petro diesel was made using three volume percentages (10, 30 and 50% v/v. The results disclosed that blending had slight effect on the original properties of petro diesel.

  12. Biodiesel: uma energia alternativa e verde

    Directory of Open Access Journals (Sweden)

    Milena Carvalho Teixeira

    2010-12-01

    Full Text Available O presente texto busca expor a importância do uso de energias alternativas. O biodiesel é apontado como uma das soluções para o esgotamento do petróleo e seus derivados e para o problema do aquecimento global, e o Brasil, por apresentar biodiversidade e forte economia agrícola, permitiu que o Governo Federal criasse o Programa Nacional de Produção e Uso de Biodiesel (PNPB com chances de sucesso. O programa explora várias fontes energéticas, de culturas temporárias e perenes ao uso do óleo residual, além de trazer benefícios ao desenvolvimento do país, gerando emprego e renda, e, principalmente, redução nas emissões de gás carbônico.

  13. Fremtidens Biodiesel: Kom fedtaffald i tanken!

    DEFF Research Database (Denmark)

    Madsen, Anders Theilgaard; Taarning, Esben; Christensen, Claus Hviid

    2009-01-01

    Mange tror måske, at det er svært for menigmand at lave biobrændstof. Det er faktisk forkert, fordi biodiesel nemt kan laves af kemikalier, der er ret almindelige i laboratorier og hos købmanden og materialisten. Det kræver blot en såkaldt om-estring af planteolie eller fedt med methanol, samt...

  14. Biodiesel Projects Helpful to Ease Energy Shortage

    Institute of Scientific and Technical Information of China (English)

    2008-01-01

    @@ Nearly 7,000 hectares of biodiesel forest will take shape in the northern province of Hebei in 2008, part of a national campaign to fuel the fast growing economy in a green way. In no more than five years, the Pistacia chinensis Bunge, whose seeds have an oil content of up to 40 percent, will yield five tons of fruit and contribute about two tons of high-quality biological diesel oil,according to the provincial forestry administration.

  15. Fremtidens Biodiesel: Kom fedtaffald i tanken!

    DEFF Research Database (Denmark)

    Madsen, Anders Theilgaard; Taarning, Esben; Christensen, Claus Hviid

    2009-01-01

    Mange tror måske, at det er svært for menigmand at lave biobrændstof. Det er faktisk forkert, fordi biodiesel nemt kan laves af kemikalier, der er ret almindelige i laboratorier og hos købmanden og materialisten. Det kræver blot en såkaldt om-estring af planteolie eller fedt med methanol, samt...

  16. Production of Biodiesel from Chicken Frying Oil

    OpenAIRE

    Emaad T. Bakir; Abdelrahman B. Fadhil

    2011-01-01

    Chicken fried oil was converted into different biodiesels through single step transesterification and two step transesterification, namely acid-base and base–base catalyzed transesterification. Hydrochloric acid and potassium hydroxide with methanol were used for this purpose. The results showed that two step base catalyzed transesterification was better compared to other methods. It resulted in higher yield and better fuel properties. Transesterification of fried chicken oil was monitored by...

  17. Biodiesel production from Jatropha curcas oil

    Energy Technology Data Exchange (ETDEWEB)

    Jain, Siddharth; Sharma, M.P. [Alternate Hydro Energy Centre, Indian Institute of Technology Roorkee, Roorkee, Uttarakhand 247667 (India)

    2010-12-15

    In view of the fast depletion of fossil fuel, the search for alternative fuels has become inevitable, looking at huge demand of diesel for transportation sector, captive power generation and agricultural sector, the biodiesel is being viewed a substitute of diesel. The vegetable oils, fats, grease are the source of feedstocks for the production of biodiesel. Significant work has been reported on the kinetics of transesterification of edible vegetable oils but little work is reported on non-edible oils. Out of various non-edible oil resources, Jatropha curcas oil (JCO) is considered as future feedstocks for biodiesel production in India and limited work is reported on the kinetics of transesterification of high FFA containing oil. The present study reports a review of kinetics of biodiesel production. The paper also reveals the results of kinetics study of two-step acid-base catalyzed transesterification process carried out at pre-determined optimum temperature of 65 and 50 C for esterification and transesterification process, respectively, under the optimum condition of methanol to oil ratio of 3:7 (v/v), catalyst concentration 1% (w/w) for H{sub 2}SO{sub 4} and NaOH and 400 rpm of stirring. The yield of methyl ester (ME) has been used to study the effect of different parameters. The maximum yield of 21.2% of ME during esterification and 90.1% from transesterification of pretreated JCO has been obtained. This is the first study of its kind dealing with simplified kinetics of two-step acid-base catalyzed transesterification process carried at optimum temperature of both the steps which took about 6 h for complete conversion of TG to ME. (author)

  18. Use of waste materials for biodiesel production

    Energy Technology Data Exchange (ETDEWEB)

    Vitiello, R.; Tesser, R.; Di Serio, M.; Santacesaria, E. [Napoli Univ. (Italy). Dipt. di Scienze Chimiche; Buonerba, A.; Grassi, A. [Salerno Univ. (Italy). Dipt. di Chimica e Biologia

    2012-07-01

    Waste raw materials obtained by several sources of both food and agro industries could be considered for biofuel production. In the last years, this topic has growing in interest. At this purpose, our research, has been focused on the development of new technologies to obtain biodiesel from the mentioned wastes feedstock. In particular from oleins, that are mixtures of free fatty acids (FFAs) and triglycerides. Therefore, we are studying the way to produce biodiesel in two steps: an esterification reaction of FFAs with glycerol and a transesterification with methanol of the whole mixture. The esterification of FFAs with glycerol has the advantage of using a relatively high temperature favouring the stripping of water formed during the esterification. In this way esterification equilibrium is shifted to the right. Then, the mixture of mono-, di- and triglycerides, obtained by esterification with glycerol, can be submitted to transesterification with methanol, in the usual way, to produce biodiesel Catalysts promoting esterification, normally, are mineral acids or heterogeneous Bronsted acid catalysts. At this purpose, the classical sulphonated polystyrene acid resins cannot be used at temperature greater than 120 C. Therefore, a new class of sulfonated polymers, with enhanced temperature resistance, has been developed by selective and quantitative sulfonation of olefinic butadiene units in multiblock copolymers syndiotactic polystyrene-co-1,4-cis-polybutadiene. This catalytic system has been successfully tested in the above mentioned esterification reaction and compared to classic commercial strong acid catalysts like Amberlyst {sup registered}, Nafion {sup registered} and sulfuric acid. (orig.)

  19. Designing a new MSA biodiesel technology MBT

    Energy Technology Data Exchange (ETDEWEB)

    Ingendoh, Axel [Lanxess Deutschland GmbH, Leverkusen (Germany)

    2013-06-01

    The new MBT Technology was developed at Lanxess and eliminates all these constraints of the alkaline transesterification technology. The acidic transesterification uses Methane sulfonic acid catalysis. Due to the acidic nature of the MBT process formation of soaps is made impossible, sterylglycosides are completely cleaved into soluble product, free fatty acids up to 10% are tolerated, higher alcohols like ethanol and butanol do react equally well and waxes are completely converted into biodiesel. Phase separation of biodiesel and glycerol is dramatically enhanced due to the lack of methanol in this stage. Surprisingly, even water up to 5% does not affect the overall yield and product quality of the MBT Process. Cost savings in biodiesel production may be achieved by using low quality oils with high free fatty acids, use of algae oil, and cost savings at oil raffination due to no need of drying. The Technology is lean and requires less apparatus and less operational steps. The catalyst may be completely recycled by recovering it from the glycerol phase using Lewatit ion exchange technology of Lanxess. (orig.)

  20. Refining of biodiesel by ceramic membrane separation

    Energy Technology Data Exchange (ETDEWEB)

    Wang, Yong; Ou, Shiyi; Tan, Yanlai; Tang, Shuze [Department of Food Science and Engineering, Jinan University, Guangzhou 510632 (China); Wang, Xingguo; Liu, Yuanfa [School of Food Science and Technology, Jiangnan University, Wuxi 214112 (China)

    2009-03-15

    A ceramic membrane separation process for biodiesel refining was developed to reduce the considerable usage of water needed in the conventional water washing process. Crude biodiesel produced by refined palm oil was micro-filtered by ceramic membranes of the pore size of 0.6, 0.2 and 0.1 {mu}m to remove the residual soap and free glycerol, at the transmembrane pressure of 0.15 MPa and temperature of 60 C. The flux through membrane maintained at 300 L m{sup -} {sup 2} h{sup -} {sup 1} when the volumetric concentrated ratio reached 4. The content of potassium, sodium, calcium and magnesium in the whole permeate was 1.40, 1.78, 0.81 and 0.20 mg/kg respectively, as determined by inductively coupled plasma-atomic emission spectroscopy. These values are lower than the EN 14538 specifications. The residual free glycerol in the permeate was estimated by water extraction, its value was 0.0108 wt.%. This ceramic membrane technology was a potential environmental process for the refining of biodiesel. (author)

  1. Kinetic Model of Biodiesel Processing Using Ultrasound

    Directory of Open Access Journals (Sweden)

    Bambang Susilo

    2009-04-01

    Full Text Available Ultrasound is predicted to be able to accelerate the chemical reaction, to increase the conversion of plant oil into biodiesel, and to decrease the need of catalyst and energy input. The application of ultrasound for processing of biodiesel and the mathematical model were conducted in this research. The result of the experiments showed that the ultrasound increased reaction rate and the conversion of palm oil into biodiesel up to 100%. It was better than the process with mechanical stirrer that the conversion was just 96%. The duration to complete the process using ultrasound was 1 minute. It was 30 to 120 times faster than that with mechanical stirrer. Ultrasound transforms mechanical energy into inner energy of the fluids and causes an increasing of temperature. Simultaneously, natural mixing process undergo because of acoustic circulation. Simulation with experiment data showed that the acceleration of transesterification with ultrasound was affected not only by natural mixing and increasing temperature. The cavitation, surface tension of micro bubble, and hot spot accelerate chemical reaction. In fact, transesterification of palm oil with ultrasound still needs catalyst. It needs only about 20% of catalyst compared to the process with mechanical stirrer.

  2. Sustentabilidade e Gestão de Empreendimentos Hoteleiros: Analisando Hotéis de Campo Grande, Mato Grosso do Sul

    Directory of Open Access Journals (Sweden)

    Maria Claudia Mancuelho Malta

    2015-10-01

    Full Text Available O presente artigo propõe-se a analisar a gestão de empreendimentos hoteleiros sediados na cidade de Campo Grande, MS, a partir dos princípios da sustentabilidade, nas suas dimensões econômica, social e ambiental. Para tanto, foi proposta uma pesquisa exploratória, de abordagem qualitativa, em forma de estudo de caso, com entrevistas semiestruturadas aos gerentes de seis hotéis do município em análise. Constatou-se que a sustentabilidade nos hotéis investigados encontra-se em estado inicial, sobretudo por conta da falta de informações acerca de seus aspectos constitutivos. Ademais, os maiores níveis de ações sustentáveis são evidenciados em hotéis pertencentes a grandes redes. Logo, sugere-se o acirramento da difusão do conceito; bem como o efetivo incentivo para sua implantação como método de gestão organizacional – contribuindo no estímulo ao estabelecimento de relações harmoniosas entre as diversas atividades econômicas, o ambiente, a cultura e as especificidades socioespaciais dos territórios. Palavras-chave: Turismo. Empreendimentos hoteleiros. Sustentabilidade. Campo Grande, MS. Sustainability Principles and Hotel Enterprises Management: Analyzing Hotels in Campo Grande, Mato Grosso do Sul, Brazil - This paper proposes to analyze hotels management in Campo Grande, MS, considering the principles of sustainability in its economic, social and environmental dimensions. The research proposed presents an exploratory and qualitative approach, in the form of case study, with semi-structured interviews to managers of six hotels in the city in question. The interviews were transcribed and analyzed through content analysis. It was found that sustainability in the hotels is still in an initial state, mainly due to the lack of information about its constituent aspects. Moreover, it was noted that higher levels of sustainable actions are observed in hotels belonging to hotel networks. Thus, it is suggested the

  3. Turismo accesible, turismo para todos

    OpenAIRE

    Núñez Bello, Miguel

    2012-01-01

    El sector turístico representa el 10,2 por ciento del Producto Interior Bruto (PIB) y el 11,5 por ciento del empleo en España. La actividad turística y sus grandes beneficios han posibilitado que nuestro país sea destino y referencia en este sector. ¿Lo es también en turismo accesible? El turismo para todos no puede ser excluyente bajo ninguna razón o circunstancia. Amparado en el derecho y la Constitución, la sensibilidad que se percibe no puede quedar solo en buenas palabras sino en actuaci...

  4. 10 CFR 490.707 - Increasing the qualifying volume of the biodiesel component.

    Science.gov (United States)

    2010-01-01

    ... 10 Energy 3 2010-01-01 2010-01-01 false Increasing the qualifying volume of the biodiesel... TRANSPORTATION PROGRAM Biodiesel Fuel Use Credit § 490.707 Increasing the qualifying volume of the biodiesel component. DOE may increase the qualifying volume of the biodiesel component of fuel for purposes...

  5. 10 CFR 490.706 - Procedure for modifying the biodiesel component percentage.

    Science.gov (United States)

    2010-01-01

    ... 10 Energy 3 2010-01-01 2010-01-01 false Procedure for modifying the biodiesel component percentage... TRANSPORTATION PROGRAM Biodiesel Fuel Use Credit § 490.706 Procedure for modifying the biodiesel component percentage. (a) DOE may, by rule, lower the 20 percent biodiesel volume requirement of this subpart...

  6. Water Consumption Estimates of the Biodiesel Process in the US

    Science.gov (United States)

    As a renewable alternative to petroleum diesel, biodiesel has been widely used in the US and around the world. Along with the rapid development of the biodiesel industry, its potential impact on water resources should also be evaluated. This study investigates water consumption f...

  7. Partitioning Behavior of Petrodiesel/Biodiesel Blends in Water

    Science.gov (United States)

    The partitioning behavior of six petrodiesel/soybean-biodiesel blends (B0, B20, B40, B60, B80, and B100, where B100 is 100% unblended biodiesel) in water was investigated at various oil loads by the 10-fold dilution method. Five fatty acid methyl esters (FAMEs), C10 - C20 n

  8. Moringa oleifera oil: Studies of characterization and biodiesel production

    Energy Technology Data Exchange (ETDEWEB)

    da Silva, Jhosianna P.V.; Serra, Tatiana M.; Meneghetti, Simoni M.P. [Universidade Federal de Alagoas, Instituto de Quimica e Biotecnologia, Laboratorio de Oleoquimica, Maceio, Alagoas, CEP 57072-970 (Brazil); Gossmann, Marcelo; Wolf, Carlos R.; Meneghetti, Mario R. [Universidade Luterana do Brasil, Instituto de Quimica, Canoas, Rio Grande do Sul, CEP 92420-280 (Brazil)

    2010-10-15

    This work describes studies with the seeds of Moringa oleifera (MO), obtained in the northeast of Brazil, evaluating some properties and chemical composition of the oil, as well any potential application in biodiesel production. The studied physicochemical properties of the MO biodiesel, suggest that this material may be used as fuel in diesel engines, mainly as a mixture to petrodiesel. (author)

  9. Biodiesel production--current state of the art and challenges.

    Science.gov (United States)

    Vasudevan, Palligarnai T; Briggs, Michael

    2008-05-01

    Biodiesel is a clean-burning fuel produced from grease, vegetable oils, or animal fats. Biodiesel is produced by transesterification of oils with short-chain alcohols or by the esterification of fatty acids. The transesterification reaction consists of transforming triglycerides into fatty acid alkyl esters, in the presence of an alcohol, such as methanol or ethanol, and a catalyst, such as an alkali or acid, with glycerol as a byproduct. Because of diminishing petroleum reserves and the deleterious environmental consequences of exhaust gases from petroleum diesel, biodiesel has attracted attention during the past few years as a renewable and environmentally friendly fuel. Since biodiesel is made entirely from vegetable oil or animal fats, it is renewable and biodegradable. The majority of biodiesel today is produced by alkali-catalyzed transesterification with methanol, which results in a relatively short reaction time. However, the vegetable oil and alcohol must be substantially anhydrous and have a low free fatty acid content, because the presence of water or free fatty acid or both promotes soap formation. In this article, we examine different biodiesel sources (edible and nonedible), virgin oil versus waste oil, algae-based biodiesel that is gaining increasing importance, role of different catalysts including enzyme catalysts, and the current state-of-the-art in biodiesel production.

  10. Methyl esters (biodiesel) from Pachyrhizus erosus seed oil

    Science.gov (United States)

    The search for additional or alternative feedstocks is one of the major areas of interest regarding biodiesel. In this paper, the fuel properties of Pachyrhizus erosus (commonly known as yam bean or Mexican potato or jicama) seed oil methyl esters were investigated by methods prescribed in biodiesel...

  11. Assessment of Physicochemical Properties of Biodiesel from African ...

    African Journals Online (AJOL)

    The oil was transesterified using alkali hydrolysis to biodiesel. ... point (96 oC), cloud point (+9oC), sulphur content (0.03 wt %), and free glycerol (0.54%). ... followed by sieving to get fine kernel-rich powder and ... require 0.30-1.5% of the oil weight as base catalyst. ... for treating triglycerides to produce (biodiesel) fatty acid.

  12. Pembuatan Biodiesel Secara Batch Dengan Memanfaatkan Gelombang Mikro (Microwave

    Directory of Open Access Journals (Sweden)

    Rhesa Purnama Putra

    2012-09-01

    Full Text Available Biodiesel merupakan bioenergi atau bahan bakar nabati yang dibuat dari minyak nabati, baik minyak baru atau bekas penggorengan melalui proses transesterifikasi, esterifikasi, atau proses esterifikasi-transesterifikasi. Tujuan penelitian ini adalah untuk membuat biodiesel dari minyak goreng secara batch melalui proses transesterifikasi dengan menggunakan radiasi mikrowave serta mempelajari berapa daya dan waktu optimal yang diperlukan untuk proses pembuatan biodiesel dengan radiasi microwave dengan katalis CaO, H2SO4, dan tanpa katalis. Dalam penelitian ini digunakan tiga variabel, yaitu daya (Watt;100,200,300,400, waktu (menit; 5,10,15,20 dan jenis katalis; CaO, H2SO4, dan tanpa katalis. Pada tahap persiapan menghitung volume minyak dan metanol yang akan dicampur. Kemudian mencampurnya didalam reaktor. Lalu mendinginkan campuran hingga terbentuk dua lapisan atas dan bawah dilanjutkan dengan melakukan pemisahan lapisan atas (biodiesel dari lapisan bawah (gliserol. Adapun pada tahap analisis, biodiesel hasil reaksi transesterfikasi dianalisa untuk mendapatkan data yield metil ester, densitas, viskositas, dan flash point. Dari penelitian diketahui bahwa hasil yang didapatkan masih belum dapat memenuhi standar biodiesel yang ditetapkan. Katalis CaO dapat memberikan hasil yang lebih baik dibandingkan dengan katalis H2SO4 dan tanpa katalis. Kondisi operasi untuk menghasilkan kualitas yield biodiesel terbaik yaitu pada daya 200 Watt selama 20 menit dengan menggunakan katalis CaO. Yield biodiesel terbesar didapatkan yield sebesar 60,11 %.

  13. Biodiesel by catalytic reactive distillation powered by metal oxides

    NARCIS (Netherlands)

    Kiss, A.A.; Dimian, A.C.; Rothenberg, G.

    2008-01-01

    The properties and use of biodiesel as a renewable fuel as well as the problems associated with its current production processes are outlined. A novel sustainable esterification process based on catalytic reactive distillation is proposed. The pros and cons of manufacturing biodiesel via fatty acid

  14. An Investigation of Biodiesel Production from Wastes of Seafood Restaurants

    Directory of Open Access Journals (Sweden)

    Nour Sh. El-Gendy

    2014-01-01

    Full Text Available This work illustrates a comparative study on the applicability of the basic heterogeneous calcium oxide catalyst prepared from waste mollusks and crabs shells (MS and CS, resp. in the transesterification of waste cooking oil collected from seafood restaurants with methanol for production of biodiesel. Response surface methodology RSM based on D-optimal deign of experiments was employed to study the significance and interactive effect of methanol to oil M : O molar ratio, catalyst concentration, reaction time, and mixing rate on biodiesel yield. Second-order quadratic model equations were obtained describing the interrelationships between dependent and independent variables to maximize the response variable (biodiesel yield and the validity of the predicted models were confirmed. The activity of the produced green catalysts was better than that of chemical CaO and immobilized enzyme Novozym 435. Fuel properties of the produced biodiesel were measured and compared with those of Egyptian petro-diesel and international biodiesel standards. The biodiesel produced using MS-CaO recorded higher quality than that produced using CS-CaO. The overall biodiesel characteristics were acceptable, encouraging application of CaO prepared from waste MS and CS for production of biodiesel as an efficient, environmentally friendly, sustainable, and low cost heterogeneous catalyst.

  15. Lipids from yeasts and fungi: Tomorrow's source of Biodiesel?

    NARCIS (Netherlands)

    Meeuwse, P.; Sanders, J.P.M.; Tramper, J.; Rinzema, A.

    2013-01-01

    In the search for new transport fuels from renewable resources, biodiesel from microbial lipids comes into view. We have evaluated the lipid yield and energy use of a process for production of biodiesel from agricultural waste using lipid-accumulating yeast and fungi. We included different

  16. Spectroscopic Analysis of Structural Transformation in Biodiesel Degradation

    Directory of Open Access Journals (Sweden)

    N. Saifuddin

    2014-09-01

    Full Text Available The vegetable oil, fats and their biodiesel suffer with the drawback of deterioration of its quality during long term storage unlike petroleum diesel. The oxidation and thermal stability of two biodiesels of different origins, viz. palm oil derived biodiesel and used cooking oil based biodiesel were analyzed. The structural transformation of Fatty Acid Methyl Ester (FAME of the biodiesels was analyzed by an infrared spectrometer and an ultraviolet absorption spectrometer. The infrared spectra of the samples were recorded by FTIR spectroscopy. The absorbance values of the spectrum bands were observed and it was determined that some of the chemical groups of oxidized oils caused changes in absorbance. The spectroscopic data of degraded biodiesel suggested oxidative polymerization. The results demonstrated that the oxidation behavior of biodiesels of different origins was closely related to the composition and distribution of FAMEs. Higher concentration of unsaturated FAME with multi-double bonds exhibited poorer oxidation resistance. In this study, in order to increase the stability of biodiesel, against oxidation process during the storage and distribution, different percentages (0.02, 0.05, 0.1 and 0.2% (w/v, respectively of caffeic acid, were added as natural antioxidants. The antioxidant effect increased with concentration up to an optimal level. Above the optimal level, the increase in antioxidant effect with its concentration was relatively small.

  17. Biodiesel: A fuel, a lubricant, and a solvent

    Science.gov (United States)

    Biodiesel is well-known as a biogenic alternative to conventional diesel fuel derived from petroleum. It is produced from feedstocks such as plant oils consisting largely of triacylglycerols through transesterification with an alcohol such as methanol. The properties of biodiesel are largely compet...

  18. Direct transesterification of spent coffee grounds for biodiesel production

    Science.gov (United States)

    Studies of spent coffee grounds (SCGs) as a potential biodiesel feedstock in recent years mostly started from solvent extraction to obtain coffee oil, and then converted it into coffee biodiesel in two steps, acid esterification followed by alkaline transesterification. This paper presents a direct ...

  19. Moringa Oleifera Oil: A Possible Source of Biodiesel

    Science.gov (United States)

    Biodiesel is an alternative to petroleum-based conventional diesel fuel and is defined as the mono-alkyl esters of vegetable oils and animal fats. Biodiesel has been prepared from numerous vegetable oils, such as canola (rapeseed), cottonseed, palm, peanut, soybean and sunflower oils as well as a v...

  20. Preparation of Biodiesel by Methanolysis of Crude Moringa Oleifera Oil

    Science.gov (United States)

    Biodiesel was prepared from the unconventional crude oil of Moringa oleifera by transesterification with methanol and alkali catalyst. Moringa oleifera oil is reported for the first time as potential feedstock for biodiesel. Moringa oleifera oil contains a high amount of oleic acid (>70%) with sat...

  1. The effect of economic variables over a biodiesel production plant

    Energy Technology Data Exchange (ETDEWEB)

    Marchetti, J.M., E-mail: jmarchetti@plapiqui.edu.ar [Planta Piloto de Ingenieria Quimica (UNS-CONICET), Camino La Carrindanga km 7, 8000 Bahia Blanca (Argentina)

    2011-09-15

    Highlights: {yields} Influence of the mayor economic parameters for biodiesel production. {yields} Variations of profitability of a biodiesel plant due to changes in the market scenarios. {yields} Comparison of economic indicators of a biodiesel production facility when market variables are modified. - Abstract: Biodiesel appears as one of the possible alternative renewable fuels to substitute diesel fuel derived from petroleum. Several researches have been done on the technical aspects of biodiesel production in an attempt to develop a better and cleaner alternative to the conventional process. Economic studies have been carried out to have a better understanding of the high costs and benefits of different technologies in the biodiesel industry. In this work it is studied the effect of the most important economic variables of a biodiesel production process over the general economy of a conventional plant which employs sodium methoxide as catalyst. It has been analyzed the effect of the oil price, the amount of free fatty acid, the biodiesel price, the cost of the glycerin, the effect due to the modification on the methanol price, the washing water price, and several others. Small variations on some of the major market variables would produce significant effects over the global economy of the plant, making it non profitable in some cases.

  2. Partitioning Behavior of Petrodiesel/Biodiesel Blends in Water

    Science.gov (United States)

    The partitioning behavior of six petrodiesel/soybean-biodiesel blends (B0, B20, B40, B60, B80, and B100, where B100 is 100% unblended biodiesel) in water was investigated at various oil loads by the 10-fold dilution method. Five fatty acid methyl esters (FAMEs), C10 - C20 n

  3. Study on Carbonyl Emissions of Diesel Engine Fueled with Biodiesel

    Directory of Open Access Journals (Sweden)

    Ruina Li

    2017-01-01

    Full Text Available Biodiesel is a kind of high-quality alternative fuel of diesel engine. In this study, biodiesel and biodiesel/diesel blend were used in a single cylinder diesel engine to study the carbonyl emissions. The result shows that carbonyl pollutants of biodiesel and biodiesel/diesel blend are mainly aldehyde and ketone compounds with 1–3 carbon atoms, and formaldehyde concentration is higher than 80% of the total carbonyl pollutants for biodiesel. The formaldehyde concentration peak is reduced with the increase of intake temperature (T, intake pressure (P, and exhaust gas recirculation (EGR ratio and increased with the increase of compression ratio (ε. When excess air coefficient (λ is lower than 1.7, the formaldehyde concentration is increased with the increase of excess air ratio. When λ is higher than 1.7, the formaldehyde concentration is reduced with the increase of excess air ratio. The dilution of air can reduce formaldehyde concentration in the premixed flame of diesel effectively; however, it has less effect on biodiesel. Among the fuel pretreatment measures of adding hydrogen, CO, and methane, the addition of hydrogen shows the best effect on reducing formaldehyde of biodiesel.

  4. Economic assessment of biodiesel production from waste frying oils.

    Science.gov (United States)

    Araujo, Victor Kraemer Wermelinger Sancho; Hamacher, Silvio; Scavarda, Luiz Felipe

    2010-06-01

    Waste frying oils (WFO) can be a good source for the production of biodiesel because this raw material is not part of the food chain, is low cost and can be used in a way that resolves environmental problems (i.e. WFO is no longer thrown into the sewage network). The goal of this article is to propose a method to evaluate the costs of biodiesel production from WFO to develop an economic assessment of this alternative. This method embraces a logistics perspective, as the cost of collection of oil from commercial producers and its delivery to biodiesel depots or plants can be relevant and is an issue that has been little explored in the academic literature. To determine the logistics cost, a mathematical programming model is proposed to solve the vehicle routing problem (VRP), which was applied in an important urban center in Brazil (Rio de Janeiro), a relevant and potential center for biodiesel production and consumption. Eighty-one biodiesel cost scenarios were compared with information on the commercialization of biodiesel in Brazil. The results obtained demonstrate the economic viability of biodiesel production from WFO in the urban center studied and the relevance of logistics in the total biodiesel production cost. (c) 2010 Elsevier Ltd. All rights reserved.

  5. Modeling the Crystallization Behavior of Biodiesel at Low Temperatures

    Science.gov (United States)

    The most common form of biodiesel is made by transesterification of vegetable oil or animal fat fatty acids with methanol (FAME). Biodiesel from feedstocks such as palm oil (PME), rapeseed oil (RME), soybean oil (SME) or used cooking oil (UCOME) is susceptible to performance issues during cold weat...

  6. Biodiesel by catalytic reactive distillation powered by metal oxides

    NARCIS (Netherlands)

    Kiss, A.A.; Dimian, A.C.; Rothenberg, G.

    2008-01-01

    The properties and use of biodiesel as a renewable fuel as well as the problems associated with its current production processes are outlined. A novel sustainable esterification process based on catalytic reactive distillation is proposed. The pros and cons of manufacturing biodiesel via fatty acid

  7. Water Consumption Estimates of the Biodiesel Process in the US

    Science.gov (United States)

    As a renewable alternative to petroleum diesel, biodiesel has been widely used in the US and around the world. Along with the rapid development of the biodiesel industry, its potential impact on water resources should also be evaluated. This study investigates water consumption f...

  8. Overview on the current trends in biodiesel production

    Energy Technology Data Exchange (ETDEWEB)

    Yusuf, N.N.A.N. [Department of Chemical and Process Engineering, Universiti Kebangsaan Malaysia, 43600 UKM Bangi, Selangor (Malaysia); Kamarudin, S.K., E-mail: ctie@eng.ukm.m [Department of Chemical and Process Engineering, Universiti Kebangsaan Malaysia, 43600 UKM Bangi, Selangor (Malaysia); Yaakub, Z. [Department of Chemical and Process Engineering, Universiti Kebangsaan Malaysia, 43600 UKM Bangi, Selangor (Malaysia)

    2011-07-15

    Research highlights: {yields} Various method for the production of biodiesel from vegetable oil were reviewed. {yields} Such as direct use and blending, microemulsion, pyrolysis and transesterification. {yields} The advantages and disadvantages of the different biodiesel-production methods are also discussed. {yields} Finally, the economics of biodiesel production was discussed using Malaysia as a case study. -- Abstract: The finite nature of fossil fuels necessitates consideration of alternative fuels from renewable sources. The term biofuel refers to liquid, gas and solid fuels predominantly produced from biomass. Biofuels include bioethanol, biomethanol, biodiesel and biohydrogen. Biodiesel, defined as the monoalkyl esters of vegetable oils or animal fats, is an attractive alternative fuel because it is environmentally friendly and can be synthesized from edible and non-edible oils. Here, we review the various methods for the production of biodiesel from vegetable oil, such as direct use and blending, microemulsion, pyrolysis and transesterification. The advantages and disadvantages of the different biodiesel-production methods are also discussed. Finally, we analyze the economics of biodiesel production using Malaysia as a case study.

  9. Progress and Challenges in Microalgal Biodiesel Production

    Science.gov (United States)

    Mallick, Nirupama; Bagchi, Sourav K.; Koley, Shankha; Singh, Akhilesh K.

    2016-01-01

    The last decade has witnessed a tremendous impetus on biofuel research due to the irreversible diminution of fossil fuel reserves for enormous demands of transportation vis-a-vis escalating emissions of green house gasses (GHGs) into the atmosphere. With an imperative need of CO2 reduction and considering the declining status of crude oil, governments in various countries have not only diverted substantial funds for biofuel projects but also have introduced incentives to vendors that produce biofuels. Currently, biodiesel production from microalgal biomass has drawn an immense importance with the potential to exclude high-quality agricultural land use and food safe-keeping issues. Moreover, microalgae can grow in seawater or wastewater and microalgal oil can exceed 50–60% (dry cell weight) as compared with some best agricultural oil crops of only 5–10% oil content. Globally, microalgae are the highest biomass producers and neutral lipid accumulators contending any other terrestrial oil crops. However, there remain many hurdles in each and every step, starting from strain selection and lipid accumulation/yield, algae mass cultivation followed by the downstream processes such as harvesting, drying, oil extraction, and biodiesel conversion (transesterification), and overall, the cost of production. Isolation and screening of oleaginous microalgae is one pivotal important upstream factor which should be addressed according to the need of freshwater or marine algae with a consideration that wild-type indigenous isolate can be the best suited for the laboratory to large scale exploitation. Nowadays, a large number of literature on microalgal biodiesel production are available, but none of those illustrate a detailed step-wise description with the pros and cons of the upstream and downstream processes of biodiesel production from microalgae. Specifically, harvesting and drying constitute more than 50% of the total production costs; however, there are quite a less

  10. Progress and Challenges in Microalgal Biodiesel Production.

    Science.gov (United States)

    Mallick, Nirupama; Bagchi, Sourav K; Koley, Shankha; Singh, Akhilesh K

    2016-01-01

    The last decade has witnessed a tremendous impetus on biofuel research due to the irreversible diminution of fossil fuel reserves for enormous demands of transportation vis-a-vis escalating emissions of green house gasses (GHGs) into the atmosphere. With an imperative need of CO2 reduction and considering the declining status of crude oil, governments in various countries have not only diverted substantial funds for biofuel projects but also have introduced incentives to vendors that produce biofuels. Currently, biodiesel production from microalgal biomass has drawn an immense importance with the potential to exclude high-quality agricultural land use and food safe-keeping issues. Moreover, microalgae can grow in seawater or wastewater and microalgal oil can exceed 50-60% (dry cell weight) as compared with some best agricultural oil crops of only 5-10% oil content. Globally, microalgae are the highest biomass producers and neutral lipid accumulators contending any other terrestrial oil crops. However, there remain many hurdles in each and every step, starting from strain selection and lipid accumulation/yield, algae mass cultivation followed by the downstream processes such as harvesting, drying, oil extraction, and biodiesel conversion (transesterification), and overall, the cost of production. Isolation and screening of oleaginous microalgae is one pivotal important upstream factor which should be addressed according to the need of freshwater or marine algae with a consideration that wild-type indigenous isolate can be the best suited for the laboratory to large scale exploitation. Nowadays, a large number of literature on microalgal biodiesel production are available, but none of those illustrate a detailed step-wise description with the pros and cons of the upstream and downstream processes of biodiesel production from microalgae. Specifically, harvesting and drying constitute more than 50% of the total production costs; however, there are quite a less number

  11. COSMOLOGIA, PAISAGEM, LUGAR E O MÉTODO FENOMENOLÓGICO: POSSÍVEIS REFLEXÕES EM UMA CIDADE IMPACTADA POR BARRAGEM

    Directory of Open Access Journals (Sweden)

    Jonas Carvalho e Silva

    2015-07-01

    Full Text Available O artigo tem por objetivo discutir os conceitos de cosmologia, paisagem, lugar e o método fenomenológico, analisando as transformações ocorridas na cidade de Porto Nacional - TO com a criação da UHE Luiz Eduardo Magalhães, e o modo como a população passou a interagir com essa nova paisagem. Mesmo não sendo de campo o trabalho, as afirmações apresentadas partiram das concepções buscadas na teoria, aplicadas a análise de duas fotos retratando a paisagem do rio que banha o município de Porto Nacional, buscando a sensibilização analítica para os processos de ressignificação do lugar a partir da paisagem apresentada

  12. Uso da cromatografia gasosa bidimensional abrangente (GC×GC na caracterização de misturas biodiesel/diesel: aplicação ao biodiesel de sebo bovino

    Directory of Open Access Journals (Sweden)

    Maria Silvana A Moraes

    2011-01-01

    Full Text Available The growth of biodiesel market and the implementation of regulations related to biodiesel production and biodiesel/diesel blending has encouraged the development of appropriate analytical methods to control the composition of this type of mixture. In this study, an evaluation of the potential of GC×GC for the characterization of samples of beef tallow biodiesel and the composition of blends of biodiesel/diesel is presented. The methodology was applied to beef tallow biodiesel and its mixtures with petrodiesel, ranging from B2 to B50. Results allowed not only the identification and quantification of the biodiesel esters, but also the biodiesel percentage in biodiesel/diesel blends.

  13. Thermal behavior of diesel/biodiesel blends of biodiesel obtained from buriti oil=Comportamento térmico de blendas de diesel/biodiesel de biodiesel obtido a partir do óleo de buriti

    Directory of Open Access Journals (Sweden)

    Alexandre Gustavo Soares do Prado

    2012-04-01

    Full Text Available Biodiesel has been obtained from methanolysis of buriti oil. This biodiesel was added in fossil diesel in order to obtain diesel/biodiesel blends. Thermal analysis of blends were carried on 30-600oC range at rate of 10oC min.-1. Kinetic parameters such as activation energy (Ea, pre-exponential factor (A, Gibbs energy (≠G, enthalpy (≠H and entropy (≠S of activation were determined by using Coats–Redfern equation. The Ea, ≠H and ≠G values presented a linear increase with biodiesel amount added in blends. The heat of combustion of diesel/biodiesel blends was determined, and it was observed that the heat of combustion decreased with the addition of biodiesel in diesel/biodiesel blends.O biodiesel foi obtido a partir de metanólise de óleo de buriti. O biodiesel foi adicionado ao diesel fóssil a fim de obter misturas de biodiesel/diesel. Análises térmica das misturas foram realizadas entre 30-600°C com uma taxa de aquecimento de 10ºC min.-1. Parâmetros cinéticos como a energia de ativação (Ea, fator pré-exponencial (A, energia livre de Gibbs (≠G, entalpia (≠H e entropia de ativação (≠S foram determinadas usando equação de Coats-Redfern. Os valores de Ea, ≠H and ≠G apresentaram aumento linear com a quantidade de biodiesel adicionado na mistura. O calor de combustão de misturas de biodiesel/diesel foi determinada, e foi observado que o calor de combustão diminuiu com a adição de biodiesel no diesel e nas misturas de biodiesel.

  14. Brown Grease to Biodiesel Demonstration Project Report

    Energy Technology Data Exchange (ETDEWEB)

    San Francisco Public Utilities Commission; URS Corporation; Biofuels, Blackgold; Carollo Engineers

    2013-01-30

    Municipal wastewater treatment facilities have typically been limited to the role of accepting wastewater, treating it to required levels, and disposing of its treatment residuals. However, a new view is emerging which includes wastewater treatment facilities as regional resource recovery centers. This view is a direct result of increasingly stringent regulations, concerns over energy use, carbon footprint, and worldwide depletion of fossil fuel resources. Resources in wastewater include chemical and thermal energy, as well as nutrients, and water. A waste stream such as residual grease, which concentrates in the drainage from restaurants (referred to as Trap Waste), is a good example of a resource with an energy content that can be recovered for beneficial reuse. If left in wastewater, grease accumulates inside of the wastewater collection system and can lead to increased corrosion and pipe blockages that can cause wastewater overflows. Also, grease in wastewater that arrives at the treatment facility can impair the operation of preliminary treatment equipment and is only partly removed in the primary treatment process. In addition, residual grease increases the demand in treatment materials such as oxygen in the secondary treatment process. When disposed of in landfills, grease is likely to undergo anaerobic decay prior to landfill capping, resulting in the atmospheric release of methane, a greenhouse gas (GHG). This research project was therefore conceptualized and implemented by the San Francisco Public Utilities Commission (SFPUC) to test the feasibility of energy recovery from Trap Waste in the form of Biodiesel or Methane gas. The research goals are given below: To validate technology performance; To determine the costs and benefits [including economic, socioeconomic, and GHG emissions reduction] associated with co-locating this type of operation at a municipal wastewater treatment plant (WWTP); To develop a business case or model for replication of the

  15. A Comparative Characteristic Study of Jatropha and Cardanol Biodiesel Blends

    Science.gov (United States)

    Pugazhenthi, R.; Chandrasekaran, M.; Muthuraman, R. K.; Vivek, P.; Parthiban, A.

    2017-03-01

    The demand in fuel needs and the depleting fossil fuels raised the need towards bio-fuels. The emerging trend in research field is highly focused on biodiesel production and their characteristic analysis. Since pollution is a major threat to the environment, emission parameter analyses are much important to be concentrated. As the entire world contains plenty of biofuels, it is necessary to explore them for its efficiency and analyze their parameters. In this experimental work jatropha and cashew nut shell biodiesel (Cardanol) was extracted and they were blended with diesel. The characteristics of jatropha and cardanol biodiesel were studied in the DI diesel engine by varying the load at the same speed. In brief, this experimental analysis is carried out to compare the emission characteristics between Jatropha biodiesel at 20% (B20) and 40% (B40) and Cardanol biodiesel blends at 20% (C20) and 40% (C40).

  16. Use of Reactive Distillation for Biodiesel Production: A Literature Survey

    Directory of Open Access Journals (Sweden)

    Muhammad Dani Supardan

    2006-06-01

    Full Text Available Biodiesel has been shown to be the best substitute for fossil-based fuels to its environmental advantages and renewable resource availability. There is a great demand for the commercialization of biodiesel production, which in turn calls for a technically and economically reactor technology. The production of biodiesel in existing batch and continuous-flow processes requires excess alcohol, typically 100%, over the stoichiometric molar requirement in order to drive the chemical reaction to completion. In this study, a novel reactor system using a reactive distillation (RD technique was discussed for biodiesel production. RD is a chemical unit operation in which chemical reactions and separations occur simultaneously in one unit. It is an effective alternative to the classical combination of reactor and separation units especially when involving reversible or consecutive chemical reactions such as transesterication process in biodiesel production.

  17. The feasibility of converting Cannabis sativa L. oil into biodiesel.

    Science.gov (United States)

    Li, Si-Yu; Stuart, James D; Li, Yi; Parnas, Richard S

    2010-11-01

    Cannabis sativa Linn, known as industrial hemp, was utilized for biodiesel production in this study. Oil from hemp seed was converted to biodiesel through base-catalyzed transesterification. The conversion is greater than 99.5% while the product yield is 97%. Several ASTM tests for biodiesel quality were implemented on the biodiesel product, including acid number, sulfur content, flash point, kinematic viscosity, and free and total glycerin content. In addition, the biodiesel has a low cloud point (-5 degrees C) and kinematic viscosity (3.48mm(2)/s). This may be attributed to the high content of poly-unsaturated fatty acid of hemp seed oil and its unique 3:1 ratio of linoleic to alpha-linolenic acid.

  18. Enzymatic biodiesel synthesis. Key factors affecting efficiency of the process

    Energy Technology Data Exchange (ETDEWEB)

    Szczesna Antczak, Miroslawa; Kubiak, Aneta; Antczak, Tadeusz; Bielecki, Stanislaw [Institute of Technical Biochemistry, Faculty of Biotechnology and Food Sciences, Technical University of Lodz, Stefanowskiego 4/10, 90-924 Lodz (Poland)

    2009-05-15

    Chemical processes of biodiesel production are energy-consuming and generate undesirable by-products such as soaps and polymeric pigments that retard separation of pure methyl or ethyl esters of fatty acids from glycerol and di- and monoacylglycerols. Enzymatic, lipase-catalyzed biodiesel synthesis has no such drawbacks. Comprehension of the latter process and an appreciable progress in production of robust preparations of lipases may soon result in the replacement of chemical catalysts with enzymes in biodiesel synthesis. Engineering of enzymatic biodiesel synthesis processes requires optimization of such factors as: molar ratio of substrates (triacylglycerols: alcohol), temperature, type of organic solvent (if any) and water activity. All of them are correlated with properties of lipase preparation. This paper reports on the interplay between the crucial parameters of the lipase-catalyzed reactions carried out in non-aqueous systems and the yield of biodiesel synthesis. (author)

  19. Heterogeneous catalysis afford biodiesel of babassu, castor oil and blends

    Energy Technology Data Exchange (ETDEWEB)

    Carvalho, Lee M.G. de; Abreu, Wiury C. de; Silva, Maria das Gracas de O. e; Matos, Jose Milton E. de; Moura, Carla V.R. de; Moura, Edmilson M. de, E-mail: mmoura@ufpi.edu.br [Universidade Federal do Piaui (UFPI), Teresina, PI (Brazil). Departamento de Quimica; Lima, Jose Renato de O.; Oliveira, Jose Eduardo de [Universidade Estadual Paulista Julio de Mesquita Filho (UNESP/IQ/CEMPEQC), Araraquara, SP (Brazil). Instituto de Quimica. Centro de Monitoramento e Pesquisa da Qualidade de Combustiveis, Biocombustiveis, Petroleo e Derivados

    2013-04-15

    This work describes the preparation of babassu, castor oil biodiesel and mixtures in various proportions of these oils, using alkaline compounds of strontium (SrCO{sub 3} + SrO + Sr (OH){sub 2}) as heterogeneous catalysts. The mixture of oils of these oleaginous sources was used in the production of biodiesel with quality parameters that meet current legislation. The catalyst was characterized by X-ray diffractometry (XDR), physisorption of gas (BET method), scanning electron microscopy (SEM), energy dispersive spectroscopy (EDX) and Fourier transform infrared spectroscopy (FTIR). The viscometric technique was used to monitor the optimization.The transesterification reactions performed using strontium compounds reached conversion rates of 97.2% babassu biodiesel (BB), 96.4% castor oil biodiesel (COB) and 95.3% Babassu/Castor Oil Biodiesel 4:1 (BBCO41). (author)

  20. Process simulation and economical evaluation of enzymatic biodiesel production plant.

    Science.gov (United States)

    Sotoft, Lene Fjerbaek; Rong, Ben-Guang; Christensen, Knud V; Norddahl, Birgir

    2010-07-01

    Process simulation and economical evaluation of an enzymatic biodiesel production plant has been carried out. Enzymatic biodiesel production from high quality rapeseed oil and methanol has been investigated for solvent free and cosolvent production processes. Several scenarios have been investigated with different production scales (8 and 200 mio. kg biodiesel/year) and enzyme price. The cosolvent production process is found to be most expensive and is not a viable choice, while the solvent free process is viable for the larger scale production of 200 mio. kg biodiesel/year with the current enzyme price. With the suggested enzyme price of the future, both the small and large scale solvent free production proved viable. The product price was estimated to be 0.73-1.49 euro/kg biodiesel with the current enzyme price and 0.05-0.75 euro/kg with the enzyme price of the future for solvent free process.

  1. Digestibilidade intestinal in vitro da proteína de coprodutos da indústria do biodiesel

    Directory of Open Access Journals (Sweden)

    G.S. Couto

    2012-10-01

    Full Text Available Determinou-se a digestibilidade intestinal (DI da proteína de vários coprodutos do biodiesel nas formas de farelo e torta. Foram avaliados oito coprodutos: tortas e farelos de pinhão manso, nabo forrageiro, tremoço, algodão. Os coprodutos foram incubados no rúmen por 16 horas, e os resíduos não degradados no rúmen submetidos à digestão enzimática com solução de pepsina e pancreatina para a determinação da DI. Ainda, nos resíduos da incubação ruminal, foram determinadas: degradabilidade da matéria seca (DR, proteína degradável no rúmen (PDR e proteína não degradável no rúmen (PNDR. A digestibilidade intestinal da proteína para os coprodutos do biodiesel variou de 2,4 a 48,6%. Todos os coprodutos avaliados caracterizaram-se como alimentos de alto teor proteico, sendo considerados de alta PDR, e apresentaram baixa digestibilidade intestinal da proteína. A DI da proteína dos coprodutos do biodiesel na forma de torta foi maior em comparação com a dos farelos. A torta e o farelo de algodão apresentaram os maiores coeficientes de DI.

  2. Antioxidant Effect on Oxidation Stability of Blend Fish Oil Biodiesel with Vegetable Oil Biodiesel and Petroleum Diesel Fuel

    Directory of Open Access Journals (Sweden)

    M. Hossain

    2013-06-01

    Full Text Available Two different phenolic synthetic antioxidants were used to improve the oxidation stability of fish oil biodiesel blends with vegetable oil biodiesel and petroleum diesel. Butylhydroxytoluene (BHT most effective for improvement of the oxidation stability of petro diesel, whereas  tert-butylhydroquinone (TBHQ showed good performance in fish oil biodiesel. Fish oil/Rapeseed oil biodiesel mixed showed some acceptable results in higher concentration ofantioxidants. TBHQ showed better oxidation stability than BHT in B100 composition. In fish oil biodiesel/diesel mixed fuel, BHT was more effective antioxidant than TBHQ to increase oxidationstability because BHT is more soluble than TBHQ. The stability behavior of biodiesel/diesel blends with the employment of the modified Rancimat method (EN 15751. The performance ofantioxidants was evaluated for treating fish oil biodiesel/Rapeseed oil biodiesel for B100, and blends with two type diesel fuel (deep sulfurization diesel and automotive ultra-low sulfur or zero sulfur diesels. The examined blends were in proportions of 5, 10, 15, and 20% by volume of fish oilbiodiesel.

  3. Microtox Aquatic Toxcity of Petrodiesel and Biodiesel Blends: The Role of Biodiesel's Autoxidation Products

    Science.gov (United States)

    The acute Microtox toxicity of the water accommodated fraction (WAF) of six commercial soybean biodiesel/petrodiesel blends was investigated at different oil loads. We analyzed five fatty acid methyl esters (FAMEs), C10 - C24 n-alkanes, four aromatics, methanol, and tota...

  4. Microtox Aquatic Toxcity of Petrodiesel and Biodiesel Blends: The Role of Biodiesel's Autoxidation Products

    Science.gov (United States)

    The acute Microtox toxicity of the water accommodated fraction (WAF) of six commercial soybean biodiesel/petrodiesel blends was investigated at different oil loads. We analyzed five fatty acid methyl esters (FAMEs), C10 - C24 n-alkanes, four aromatics, methanol, and tota...

  5. Regulated and unregulated emissions from a diesel engine fueled with biodiesel and biodiesel blended with methanol

    Science.gov (United States)

    Cheung, C. S.; Zhu, Lei; Huang, Zhen

    Experiments were carried out on a diesel engine operating on Euro V diesel fuel, pure biodiesel and biodiesel blended with methanol. The blended fuels contain 5%, 10% and 15% by volume of methanol. Experiments were conducted under five engine loads at a steady speed of 1800 rev min -1 to assess the performance and the emissions of the engine associated with the application of the different fuels. The results indicate an increase of brake specific fuel consumption and brake thermal efficiency when the diesel engine was operated with biodiesel and the blended fuels, compared with the diesel fuel. The blended fuels could lead to higher CO and HC emissions than biodiesel, higher CO emission but lower HC emission than the diesel fuel. There are simultaneous reductions of NO x and PM to a level below those of the diesel fuel. Regarding the unregulated emissions, compared with the diesel fuel, the blended fuels generate higher formaldehyde, acetaldehyde and unburned methanol emissions, lower 1,3-butadiene and benzene emissions, while the toluene and xylene emissions not significantly different.

  6. Emissions characteristics of a diesel engine operating on biodiesel and biodiesel blended with ethanol and methanol.

    Science.gov (United States)

    Zhu, Lei; Cheung, C S; Zhang, W G; Huang, Zhen

    2010-01-15

    Euro V diesel fuel, pure biodiesel and biodiesel blended with 5%, 10% and 15% of ethanol or methanol were tested on a 4-cylinder naturally-aspirated direct-injection diesel engine. Experiments were conducted under five engine loads at a steady speed of 1800 r/min. The study aims to investigate the effects of the blended fuels on reducing NO(x) and particulate. On the whole, compared with Euro V diesel fuel, the blended fuels could lead to reduction of both NO(x) and PM of a diesel engine, with the biodiesel-methanol blends being more effective than the biodiesel-ethanol blends. The effectiveness of NO(x) and particulate reductions is more effective with increase of alcohol in the blends. With high percentage of alcohol in the blends, the HC, CO emissions could increase and the brake thermal efficiency might be slightly reduced but the use of 5% blends could reduce the HC and CO emissions as well. With the diesel oxidation catalyst (DOC), the HC, CO and particulate emissions can be further reduced.

  7. Process Simulation of enzymatic biodiesel production -at what cost can biodiesel be made with enzymes?

    DEFF Research Database (Denmark)

    Fjerbæk Søtoft, Lene; Christensen, Knud Villy; Rong, Benguang

    as well as environmental impacts of the alternative process must be evaluated towards the conventional process. With process simulation tools, an evaluation will be carried out looking at what it will cost to produce biodiesel with enzymes. Different scenarios will be taken into account with variations...... in raw material prices, process designs and enzyme cost and performance....

  8. Western Kentucky University Research Foundation Biodiesel Project

    Energy Technology Data Exchange (ETDEWEB)

    Pan, Wei-Ping [Principal Investigator; Cao, Yan [Co-Principal Investigator

    2013-03-15

    Petroleum-based liquid hydrocarbons is exclusively major energy source in the transportation sector. Thus, it is the major CO{sub 2} source which is the associated with greenhouse effect. In the United States alone, petroleum consumption in the transportation sector approaches 13.8 million barrels per day (Mbbl/d). It is corresponding to a release of 0.53 gigatons of carbon per year (GtC/yr), which accounts for approximate 7.6 % of the current global release of CO{sub 2} from all of the fossil fuel usage (7 GtC/yr). For the long term, the conventional petroleum production is predicted to peak in as little as the next 10 years to as high as the next 50 years. Negative environmental consequences, the frequently roaring petroleum prices, increasing petroleum utilization and concerns about competitive supplies of petroleum have driven dramatic interest in producing alternative transportation fuels, such as electricity-based, hydrogen-based and bio-based transportation alternative fuels. Use of either of electricity-based or hydrogen-based alternative energy in the transportation sector is currently laden with technical and economical challenges. The current energy density of commercial batteries is 175 Wh/kg of battery. At a storage pressure of 680 atm, the lower heating value (LHV) of H{sub 2} is 1.32 kWh/liter. In contrast, the corresponding energy density for gasoline can reach as high as 8.88 kWh/liter. Furthermore, the convenience of using a liquid hydrocarbon fuel through the existing infrastructures is a big deterrent to replacement by both batteries and hydrogen. Biomass-derived ethanol and bio-diesel (biofuels) can be two promising and predominant U.S. alternative transportation fuels. Both their energy densities and physical properties are comparable to their relatives of petroleum-based gasoline and diesel, however, biofuels are significantly environmental-benign. Ethanol can be made from the sugar-based or starch-based biomass materials, which is easily

  9. Biodiesel II: A new concept of biodiesel production - transesterification with supercritical methanol

    Directory of Open Access Journals (Sweden)

    Skala Dejan U.

    2004-01-01

    Full Text Available Biodiesel is defined as a fuel that might be used as a pure biofuel or at high concentration in mineral oil derivatives, in accordance with specific quality standards for transport applications. The main raw material used for biodiesel production is rapeseed, which contains mono-unsaturated (about 60% and also, in a lower quantity, poly-unsaturated fatty acids (C 18:1 and C 18:3, as well as some amounts of undesired saturated fatty acids (palmitic and stearic acids. Other raw materials have also been used in the research and industrial production of biodiesel (palm-oil, sunflower-oil, soybean-oil, waste plant oil, animal fats, etc. The historical background of the biodiesel production, installed industrial capacities, as well as Directives of the European Parliament and of the Council (May 2003 regarding the promotion of the use of biofuels or other renewable fuels for transport are discussed in the first part of this article (Chem. Ind. 58 (2004. The second part focused on some new concepts and the future development of technology for biodiesel production based on the use of non-catalytic transesterification under supercritical conditions. A literature review, as well as original results based on the transesterification of animal fats, plant oil and used plant oil were discussed. Obtained results were compared with the traditional concept of transesterification based on base or acid catalysis. Experimental investigations of transesterification with supercritical methanol were performed in a 2 dm3 autoclave at 140 bar pressure and at 300°C with molar ratio of methanol to triglycerides of about 41. The degree of esterification strongly depends on the density of supercritical methanol and on the possibility of reaction occurring in one phase.

  10. Averiguarlo todo de todos: el catastro de Ensenada

    Directory of Open Access Journals (Sweden)

    Camarero Bullón, Concepción

    2002-12-01

    Full Text Available This paper is an approach to the study of the economic and legal framework in which the first Castilian cadastre, known as the Ensenada Cadastre, was set on stream (18th century. It covers the method and conduct of the verifications, the resultant documentation and the degree of accuracy and reliability of the information gathered and the reasons why the Single Tax never was introduced.

    Este trabajo estudia el entramado económico y legal de la hacienda castellana a mediados del siglo XVIII, que se pretende reformar con el denominado Catastro de Ensenada. Se centra en el análisis del método seguido para llevar a cabo las averiguaciones y el sistema de verificación de los datos obtenidos, así como de la documentación generada, la exactitud y veracidad de los datos obtenidos y la razones por las que nunca se llega a implantar la Única Contribución.

  11. Isothermal calorimetry on enzymatic biodiesel production

    DEFF Research Database (Denmark)

    Fjerbæk, Lene

    2008-01-01

    conditions can not be elucidated. These effects have been observed with isothermal calorimetry bringing forth new information about the reaction of enzymes catalyzing transesterification. Enzymatic biodiesel production has until now not been investigated with isothermal microcalorimetry, but the results...... and potential of the technique used for investigations of complex and heterogeneous substrates are presented and discussed in the presentation. Reference List 1 Bianconi,M.L. (2007) Calorimetry of enzyme-catalyzed reactions.  Biophysical Chemistry, 126, 59-64. 2 Todd,M.J. and Gomez,J. (2001) Enzyme Kinetics...... Determined Using Calorimetry: A General Assay for Enzyme Activity?  Analytical Biochemistry, 296, 179-187....

  12. A comprehensive review on biodiesel purification and upgrading

    Directory of Open Access Journals (Sweden)

    Hamed Bateni

    2017-09-01

    Full Text Available Serious environmental concerns regarding the use of fossil-based fuels have raised awareness regarding the necessity of alternative clean fuels and energy carriers. Biodiesel is considered a clean, biodegradable, and non-toxic diesel substitute produced via the transesterification of triglycerides with an alcohol in the presence of a proper catalyst. After initial separation of the by-product (glycerol, the crude biodiesel needs to be purified to meet the standard specifications prior to marketing. The presence of impurities in the biodiesel not only significantly affects its engine performance but also complicates its handling and storage. Therefore, biodiesel purification is an essential step prior to marketing. Biodiesel purification methods can be classified based on the nature of the process into equilibrium-based, affinity-based, membrane-based, reaction-based, and solid-liquid separation processes. The main adverse properties of biodiesel – namely moisture absorption, corrosiveness, and high viscosity – primarily arise from the presence of oxygen. To address these issues, several upgrading techniques have been proposed, among which catalytic (hydrodeoxygenation using conventional hydrotreating catalysts, supported metallic materials, and most recently transition metals in various forms appear promising. Nevertheless, catalyst deactivation (via coking and/or inadequacy of product yields necessitate further research. This paper provides a comprehensive overview on the techniques and methods used for biodiesel purification and upgrading.

  13. [Progress on biodiesel production with enzymatic catalysis in China].

    Science.gov (United States)

    Tan, Tianwei; Lu, Jike; Nie, Kaili; Zhang, Haixia; Deng, Li; Wang, Fang

    2010-07-01

    This paper reports the progress of biodiesel production with enzymatic catalysis in Beijing University of Chemical Technology, one of the leaders in biodiesel R & D in China, which includes screening of high-yield lipase production strains, optimization and scale-up of the lipase fermentation process, lipase immobilization, bioreactor development and scale-up, biodiesel separation and purification and the by-product glycerol utilization. Firstly, lipase fermentation was carried out at industrial scale with the 5 m3 stirred tank bioreactor, and the enzyme activity as high as 8 000 IU/mL was achieved by the species Candida sp. 99-125. Then, the lipase was purified and immobilized on textile membranes. Furthermore, biodiesel production was performed in the 5 m3 stirred tank bioreactor with an enzyme dosage as low as 0.42%, and biodiesel that met the German biodiesel standard was produced. And in the meantime, the byproduct glycerol was used for the production of 1,3-propanediol to partly offset the production cost of biodiesel, and 76.1 g/L 1,3-propanediol was obtained in 30 L fermentor with the species Klebsiella pneumoniae.

  14. Methanolysis of Carica papaya Seed Oil for Production of Biodiesel

    Directory of Open Access Journals (Sweden)

    Foluso O. Agunbiade

    2014-01-01

    Full Text Available The future of fossil fuel sources of energy has necessitated the need to search for renewable alternatives. Thus, Carica papaya seed oil (CPSO was employed as feedstock for the production of biodiesel by methanolysis. The seed was obtained locally, dried, and extracted with n-hexane. The CPSO was analyzed for specific gravity, viscosity, iodine value, and saponification value, among others using standard methods. The oil was transesterified by two-stage catalysis with oil to methanol mole ratio of 1 : 9. The biodiesel produced was subjected to standard fuel tests. The seed has an oil yield of 31.2% which is commercially viable. The kinematic viscosity of the oil at 313 K was 27.4 mm2s−1 while that of Carica papaya oil methylester (CPOME was reduced to 3.57 mm2s−1 and the specific gravity was 0.84 comparable with other seed-oil biodiesels and number 2 diesel. Other oil properties were compared favourably with seed oils already documented for biodiesel synthesis. CPOME’s cloud and pour points were 275 K and 274 K, respectively, and relatively higher than other biodiesels and number 2 diesel. CPOME exhibits moderate corrosion of copper strip. The methanolysis improved the fuel properties of the CPOME similar to other biodiesels. CPSO therefore exhibits a potential for biodiesel production.

  15. Prospects of biodiesel production from microalgae in India

    Energy Technology Data Exchange (ETDEWEB)

    Khan, Shakeel A.; Hussain, Mir Z.; Prasad, S. [Division of Environmental Sciences, Indian Agricultural Research Institute, New Delhi 110012 (India); Rashmi; Banerjee, U.C. [Department of Pharmaceutical Technology (Biotechnology), National Institute of Pharmaceutical and Education Research (NIPER), Sector 67, Phase X, S.A.S. Nagar, Mohali 160062, Punjab (India)

    2009-12-15

    Energy is essential and vital for development, and the global economy literally runs on energy. The use of fossil fuels as energy is now widely accepted as unsustainable due to depleting resources and also due to the accumulation of greenhouse gases in the environment. Renewable and carbon neutral biodiesel are necessary for environmental and economic sustainability. Biodiesel demand is constantly increasing as the reservoir of fossil fuel are depleting. Unfortunately biodiesel produced from oil crop, waste cooking oil and animal fats are not able to replace fossil fuel. The viability of the first generation biofuels production is however questionable because of the conflict with food supply. Production of biodiesel using microalgae biomass appears to be a viable alternative. The oil productivity of many microalgae exceeds the best producing oil crops. Microalgae are photosynthetic microorganisms which convert sunlight, water and CO{sub 2} to sugars, from which macromolecules, such as lipids and triacylglycerols (TAGs) can be obtained. These TAGs are the promising and sustainable feedstock for biodiesel production. Microalgal biorefinery approach can be used to reduce the cost of making microalgal biodiesel. Microalgal-based carbon sequestration technologies cover the cost of carbon capture and sequestration. The present paper is an attempt to review the potential of microalgal biodiesel in comparison to the agricultural crops and its prospects in India. (author)

  16. Biodiesel Fuel Production from Algae as Renewable Energy

    Directory of Open Access Journals (Sweden)

    A. B.M. Sharif Hossain

    2008-01-01

    Full Text Available Biodiesel is biodegradable, less CO2 and NOx emissions. Continuous use of petroleum sourced fuels is now widely recognized as unsustainable because of depleting supplies and the contribution of these fuels to the accumulation of carbon dioxide in the environment. Renewable, carbon neutral, transport fuels are necessary for environmental and economic sustainability. Algae have emerged as one of the most promising sources for biodiesel production. It can be inferred that algae grown in CO2-enriched air can be converted to oily substances. Such an approach can contribute to solve major problems of air pollution resulting from CO2 evolution and future crisis due to a shortage of energy sources. This study was undertaken to know the proper transesterification, amount of biodiesel production (ester and physical properties of biodiesel. In this study we used common species Oedogonium and Spirogyra to compare the amount of biodiesel production. Algal oil and biodiesel (ester production was higher in Oedogonium than Spirogyra sp. However, biomass (after oil extraction was higher in Spirogyra than Oedogonium sp. Sediments (glycerine, water and pigments was higher in Spirogyra than Oedogonium sp. There was no difference of pH between Spirogyra and Oedogonium sp. These results indicate that biodiesel can be produced from both species and Oedogonium is better source than Spirogyra sp.

  17. Spontaneous ignition of biodiesel: A potential fire risk

    Directory of Open Access Journals (Sweden)

    Shibata Yasuhito

    2008-01-01

    Full Text Available The spontaneous ignition of biodiesel was for the first time suspected to be the cause of a recent fire in Japan. We herein present experimental evidence implying this potential risk of biodiesel. Thus, three independent biodiesel samples were subjected to a series of experiments, including a thermogravimetry-differential thermal analysis, a differential scanning calorimetry analysis and a modified wire basket test. The results were comparatively evaluated with reference to vegetable oils, of which spontaneous ignition has been well reported as a cause of fires. The heat onset temperature of biodiesel samples was determined to be ~100 °C, which was ~45 °C lower than those of vegetable oils. Furthermore, under the isothermal condition at 100 °C, the inner temperature of biodiesel samples rose rapidly with the generation of smoke after short induction periods owing to their exothermal decomposition, whereas for vegetable oils neither change in the inside temperature nor generation of smoke was observed even after 10 hours. It was therefore concluded that biodiesel possesses the higher risk of spontaneous ignition than vegetable oils. This is very important information to minimize the fire risk in biodiesel production facilities and so on. .

  18. Production of Biodiesel from Vegetable Oil Using Microware Irradiation

    Directory of Open Access Journals (Sweden)

    N. Kapilan

    2012-01-01

    Full Text Available The petroleum oil supply crisis, the increase in demand and the price eruption have led to a search for an alternative fuel of bio-origin in India. Among the alternative fuels, biodiesel is considered as a sustainable renewable alternative fuel to fossil diesel. Non-edible jatropha oil has considerable potential for the production of biodiesel in India. The production of biodiesel from jatropha oil using a conventional heating method takes more than 1h. In this work, microwave irradiation has been used as a source of heat for the transesterification reaction. A domestic microwave oven was modified and used for microwave heating of the reactants. The time taken for biodiesel production using microwave irradiation was 1 min. The fuel property analysis shows that the properties of jatropha oil biodiesel satisfy the biodiesel standards, and are close to the fossil diesel standards. From this work, it is concluded that biodiesel can be produced from vegetable oil using microwave irradiation, with a significant reduction in production time.

  19. Prospects of dedicated biodiesel engine vehicles in Malaysia and Indonesia

    Energy Technology Data Exchange (ETDEWEB)

    Jayed, M.H.; Masjuki, H.H.; Kalam, M.A.; Mahlia, T.M.I.; Liaquat, A.M. [Centre for Energy Sciences, Faculty of Engineering, University of Malaya, 50603 Kuala Lumpur (Malaysia); Husnawan, M. [Centre for Energy Sciences, Faculty of Engineering, University of Malaya, 50603 Kuala Lumpur (Malaysia); Department of Mechanical Engineering University of Syiah Kuala, Jl. S. Abd. Rauf No. 7, Darussalam - Banda Aceh (Indonesia)

    2011-01-15

    Petro diplomacy has played its role in last few decades and that makes energy security a major concern worldwide. Rapid climate change and environmental protection is another vital issue to be addressed in recent energy policies. So an alternative carbon neutral transport fuel is a must in new sustainable energy mix. Biodiesel has immense potentiality to be a part of a sustainable energy mix. In this energy scenario, Brazil's success is a role model in utilizing its agro-industry for reducing poverty, greenhouse gas emission and petro-dependency simultaneously. Brazil commercialized bioethanol in mass scale by introducing flexible fuel vehicles in market. This dedicated engine idea moralizes a new concept of dedicated biodiesel engine vehicles for Malaysia and Indonesia. Southeast Asian countries, i.e. Malaysia and Indonesia is the largest producer as well as exporter of palm oil. Growing at highest yield rate among other biodiesel feedstock, palm based biodiesel is a top exported product for this region. This paper will quantify the prospects of a dedicated biodiesel engine vehicle for Malaysia and Indonesia that will initiate palm based biodiesel in fuel supply chain by leapfrogging the barriers of biodiesel utilization by boosting local automobile industry simultaneously. This article will also review on energy scenario of Malaysia and Indonesia and their renewable energy policies and challenges for coming decades. (author)

  20. Development of Brazilian Biodiesel Sector from the Perspective of Stakeholders

    Directory of Open Access Journals (Sweden)

    Bárbara Françoise Cardoso

    2017-03-01

    Full Text Available In Brazil, the main program with respect to biodiesel is the National Program of Biodiesel Production and Use (NPBP. It is also considered the regulation mark of biodiesel production in Brazil and its directives are social inclusion and regional development. Considering these directives, this paper aims to analyse the perspective of biodiesel sector stakeholders in Brazil to understand whether NPBP directives are in consonance with the reality of the sector for its development. A questionnaire was created with 48 questions in order to understand the importance of 13 variables for the stakeholders, and the responses were treated by factor analysis (FA. The results showed the existence of a trade-off related to technological advances in biodiesel production that confronts NPBP directives, that is, the biodiesel sector tends not to evolve in terms of the use of advanced technologies. If policies change so as to develop the biodiesel sector using advanced technologies, NPBP should change its directives in order to involve family farmers in another way in the Brazilian economy.

  1. Todo fluye. Renovarse y crecer.

    Directory of Open Access Journals (Sweden)

    Egea Vivancos, Alejandro

    2014-12-01

    Full Text Available Renovarse o morir. Renovarse y crecer. Estamos muy orgullosos de poder decir alto y claro que la revista Panta Rei vuelve a entrar en movimiento. Y aunque lo hace con una filosofía en lo esencial exactamente igual a sus inicios, cuando fue concebida hacia el año 1993 entre los muros de las aulas de la Facultad de Letras de la Universidad de Murcia, ahora reaparece completamente renovada. En el prólogo del primer volumen de la revista se anhelaba que esta fuera como un río de preguntas y estímulos, empleando esta figura metafórica como imagen del devenir y del cambio. No obstante, el río en el que nos sumergimos ahora es distinto, más amplio y ambicioso, abierto a millones de personas que son capaces de acceder al conocimiento con un simple movimiento de ratón. Como decía Heráclito “todo se mueve y nada permanece” y, comparando los seres con la corriente de un río, añade: “no podrías sumergirte dos veces en el mismo río” (Platón, Crátilo 402a.

  2. Optimisation of biodiesel production by sunflower oil transesterification.

    Science.gov (United States)

    Antolín, G; Tinaut, F V; Briceño, Y; Castaño, V; Pérez, C; Ramírez, A I

    2002-06-01

    In this work the transformation process of sunflower oil in order to obtain biodiesel by means of transesterification was studied. Taguchi's methodology was chosen for the optimisation of the most important variables (temperature conditions, reactants proportion and methods of purification), with the purpose of obtaining a high quality biodiesel that fulfils the European pre-legislation with the maximum process yield. Finally, sunflower methyl esters were characterised to test their properties as fuels in diesel engines, such as viscosity, flash point, cold filter plugging point and acid value. Results showed that biodiesel obtained under the optimum conditions is an excellent substitute for fossil fuels.

  3. Enzymatic reactors for biodiesel synthesis: Present status and future prospects.

    Science.gov (United States)

    Poppe, Jakeline Kathiele; Fernandez-Lafuente, Roberto; Rodrigues, Rafael C; Ayub, Marco Antônio Záchia

    2015-01-01

    Lipases are being extensively researched for the production of biodiesel as a "silver bullet" in order to avoid the drawbacks of the traditional alkaline transesterification. In this review, we analyzed the main factors involved in the enzymatic synthesis of biodiesel, focusing in the choice of the immobilization protocol, and the parameters involved in the choice and configuration of the reactors. An extensive discussion is presented about the advantages and disadvantages of each type of reactor and their mode of operation. The current scenario of the market for enzymatic biodiesel and some future prospects and necessary developments are also briefly presented.

  4. Transesterification of Palm Oil for the Production of Biodiesel

    Directory of Open Access Journals (Sweden)

    Khalizani Khalid

    2011-01-01

    Full Text Available Problem statement: Palm oil is known as an important source of edible oil with significant values of renewable energy. Depletion of petroleum had captured much attention on producing biodiesel from the palm oil. Approach: The most concerning methods for the production of biodiesel were discussed, namely transesterification (alkali and acid, enzymetic approach and supercritical alcohol. Results: The results showed the vis-a-vis of the methods for possible consideration of research. Conclusion: Concerning the importance of this vegetable oil, the contribution of palm oil towards diminution of fossil fuel, possible methods for the production of biodiesel and the opportunity for the futures is very much important.

  5. Biomass for biodiesel production on family farms in Brazil: promise or failure? : integrated assessment of biodiesel crops, farms, policies and producer organisations

    NARCIS (Netherlands)

    Belo Leite, Dal J.G.

    2013-01-01

    In Brazil, a biodiesel policy was implemented as a way of reducing poverty among family farms. The objective of this thesis is to perform an integrated assessment of biodiesel crops, farm types, biodiesel policies and producer organisations that reveals opportunities and limitations of family

  6. Calorific value for compositions with biodiesel of fat chicken and diesel oil; Valor calorifico para composicoes com biodiesel da gordura de frango e oleo diesel

    Energy Technology Data Exchange (ETDEWEB)

    Silva, Marcelo Jose da [Universidade de Campinas (FEAGRI/UNICAMP), SP (Brazil). Fac. de Engenharia Agricola], email: marcelo.jose@feagri.unicamp.br; Souza, Samuel N.M. de; Souza, Abel A. de; Martins, Gislaine I. [Universidade Estadual do Oeste do Parana (CCET/UNIOESTE), Cascavel, PR (Brazil). Centro de Ciencias Exatas e Tecnologicas], emails: ssouza@unioeste.br, abel.sza@hotmail.com, iastiaque@yahoo.com.br

    2011-07-01

    The biodiesel fuel is a renewable source of alternative fuel used in diesel cycle engines. The production of biodiesel involves the reaction of methanol with fatty acids of animal or vegetable. The production of biodiesel from chicken fat can be very attractive for some regions from Brazil with high poultry production, as in the Parana West and Santa Catarina West. In this study , the goal was the lower calorific value of the compositions between biodiesel and diesel oil: 100% Diesel oil (B0), 20% biodiesel (B20), 40% biodiesel (B40), 60% biodiesel (B60), 80% biodiesel (B80 ), 100% biodiesel (B100). The biodiesel used was acquired in the Centre for Development and Diffusion of technologies on the Assis Gurgacz College, in Cascavel city. The nominal production capacity of the unit is 900 liters on period of 8 hours. The model of the calorimeter used, was the E2K. The lower calorific value of B100 composition was 35.388 MJ kg-1 and the diesel oil was 41.299 MJ kg-1. With the measuring of the caloric value of six samples mix of diesel oil and biodiesel, was obtained a linear function decrease of the calorific value when increased it the proportion of biodiesel from chicken fat into fuel. (author)

  7. Biomass for biodiesel production on family farms in Brazil: promise or failure? : integrated assessment of biodiesel crops, farms, policies and producer organisations

    NARCIS (Netherlands)

    Belo Leite, Dal J.G.

    2013-01-01

    In Brazil, a biodiesel policy was implemented as a way of reducing poverty among family farms. The objective of this thesis is to perform an integrated assessment of biodiesel crops, farm types, biodiesel policies and producer organisations that reveals opportunities and limitations of family farmer

  8. Bio-Diesel production and Effect of Catalytic Converter on Emission performance with Bio-Diesel Blends

    Directory of Open Access Journals (Sweden)

    R.Murali Manohar

    2010-06-01

    Full Text Available Bio-Diesel the word itself defines almost all the features of the Bio-Diesel literary. In the Era of this Global Warming where the people are making their living more and more comfortable and they are deteriorating the environment also. The uses of the automobiles with the conventional source of fuel leads to the production of the toxic gaseous substances like carbon monoxide, carbon dioxide, oxides of nitrogen, oxide of sulphur, hydro-carbons etc. The limitation comes with the rise in the price of the fuel as well as the produce of the green house gases as the exhaust gas. In the present study, a new method has been employed to produce Bio-Diesel in a homely basis. Theproduction of the Bio-Diesel is done by using Bio-Diesel processor. It requires the used vegetable oil, methanol and the lye with the accurate proportionate. Generally, emissions of regulated compounds changed linearly with the blend level. The objective is to detect any posit ive or negative effects depending on blend levels, because conventional diesel fuel and biodiesel can be blended in every ratio. The known positive and negative effects of biodiesel varied accordingly and investigate the effect of Catalytic Converter on emission performance with Bio- Diesel Blends.

  9. BACTERIAL COMMUNITY DYNAMICS AND ECOTOXICOLOGICAL ASSESSMENT DURING BIOREMEDIATION OF SOILS CONTAMINATED BY BIODIESEL AND DIESEL/BIODIESEL BLENDS.

    Science.gov (United States)

    Matos, G I; Junior, C S; Oliva, T C; Subtil, D F; Matsushita, L Y; Chaves, A L; Lutterbach, M T; Sérvulo, E F; Agathos, S N; Stenuit, B

    2015-01-01

    The gradual introduction of biodiesel in the Brazilian energy landscape has primarily occurred through its blending with conventional petroleum diesel (e.g., B20 (20% biodiesel) and B5 (5% biodiesel) formulations). Because B20 and lower-level blends generally do not require engine modifications, their use as transportation fuel is increasing in the Brazilian distribution networks. However, the environmental fate of low-level biodiesel blends and pure biodiesel (B100) is poorly understood and the ecotoxicological-safety endpoints of biodiesel-contaminated environments are unknown. Using laboratory microcosms consisting of closed reactor columns filled with clay loam soil contaminated with pure biodiesel (EXPB100) and a low-level blend (EXPB5) (10% w/v), this study presents soil ecotoxicity assessement and dynamics of culturable heterotrophic bacteria. Most-probable-number (MPN) procedures for enumeration of bacteria, dehydrogenase assays and soil ecotoxicological tests using Eisenia fetida have been performed at different column depths over the course of incubation. After 60 days of incubation, the ecotoxicity of EXPB100-derived samples showed a decrease from 63% of mortality to 0% while EXPB5-derived samples exhibited a reduction from 100% to 53% and 90% on the top and at the bottom of the reactor column, respectively. The dehydrogenase activity of samples from EXPB100 and EXPB5 increased significantly compared to pristine soil after 60 days of incubation. Growth of aerobic bacterial biomass was only observed on the top of the reactor column while the anaerobic bacteria exhibited significant growth at different column depths in EXPB100 and EXPB5. These preliminary results suggest the involvement of soil indigenous microbiota in the biodegradation of biodiesel and blends. However, GC-FID analyses for quantification of fatty acid methyl esters (FAMEs) and aliphatic hydrocarbons and targeted sequencing of 16S rRNA tags using illumina platforms will provide important

  10. Extended exergy accounting applied to biodiesel production

    Energy Technology Data Exchange (ETDEWEB)

    Talens Peiro, L. [SosteniPrA (UAB-IRTA), Institute of Environmental Science and Technology (ICTA), Edifici Q-ETSE, Room QC 3101, Universitat Autonoma de Barcelona (UAB), E-08193 Bellaterra (Cerdanyola del Valles), Barcelona (Spain); Villalba Mendez, G.; Gabarrell i Durany, X. [SosteniPrA (UAB-IRTA), Institute of Environmental Science and Technology (ICTA), Edifici Q-ETSE, Room QC 3101, Universitat Autonoma de Barcelona (UAB), E-08193 Bellaterra (Cerdanyola del Valles), Barcelona (Spain); Department of Chemical Engineering, Edifici Q, Universitat Autonoma de Barcelona (UAB), E- 08193, Bellaterra (Cerdanyola del Valles), Barcelona (Spain); Sciubba, E. [Department of Mechanical and Aeronautical Engineering, University of Roma 1 ' ' La Sapienza' ' , Via Eudossiana 18, I-00184 Roma (Italy)

    2010-07-15

    When evaluating the production of renewable energies such as biofuels, it is necessary to include in the assessment the resource inputs, capital, labor investment and environmental remediation costs. Extended Exergy Accounting (EEA) is a system analysis method that calculates, on the basis of detailed mass and exergy balances, the total amount of primary exergy resources necessary to obtain a product or service. The conceptual novelty of EEA is represented by the fact that it also includes externalities (capital, labor and environmental impact) measured in homogeneous units (Joules). As an illustration of EEA, we assess and compare the production of 1 ton of biodiesel from used cooking oil (UCOME) and rapeseed crops (RME). The extended exergy ''content'' of UCOME and RME are 51.90 GJ and 77.05 GJ respectively. The production of UCOME uses 25.15 GJ less resources (materials and energy) and requires lower total investments and environmental remediation costs than that of RME. On the other hand, UCOME requires 35% more workhours. In summary, the extended exergy of UCOME is about 1.5 the extended exergy content of RME. Thus, we can conclude that biodiesel production from UCO is less resource use intensive than the production from RME. (author)

  11. Digital image-based classification of biodiesel.

    Science.gov (United States)

    Costa, Gean Bezerra; Fernandes, David Douglas Sousa; Almeida, Valber Elias; Araújo, Thomas Souto Policarpo; Melo, Jessica Priscila; Diniz, Paulo Henrique Gonçalves Dias; Véras, Germano

    2015-07-01

    This work proposes a simple, rapid, inexpensive, and non-destructive methodology based on digital images and pattern recognition techniques for classification of biodiesel according to oil type (cottonseed, sunflower, corn, or soybean). For this, differing color histograms in RGB (extracted from digital images), HSI, Grayscale channels, and their combinations were used as analytical information, which was then statistically evaluated using Soft Independent Modeling by Class Analogy (SIMCA), Partial Least Squares Discriminant Analysis (PLS-DA), and variable selection using the Successive Projections Algorithm associated with Linear Discriminant Analysis (SPA-LDA). Despite good performances by the SIMCA and PLS-DA classification models, SPA-LDA provided better results (up to 95% for all approaches) in terms of accuracy, sensitivity, and specificity for both the training and test sets. The variables selected Successive Projections Algorithm clearly contained the information necessary for biodiesel type classification. This is important since a product may exhibit different properties, depending on the feedstock used. Such variations directly influence the quality, and consequently the price. Moreover, intrinsic advantages such as quick analysis, requiring no reagents, and a noteworthy reduction (the avoidance of chemical characterization) of waste generation, all contribute towards the primary objective of green chemistry.

  12. Oil extraction from microalgae for biodiesel production.

    Science.gov (United States)

    Halim, Ronald; Gladman, Brendan; Danquah, Michael K; Webley, Paul A

    2011-01-01

    This study examines the performance of supercritical carbon dioxide (SCCO(2)) extraction and hexane extraction of lipids from marine Chlorococcum sp. for lab-scale biodiesel production. Even though the strain of Chlorococcum sp. used in this study had a low maximum lipid yield (7.1 wt% to dry biomass), the extracted lipid displayed a suitable fatty acid profile for biodiesel [C18:1 (∼63 wt%), C16:0 (∼19 wt%), C18:2 (∼4 wt%), C16:1 (∼4 wt%), and C18:0 (∼3 wt%)]. For SCCO(2) extraction, decreasing temperature and increasing pressure resulted in increased lipid yields. The mass transfer coefficient (k) for lipid extraction under supercritical conditions was found to increase with fluid dielectric constant as well as fluid density. For hexane extraction, continuous operation with a Soxhlet apparatus and inclusion of isopropanol as a co-solvent enhanced lipid yields. Hexane extraction from either dried microalgal powder or wet microalgal paste obtained comparable lipid yields. Copyright © 2010 Elsevier Ltd. All rights reserved.

  13. Odour Prevention at Biodiesel Fuel Producing Enterprises

    Directory of Open Access Journals (Sweden)

    Kristina Montrimaite

    2012-03-01

    Full Text Available Gaseous, unpleasant, pungent and even harmful odour frequently leads to complaints and appeals to the authorities. For this reason an environmental review was carried out in a certain biodiesel fuel production enterprise, odour pollution sources were identified, their quantities estimated and their impact on the environment assessed. Following the initial environmental review, significant environmental aspects of biodiesel fuel production processes were evaluated. It was found that in technological processes of heating and pressing oil, triglycerides disintegrated in aromas causing discomfort. In order to reduce this impact, the appropriate economic management method and odour removal equipment are to be chosen. When solving this problem it is suggested to install biofilters - activated carbon adsorbers with a stationary adsorber layer and probiotics. In order to choose the adsorber, a calculation method of adsorber technical parameters has been developed in accordance with literature data. The proposed preventive odour reduction means and feasibility of their technical and economical application have been analysed.DOI: http://dx.doi.org/10.5755/j01.erem.59.1.676

  14. Genomic Prospecting for Microbial Biodiesel Production

    Energy Technology Data Exchange (ETDEWEB)

    Lykidis, Athanasios; Lykidis, Athanasios; Ivanova, Natalia

    2008-03-20

    Biodiesel is defined as fatty acid mono-alkylesters and is produced from triacylglycerols. In the current article we provide an overview of the structure, diversity and regulation of the metabolic pathways leading to intracellular fatty acid and triacylglycerol accumulation in three types of organisms (bacteria, algae and fungi) of potential biotechnological interest and discuss possible intervention points to increase the cellular lipid content. The key steps that regulate carbon allocation and distribution in lipids include the formation of malonyl-CoA, the synthesis of fatty acids and their attachment onto the glycerol backbone, and the formation of triacylglycerols. The lipid biosynthetic genes and pathways are largely known for select model organisms. Comparative genomics allows the examination of these pathways in organisms of biotechnological interest and reveals the evolution of divergent and yet uncharacterized regulatory mechanisms. Utilization of microbial systems for triacylglycerol and fatty acid production is in its infancy; however, genomic information and technologies combined with synthetic biology concepts provide the opportunity to further exploit microbes for the competitive production of biodiesel.

  15. Experiencias en métodos docentes

    OpenAIRE

    Escribano Otero, Juan José; García García, María José; Gómez Fernández, Estrella

    2008-01-01

    Una de las consecuencias más importantes del proceso de convergencia es la necesidad de revisar los métodos de enseñanza clásicos para ver cómo se adaptan al nuevo paradigma: el aprendizaje como centro del proceso. Y esta revisión es total: se revisan los métodos de transmisión del conocimiento, las técnicas para potenciar competencias, los métodos de evaluación del aprendizaje, los criterios de calidad de la docencia, los roles de alumnos y profesores… ¡todo! Una vez sup...

  16. Application of thermal lens technique to measure the thermal diffusivity of biodiesel blend

    Science.gov (United States)

    Sadrolhosseini, Amir Reza; Noor, A. S. M.; Mehdipour, Lotf Ali; Noura, Amin; Mahdi, Mohd Adzir

    2015-04-01

    Thermal diffusivity of palm biodiesel blends was measured using a thermal lens double beam setup. Palm biodiesel blends were prepared from a mixture of normal palm oil biodiesel and diesel fuel with the percentage of the mixture set in the range of 10-90 %. The thermal diffusivity of the palm biodiesel blends consistently increased by increasing the concentration of palm biodiesel from 0.784 × 10-7 to 1.056 × 10-7 m2/s and average of measurement limitation was 0.629 × 10-7 m2/s. Hence, thermal lens technique is suitable and accurate to assess the thermal diffusivity of palm biodiesel.

  17. Obtaining biodiesel from spanish used frying oil: Issues in meeting the EN 14214 biodiesel standard

    Energy Technology Data Exchange (ETDEWEB)

    Berrios, M.; Gutierrez, M.C.; Martin, M.A.; Martin, A. [Departamento de Quimica Inorganica e Ingenieria Quimica, Universidad de Cordoba, Campus Universitario de Rabanales, Edificio Marie Curie, 14071 Cordoba (Spain)

    2010-03-15

    The biodiesel production from Spanish used frying oils has been studied using two operation flow charts: two-step alkaline transesterification and sequential esterification-transesterification, followed by washing in water in both cases, in order to set out the most suitable operational conditions to achieve the highest FAME percentage in the shortest time. Sequential esterification-transesterification reached slightly better results than two-step alkaline transesterification. The resulting product cannot be called biodiesel as the specifications of EN 14214 Standards have not been met. Specifically, FAME content and kinematic viscosity were outside the requirements because of the chemical modifications which took place in the oil during cooking (presence of polar compounds). The influence of polar compounds on the processes has been studied by means of their analysis in the oil and the product. (author)

  18. Room temperature synthesis of biodiesel using sulfonated graphitic carbon nitride

    Science.gov (United States)

    Sulfonation of graphitic carbon nitride (g-CN) affords a polar and strongly acidic catalyst, Sg-CN, which displays unprecedented reactivity and selectivity in biodiesel synthesis and esterification reactions at room temperature.

  19. Effect of temperature on tribological properties of palm biodiesel

    Energy Technology Data Exchange (ETDEWEB)

    Haseeb, A.S.M.A.; Sia, S.Y.; Fazal, M.A.; Masjuki, H.H. [Department of Mechanical Engineering, University of Malaya, 50603 Kuala Lumpur (Malaysia)

    2010-03-15

    Biodiesel, as an alternative fuel is steadily gaining attention to replace petroleum diesel partially or completely. The tribological performance of biodiesel is crucial for its application in automobiles. In the present study, effect of temperature on the tribological performance of palm biodiesel was investigated by using four ball wear machine. Tests were conducted at temperatures 30, 45, 60 and 75 C, under a normal load of 40 kg for 1 h at speed 1200 rpm. For each temperature, the tribological properties of petroleum diesel (B0) and three biodiesel blends like B10, B20, B50 were investigated and compared. During the wear test, frictional torque was recorded on line. Wear scars in tested ball were investigated by optical microscopy. Results show that friction and wear increase with increasing temperature. (author)

  20. Biodiesel production from low cost and renewable feedstock

    Science.gov (United States)

    Gude, Veera; Grant, Georgene; Patil, Prafulla; Deng, Shuguang

    2013-12-01

    Sustainable biodiesel production should: a) utilize low cost renewable feedstock; b) utilize energy-efficient, nonconventional heating and mixing techniques; c) increase net energy benefit of the process; and d) utilize renewable feedstock/energy sources where possible. In this paper, we discuss the merits of biodiesel production following these criteria supported by the experimental results obtained from the process optimization studies. Waste cooking oil, non-edible (low-cost) oils (Jatropha curcas and Camelina Sativa) and algae were used as feedstock for biodiesel process optimization. A comparison between conventional and non-conventional methods such as microwaves and ultrasound was reported. Finally, net energy scenarios for different biodiesel feedstock options and algae are presented.

  1. Life cycle assessment of biodiesel production in China.

    Science.gov (United States)

    Liang, Sai; Xu, Ming; Zhang, Tianzhu

    2013-02-01

    This study aims to evaluate energy, economic, and environmental performances of seven categories of biodiesel feedstocks by using the mixed-unit input-output life cycle assessment method. Various feedstocks have different environmental performances, indicating potential environmental problem-shift. Jatropha seed, castor seed, waste cooking oil, and waste extraction oil are preferred feedstocks for biodiesel production in the short term. Positive net energy yields and positive net economic benefits of biodiesel from these four feedstocks are 2.3-52.0% of their life cycle energy demands and 74.1-448.4% of their economic costs, respectively. Algae are preferred in the long term mainly due to their less arable land demands. Special attention should be paid to potential environmental problems accompanying feedstock choice: freshwater use, ecotoxicity potentials, photochemical oxidation potential, acidification potential and eutrophication potential. Moreover, key processes are identified by sensitivity analysis to direct future technology improvements. Finally, supporting measures are proposed to optimize China's biodiesel development.

  2. Analysis of national Jatropha biodiesel programme in Senegal

    DEFF Research Database (Denmark)

    Dafrallah, Touria; Ackom, Emmanuel

    2016-01-01

    and other biodiesel crop options, based on findings from an agro-environmental mapping exercise have been shown. Findings show that prior policies in agricultural and energy sectors had been instrumental in developing the NJP. It highlights significant challenges in the value chain, the implementation...... of NJP and on the importance of using empirical assessment of evidence to inform on the biodiesel crop type compared to a focus on only one crop, Jatropha. Agro-environmental mapping was identified as useful technique prior to biodiesel cultivation. The work reported here indicates Jatropha having...... on the suitability of areas for Jatropha cultivation and on environmentally, socially and culturally sensitive areas. Policy options have been suggested for environmentally benigned sustained biodiesel activities in Senegal....

  3. Sustainable and Intensified Design of a Biodiesel Production Process

    DEFF Research Database (Denmark)

    Mansouri, Seyed Soheil; Ismail, Muhammad I.; Babi, Deenesh Kavi

    impact and maximum profitability is needed. In this work a computer-aided framework for process synthesis and process intensification is applied for sustainable production of biodiesel from pure/waste palm oil as the feedstock. This approach examines several biodiesel processing routes that were...... collected through available data and current technologies reported in the literature. Using this information, a generic superstructure of processing routes was created that described a network of configurations representing multiple designs for the production of biodiesel. Therefore, based on the currently...... of economic and environmental sustainability was identified. For the case of biodiesel production, the intensified process alternative turned out to be the most economical and more sustainable than other alternatives. The computer-aided methods and tools used in this work are: SustainPro (method and tool...

  4. Polymeric efficiency in remove impurities during cottonseed biodiesel production

    Science.gov (United States)

    Lin, H. L.; Liang, Y. H.; Yan, J.; Lin, H. D.; Espinosa, A. R.

    2016-07-01

    This paper describes a new process for developing biodiesel by polymer from crude cottonseed oil. The study was conducted to examine the effectiveness of the alkali transesterification-flocculation-sedimentation process on fast glycerol and other impurities in the separation from biodiesel by using quaternary polyamine-based cationic polymers SL2700 and polyacylamide cationic polymer SAL1100. The settling velocity of glycerol and other impurities in biodiesel was investigated through settling test experiments; the quality of the biodiesel was investigated by evaluating the viscosity and density. The results revealed that SL2700, SAL1100 and their combination dramatically improved the settling velocity of glycerol and other impurities materials than traditional method. SL 2700 with molecular weight of 0.2 million Da and charge density of 50% then plus SAL1100 with molecular weight of 11 million Da and charge density of 10% induced observable particle aggregation with the best settling performance.

  5. Prospective of biodiesel production utilizing microalgae as the cell ...

    African Journals Online (AJOL)

    STORAGESEVER

    2010-03-08

    Mar 8, 2010 ... light intensity, CO2 concentration, nutritional balance, etc, in closed reactors remain controlled. On the .... High photosynthesis yields, that is, about 3 – 8% of ... transesterification reaction to obtain biodiesel (Figure 3).

  6. Investigating the Production of Biodiesel from Alphonso Mango ...

    African Journals Online (AJOL)

    Investigating the Production of Biodiesel from Alphonso Mango Seed Oil. ... cetane number, kinematic viscosity, Iodine value, density and saponification value ... oil methyl ester could be used as an alternative to/or blended with petrodiesel.

  7. Production of biodiesel using lipase encapsulated in κ-carrageenan

    CERN Document Server

    Ravindra, Pogaku

    2015-01-01

    This book explores a novel technique for processing biodiesel using lipase immobilization by encapsulation and its physical properties, stability characteristics, and application in stirred tank and re-circulated packed bed immobilized reactors for biodiesel production. The enzymatic processing of biodiesel addresses many of the problems associated with chemical processing. It requires only moderate operating conditions and yields a high-quality product with a high level of conversion and the life cycle assessment of enzymatic biodiesel production has more favourable environmental consequences. The chemical processing problems of waste water treatment are lessened and soap formation is not an issue, meaning that waste oil with higher FFA can be used as the feedstock. The by product glycerol does not require any purification and it can be sold at higher price. However, soluble enzymatic processing is not perfect. It is costly, the enzyme cannot be recycled and its removal from the product is difficult. For...

  8. Biodiesel production from Jatropha curcas oil catalyzed by whole ...

    African Journals Online (AJOL)

    my mord

    2013-07-03

    Jul 3, 2013 ... reaction conditions for biodiesel production via transesterification between Jatropha curcas (physic nut) oil and ... to be a potential feedstock for enzyme produced bio- .... The growth rate of A. pullulans var. melanogenum SRY.

  9. Microbiologically Influenced Corrosion of Carbon Steel Exposed to Biodiesel

    Directory of Open Access Journals (Sweden)

    S. Malarvizhi

    2016-01-01

    Full Text Available Environmental concerns over worsening air pollution problems caused by emissions from vehicles and depletion of fossil fuels have forced us to seek fuels such as biodiesel which can supplement petrofuels. Biodiesels have the ability to retain water and provide a conducive environment for microbiologically influenced corrosion (MIC which may cause difficulties during transportation, storage, and their use. This paper analyses the influence of bacteria on the corrosivity of biodiesel obtained from Jatropha curcas on carbon steel using mass loss method. Carbon steel showed the highest corrosion rates in B100 (100% biodiesel both in the presence and in absence of bacteria. The surface analysis of the metal was carried out using SEM.

  10. Room temperature synthesis of biodiesel using sulfonated graphitic carbon nitride

    Science.gov (United States)

    Baig, R. B. Nasir; Verma, Sanny; Nadagouda, Mallikarjuna N.; Varma, Rajender S.

    2016-12-01

    Sulfonation of graphitic carbon nitride (g-CN) affords a polar and strongly acidic catalyst, Sg-CN, which displays unprecedented reactivity and selectivity in biodiesel synthesis and esterification reactions at room temperature.

  11. Biodiesel production from castor oil in Brazil: A difficult reality

    Energy Technology Data Exchange (ETDEWEB)

    Silva Cesar, Aldara da, E-mail: aldara@dep.ufscar.b [Federal University of Sao Carlos, Gepai - Grupo de Estudos e Pesquisas Agroindustriais, Departamento de Engenharia de Producao - UFSCar, Rodovia Washington Luis, km 235 - CEP 13565-905 - Sao Carlos - SP (Brazil); Otavio Batalha, Mario [Federal University of Sao Carlos, Gepai - Grupo de Estudos e Pesquisas Agroindustriais, Departamento de Engenharia de Producao - UFSCar, Rodovia Washington Luis, km 235 - CEP 13565-905 - Sao Carlos - SP (Brazil)

    2010-08-15

    The Brazilian National Program for Production and Use of Biodiesel (PNPB in Portuguese) has created a huge demand for biodiesel in Brazil. The PNPB is strongly based on social development through the inclusion of family farmers in projects integrated with biodiesel power plants. Among the various oilseeds, castor bean (Ricinus communis L.) was identified as the ideal one to promote social development in the semi-arid region. However, although promising, the mechanisms of the federal program are still insufficient to promote the effective participation of family farmers. This research shows that companies are facing huge problems in implementing contracts with family farmers. It describes and analyzes the functioning dynamics of this agro-production chain. This paper addresses the identification and the discussion of these obstacles, in order to increase the competitiveness of the biodiesel agribusiness chain, based on castor oil social projects in Brazil.

  12. Biodiesel production from castor oil in Brazil. A difficult reality

    Energy Technology Data Exchange (ETDEWEB)

    Silva Cesar, Aldara da; Otavio Batalha, Mario [Federal University of Sao Carlos, Gepai - Grupo de Estudos e Pesquisas Agroindustriais, Departamento de Engenharia de Producao - UFSCar, Rodovia Washington Luis, km 235 - CEP 13565-905 - Sao Carlos (Brazil)

    2010-08-15

    The Brazilian National Program for Production and Use of Biodiesel (PNPB in Portuguese) has created a huge demand for biodiesel in Brazil. The PNPB is strongly based on social development through the inclusion of family farmers in projects integrated with biodiesel power plants. Among the various oilseeds, castor bean (Ricinus communis L.) was identified as the ideal one to promote social development in the semi-arid region. However, although promising, the mechanisms of the federal program are still insufficient to promote the effective participation of family farmers. This research shows that companies are facing huge problems in implementing contracts with family farmers. It describes and analyzes the functioning dynamics of this agro-production chain. This paper addresses the identification and the discussion of these obstacles, in order to increase the competitiveness of the biodiesel agribusiness chain, based on castor oil social projects in Brazil. (author)

  13. Biodiesel From Alternative Oilseed Feedstocks: Production and Properties

    Science.gov (United States)

    Fatty acid methyl esters were prepared and evaluated as potential biodiesel fuels from several alternative oilseed feedstocks, which included camelina (Camelina sativa L.), coriander (Coriandrum sativum L.), field mustard (Brassica juncea L.), field pennycress (Thlaspi arvense L.), and meadowfoam (L...

  14. Using wet microalgae for direct biodiesel production via microwave irradiation.

    Science.gov (United States)

    Cheng, Jun; Yu, Tao; Li, Tao; Zhou, Junhu; Cen, Kefa

    2013-03-01

    To address the large energy consumption of microalgae dewatering and to simplify the conventional two-step method (cellular lipid extraction and lipid transesterification) for biodiesel production, a novel process for the direct conversion of wet microalgae biomass into biodiesel by microwave irradiation is proposed. The influences of conventional thermal heating and microwave irradiation on biodiesel production from wet microalgae biomass were investigated. The effects of using the one-step (simultaneous lipid extraction and transesterification) and two-step methods were also studied. Approximately 77.5% of the wet microalgal cell walls were disrupted under microwave irradiation. The biodiesel production rate and yield from wet microalgae biomass obtained through the one-step process using microwave irradiation were 6-fold and 1.3-fold higher than those from wet microalgae obtained through the two-step process using conventional heating.

  15. Biodiesel Production from Rubber Seed Oil via Esterification Process

    Directory of Open Access Journals (Sweden)

    W Widayat

    2012-07-01

    Full Text Available One promise source of alternative energy is biodiesel from rubber seed oil, because the raw materials available in plentiful quantities and can be renewed. In addition, the rubber seed is still lack of utilization, and Indonesia is one of the largest rubbers producing country in the world. The objective of this research is to studied on biodiesel production by esterification process. Parameters used in this study are the ratio of catalyst and temperature and its influence on the characteristics of the resulting biodiesel product. Characterization of rubber seed include acid content number analysis, saponification numbers, density, viscosity, iodine number, type of free fatty acids and triglyceride oils. The results of analysis showed that rubber seed oil content obtained is 50.5%. The results of the GCMS analysis showed that a free fatty acid level in rubber seed is very high. Conversion into bio-diesel oil is obtained by at most 59.91% and lowest 48.24%.

  16. Microreactors - a marvel of modern manufacturing technology: biodiesel case study

    CSIR Research Space (South Africa)

    Buddoo, SR

    2008-11-01

    Full Text Available Microreactors are miniature reactors for carrying out chemical reactions. CSIR Biosciences has been investigating the production of biodiesel using various sources of vegetable oils, for example, soya, sunflower, canada, Jatropha, palm and peanuts...

  17. Residual Glycerol from Biodiesel Manufacturing, Waste or Potential Source of Bioenergy: A Review Glicerol Residual de la Producción de Biodiesel, Residuo o Potencial Fuente de Energía: Una Revisión

    Directory of Open Access Journals (Sweden)

    Claudia Santibáñez

    2011-09-01

    ón del glicerol para ser utilizado en la industria de alimentos, farmacéutica o cosmética, los productores de biodiesel deben encontrar métodos alternativos de disposición. Varios estudios han demostrado que el uso de glicerol como fuente de C para la fermentación y generación de biogas es una alternativa prometedora para este residuo. El alto contenido de C del glicerol aumenta la relación C:N en la mezcla, evitando la inhibición del proceso por exceso de N, incrementando la producción de metano en los digestores entre 50 a 200%. La co-digestión anaeróbica del glicerol y una variedad de biomasa residual puede ser una solución integrada para gestionar estos residuos y producir una fuente de bioenergía amigable con el medioambiente. Por otra parte, el tratamiento anaeróbico del glicerol genera un residuo sólido rico en materia orgánica (bioabono. La incorporación del bioabono al suelo constituye una importante fuente de nutrientes y materia orgánica para las plantas. Sin embargo, el potencial de estos bioabonos como acondicionadores de suelos no ha sido suficientemente estudiado. La utilización del glicerol como potencial fuente de energía se presenta como una forma adecuada para bajar los costos de producción del biodiesel y hacer más competitiva a esta industria emergente.

  18. An evaluation of marine based biodiesel using GHGenius

    Energy Technology Data Exchange (ETDEWEB)

    NONE

    2004-11-25

    A project was conducted to add the commercial harvesting of fish and its reduction to proteins and oils to GHGenius, a model developed to analyze the emissions of contaminants associated with the production and use of traditional and alternative transportation fuels. The project also added the generic production of biodiesel from marine oils to GHGenius to compare results to a specific Canadian operation, Ocean Nutrition, which produces marine oil biodiesel. A biodiesel pathway was added to the model, utilizing marine oils as feedstock. The GHGenius was modified and expanded to allow the use of ethanol rather than methanol in the biodiesel production system. Another objective of the project was to address allocation issues raised by the co-production of biodiesel and the high value Omega-3 oils produced in the Ocean Nutrition process. A new pathway was fully integrated and used to analyze a number of cases including: a generic marine biodiesel case; the ocean nutrition case with system boundary conditions; and a more narrow interpretation of the Ocean Nutrition situation, treating oil from Omega 3 production as a by-product. Results indicated that emission benefits from the specific Ocean Nutrition case were about 65 per cent of the benefits of soy biodiesel because of the reduced co-product credit and the use of ethanol rather than methanol. The narrower view of the system boundary for the Ocean Nutrition process resulted in GHG emission reductions similar to soy biodiesel. Challenges to the development of marine biodiesel include the wide variations in harvesting practices and efficiencies of fisheries; different oil yields; and difficulties in arriving at a case that models the global fishery. It was concluded that governments should be careful about encouraging the development of marine based biodiesel. There was little net gain in the availability of diesel fuel as a result of the production and use of marine based biodiesel. Other considerations were that

  19. Physico-chemical characterization of biodiesel from pests attacked corn oil; Caracterizacao fisico-quimica do biodiesel de oleo de milho danificado por pragas

    Energy Technology Data Exchange (ETDEWEB)

    Carvalho, Fabia M.; Correa, Paulo C.; Martins, Marcio A.; Santos, Silmara B.; Damian, Amanda D. [Universidade Federal de Vicosa (UFV), MG (Brazil)], Emails: copace@ufv.br, aredes@ufv.br, syllmara@vicosa.ufv.br

    2009-07-01

    The biodiesel is a renewable energy source alternative to fossil fuels. The biodiesel synthesis can be made by many types of triglycerides transesterification, it is possible to use this biofuel in vehicles if it has the quality required from Agencia Nacional de Petroleo, Gas Natural e Biocombustiveis (ANP). Searching an application for pests attacked corn, there is feasibility technical for the biodiesel production from this corn oil. The biodiesel synthesis was made through ethyl transesterification process with alkaline catalyst using ethanol. The biodiesel physical-chemical characterization was performed using ANP methods. (author)

  20. Process intensification technologies for biodiesel production reactive separation processes

    CERN Document Server

    Kiss, A A

    2014-01-01

    This book is among the first to address the novel process intensification technologies for biodiesel production, in particular the integrated reactive separations. It provides a comprehensive overview illustrated with many industrially relevant examples of novel reactive separation processes used in the production of biodiesel (e.g. fatty acid alkyl esters): reactive distillation, reactive absorption, reactive extraction, membrane reactors, and centrifugal contact separators. Readers will also learn about the working principles, design and control of integrated processes, while also getting a

  1. Biodiesel de microalgas: avanços e desafios

    Directory of Open Access Journals (Sweden)

    André Luiz Custódio Franco

    2013-01-01

    Full Text Available Microalgae biomass has been described by several authors as the raw material with the greatest potential to meet the goals of replacing petroleum diesel by biodiesel while not competing with arable land suitable for food production. Research groups in different countries are seeking the most appropriate production model for productivity, economic viability and environmental sustainability. This review focused on recent advances and challenges of technology for the production of biodiesel from microalgae, including the procedures used to obtain biomass.

  2. Global sale of green air travel supported using biodiesel

    Energy Technology Data Exchange (ETDEWEB)

    Wardle, D.A. [Auckland (New Zealand)

    2003-02-01

    The technical feasibility of operating commercial aircraft on low concentration biodiesel in kerosene blends is reviewed. Although the analysis is preliminary, it seems plausible that a biodiesel component could be introduced without significant modification to aircraft, airport infrastructure, and flight operations. The use of a biodiesel component, even for only a subset of flight operations, would open the possibility of giving all passengers, the world over, regardless of route, the option to pay a premium to make their journey on 'green' fuel (actually biodiesel). In this way, the airline industry could recover the additional cost of biodiesel in comparison to kerosene. The costs associated with such a scheme are estimated, as is consumer demand. Although the analysis is preliminary, the scheme appears commercially viable. From a humanitarian and/or environmental perspective, marketing flight on biodiesel as 'green air travel' is problematic. On the one hand, the use of biodiesel in aviation would reduce addition of carbon dioxide to the atmosphere and foster development of sustainable technology. On the other hand, it would require that agricultural resources be dedicated to air travel, nominally a luxury, in a world where agricultural resources appear destined to come under increasing strain merely to satisfy humanity's basic food and energy needs. A preliminary discussion of these issues is presented. It is hoped that this can serve as the starting point for further discussion, at an international level, to reach consensus on whether marketing of flight on biodiesel as 'green air travel' should be allowed to proceed, or whether it should be declared unethical. (author)

  3. Thermal properties measurements in biodiesel oils using photothermal techniques

    Science.gov (United States)

    Castro, M. P. P.; Andrade, A. A.; Franco, R. W. A.; Miranda, P. C. M. L.; Sthel, M.; Vargas, H.; Constantino, R.; Baesso, M. L.

    2005-08-01

    In this Letter, thermal lens and open cell photoacoustic techniques are used to measure the thermal properties of biodiesel oils. The absolute values of the thermal effusivity, thermal diffusivity, thermal conductivity and the temperature coefficient of the refractive index were determined for samples obtained from soy, castor bean, sunflower and turnip. The results suggest that the employed techniques may be useful as complementary methods for biodiesel certification.

  4. Biodiesel production by chemical or enzymatic esterification of sunflower oil

    Energy Technology Data Exchange (ETDEWEB)

    Passarinho, Paula C.; Rosa, M. Fernanda; Oliveira, A.C.; Pingarilho, M.S.; Beirao, S.G.; Vieira, Ana Maria Soares

    1998-07-01

    In this work, two processes of sunflower oil transesterification, with methanol or ethanol, were studied for biodiesel production: chemical (catalyst- NaOH) and enzymatic (catalyst - rhizomucor miehei lipase). The chemical catalysis proved to be more efficient, having been obtained higher conversion yields and a better quality biodiesel, mainly in the case where methanol was used. The transesterification product had, in all cases, to be purified in order to be used as a diesel substitute.

  5. Calcium oxide based catalysts for biodiesel production: A review

    OpenAIRE

    Kesić Željka; Lukić Ivana; Zdujić Miodrag; Mojović Ljiljana; Skala Dejan

    2016-01-01

    Vegetable oils are mainly esters of fatty acids and glycerol, which can be converted to fatty acid methyl esters (FAME), also known as biodiesel, by the transesterification reaction with methanol. In order to attain environmental benignity, a large attention has been focused in the last decades on utilizing heterogeneous catalysts for biodiesel production instead the homogenously catalyzed transesterification of vegetable oil. The pure CaO or CaO mixed with...

  6. Biodiesel Fuel Production from Algae as Renewable Energy

    OpenAIRE

    Sharif Hossain, A.B.M.; Aishah Salleh; Amru Nasrulhaq Boyce; Partha chowdhury; Mohd Naqiuddin

    2008-01-01

    Biodiesel is biodegradable, less CO2 and NOx emissions. Continuous use of petroleum sourced fuels is now widely recognized as unsustainable because of depleting supplies and the contribution of these fuels to the accumulation of carbon dioxide in the environment. Renewable, carbon neutral, transport fuels are necessary for environmental and economic sustainability. Algae have emerged as one of the most promising sources for biodiesel production. It can be inferred that algae grown in CO...

  7. Current Status and Prospects of Biodiesel Production from Microalgae

    Directory of Open Access Journals (Sweden)

    Yuhuan Liu

    2012-07-01

    Full Text Available Microalgae represent a sustainable energy source because of their high biomass productivity and ability to remove air and water born pollutants. This paper reviews the current status of production and conversion of microalgae, including the advantages of microalgae biodiesel, high density cultivation of microalgae, high-lipid content microalgae selection and metabolic control, and innovative harvesting and processing technologies. The key barriers to commercial production of microalgae biodiesel and future perspective of the technologies are also discussed.

  8. Brown Grease to Biodiesel Demonstration Project Report

    Energy Technology Data Exchange (ETDEWEB)

    San Francisco Public Utilities Commission; URS Corporation; Biofuels, Blackgold; Carollo Engineers

    2013-01-30

    Municipal wastewater treatment facilities have typically been limited to the role of accepting wastewater, treating it to required levels, and disposing of its treatment residuals. However, a new view is emerging which includes wastewater treatment facilities as regional resource recovery centers. This view is a direct result of increasingly stringent regulations, concerns over energy use, carbon footprint, and worldwide depletion of fossil fuel resources. Resources in wastewater include chemical and thermal energy, as well as nutrients, and water. A waste stream such as residual grease, which concentrates in the drainage from restaurants (referred to as Trap Waste), is a good example of a resource with an energy content that can be recovered for beneficial reuse. If left in wastewater, grease accumulates inside of the wastewater collection system and can lead to increased corrosion and pipe blockages that can cause wastewater overflows. Also, grease in wastewater that arrives at the treatment facility can impair the operation of preliminary treatment equipment and is only partly removed in the primary treatment process. In addition, residual grease increases the demand in treatment materials such as oxygen in the secondary treatment process. When disposed of in landfills, grease is likely to undergo anaerobic decay prior to landfill capping, resulting in the atmospheric release of methane, a greenhouse gas (GHG). This research project was therefore conceptualized and implemented by the San Francisco Public Utilities Commission (SFPUC) to test the feasibility of energy recovery from Trap Waste in the form of Biodiesel or Methane gas. The research goals are given below: To validate technology performance; To determine the costs and benefits [including economic, socioeconomic, and GHG emissions reduction] associated with co-locating this type of operation at a municipal wastewater treatment plant (WWTP); To develop a business case or model for replication of the

  9. Biodiesel exhaust: the need for a systematic approach to health effects research.

    Science.gov (United States)

    Larcombe, Alexander N; Kicic, Anthony; Mullins, Benjamin J; Knothe, Gerhard

    2015-10-01

    Biodiesel is a generic term for fuel that can be made from virtually any plant or animal oil via transesterification of triglycerides with an alcohol (and usually a catalyst). Biodiesel has received considerable scientific attention in recent years, as it is a renewable resource that is directly able to replace mineral diesel in many engines. Additionally, some countries have mandated a minimum biodiesel content in all diesel fuel sold on environmental grounds. When combusted, biodiesel produces exhaust emissions containing particulate matter, adsorbed chemicals and a range of gases. In many cases, absolute amounts of these pollutants are lower in biodiesel exhaust compared with mineral diesel exhaust, leading to speculation that biodiesel exhaust may be less harmful to health. Additionally, engine performance studies show that the concentrations of these pollutants vary significantly depending on the renewable oil used to make the biodiesel and the ratio of biodiesel to mineral diesel in the fuel mix. Given the strategic and legislative push towards the use of biodiesel in many countries, a concerning possibility is that certain biodiesels may produce exhaust emissions that are more harmful to health than others. This variation suggests that a comprehensive, systematic and comparative approach to assessing the potential for a range of different biodiesel exhausts to affect health is urgently required. Such an assessment could inform biodiesel production priorities, drive research and development into new exhaust treatment technologies, and ultimately minimize the health impacts of biodiesel exhaust exposure.

  10. Design and optimisation of purification procedure for biodiesel washing

    Directory of Open Access Journals (Sweden)

    S.B. Glišić

    2009-09-01

    Full Text Available Almost complete methanolysis of triglycerides is usually not enough to fulfil the strict standards of biodiesel quality. A key step in this process is neutralization of alkali (catalyst followed by the washing procedure necessary for removing different impurities such as traces of catalyst and methanol and removal of soaps and glycerol from esters phase. The washing with hot water is still widely used in many industrial units for the biodiesel production. In this study, different procedures of biodiesel washing using hot water were investigated. The orto-phosphoric acid was suggested as the best compound for alkali catalyst (sodium hydroxide neutralization. The main goal of the performed analysis was to minimize the water usage in the washing-neutralization step during the biodiesel production. Such solution would make the process of biodiesel synthesis more economical taking into account the decrease of energy consumed for evaporation of water during the final product purification, as well as more acceptable procedure related to the impact on environment (minimal waste water release. Results of the performed simulation of the washing process supported by original experimental data suggested that neutralization after the optimized washing process of the methyl ester layer could be the best solution. The proposed washing procedure significantly decreases the amount of waste water giving at the same time the desired purity of final products (biodiesel and glycerol. The simulation of the process was performed using ASPEN plus software supported by ELCANTREL and UNIQUAC procedure of required properties calculation

  11. Sustaining Biodiesel Production via Value-Added Applications of Glycerol

    Directory of Open Access Journals (Sweden)

    Omotola Babajide

    2013-01-01

    Full Text Available The production of biofuels worldwide has been significant lately due to the shift from obtaining energy from nonrenewable energy (fossil fuels to renewable sources (biofuels. This energy shift arose as a result of the disturbing crude petroleum price fluctuations, uncertainties about fossil fuel reserves, and greenhouse gas (GHG concerns. With the production of biofuels increasing considerably and the current global biodiesel production from different feedstock, reaching about 6 billion liters per year, biodiesel production costs have been highly dependent on feedstock prices, ranging from 70 to 25; of total production costs, and in comparison with the conventional diesel fuel, the biodiesel is currently noncompetitive. An efficient production process is, therefore, crucial to lowering biodiesel production costs. The question of sustainability, however, arises, taking into account the African diverse conditions and how vital concerns need to be addressed. The major concern about biodiesel production costs can be reduced by finding value-added applications for its glycerol byproduct. This paper, thus, provides an overview of current research trends that could overcome the major hurdles towards profitable commercialization of biodiesel and also proposes areas of opportunity probable to capitalize the surplus glycerol obtained, for numerous applications.

  12. Oil extraction from plant seeds for biodiesel production

    Directory of Open Access Journals (Sweden)

    Yadessa Gonfa Keneni

    2017-04-01

    Full Text Available Energy is basic for development and its demand increases due to rapid population growth, urbanization and improved living standards. Fossil fuels will continue to dominate other sources of energy although it is non-renewable and harm global climate. Problems associated with fossil fuels have driven the search for alternative energy sources of which biodiesel is one option. Biodiesel is renewable, non-toxic, environmental-friendly and an economically feasible options to tackle the depleting fossil fuels and its negative environmental impact. It can be produced from vegetable oils, animal fats, waste oils and algae. However, nowadays, the major feedstocks of biodiesel are edible oils and this has created food vs fuel debate. Therefore, the future prospect is to use non-edible oils, animal fats, waste oils and algae as feedstock for biodiesel. Selection of non-expensive feedstock and the extraction and preparation of oil for biodiesel production is a crucial step due to its relevance on the overall technology. There are three main conventional oil extraction methods: mechanical, chemical/solvent and enzymatic extraction methods. There are also some newly developed oil extraction methods that can be used separately or in combination with the conventional ones, to overcome some disadvantages of the conventional oil extraction methods. This review paper presents, compare and discusses different potential biofuel feedstocks, various oil extraction methods, advantages and disadvantages of different oil extraction methods, and propose future prospective for the improvement of oil extraction methods and sustainability of biodiesel production and utilization.

  13. Biodiesel/Aquatic Species Project report, FY 1992

    Energy Technology Data Exchange (ETDEWEB)

    Brown, L.; Jarvis, E.; Dunahay, T.; Roessler, P.; Zeiler, K. [National Renewable Energy Lab., Golden, CO (United States); Sprague, S. [USDOE, Washington, DC (United States)

    1993-05-01

    The primary goal of the Biodiesel/Aquatic Species Project is to develop the technology for growing microalgae as a renewable biomass feedstock for the production of a diesel fuel substitute (biodiesel), thereby reducing the need for imported petroleum. Microalgae are of interest as a feedstock because of their high growth rates and tolerance to varying environmental conditions, and because the oils (lipids) they produce can be extracted and converted to substitute petroleum fuels such as biodiesel. Microalgae can be grown in arid and semi-arid regions with poor soil quality, and saline water from aquifers or the ocean can be used for growing microalgae. Biodiesel is an extremely attractive candidate to fulfill the need for a diesel fuel substitute. Biodiesel is a cleaner fuel than petroleum diesel; it is virtually free of sulfur, and emissions of hydrocarbons, carbon monoxide, and particulates during combustion are significantly reduced in comparison to emissions from petroleum diesel. Biodiesel provides essentially the same energy content and power output as petroleum-based diesel fuel.

  14. Evaluation of Biodiesel Production, Engine Performance, and Emissions

    Science.gov (United States)

    Gürü, Metin; Keskïn, Ali

    2016-08-01

    Nowadays, to decrease environmental pollution and dependence on fossil-based fuels, research on alternative renewable energy sources has been increasing. One such renewable energy source is biodiesel, which is used as an alternative fuel for diesel engines. Biodiesel is renewable, nontoxic, biodegradable, and environmentally friendly. Biodiesel is domestically produced from vegetable oil (edible or nonedible), animal fat, and used cooking oils. In the biodiesel production process, oil or fat undergoes transesterification reaction through use of simple alcohols such as methanol, ethanol, propanol, butanol, etc. Use of methanol is most feasible because of its low cost, and physical and chemical advantages. Acid catalysis, alkali catalysis, and enzyme catalysis are usually used to improve the reaction rate and yield. Glycerol is a byproduct of the reaction and can be used as an industrial raw material. In this study, biodiesel production methods (direct use, pyrolysis, microemulsion, transesterification, supercritical processes, ultrasound- assisted, and microwave-assisted) and types of catalyst (homogeneous, heterogeneous, and enzyme) have been evaluated and compared. In addition, the effects of biodiesel and its blends on diesel engine performance and exhaust emissions are described and reviewed.

  15. Sustainable Energy Production from Jatropha Bio-Diesel

    Science.gov (United States)

    Yadav, Amit Kumar; Krishna, Vijai

    2012-10-01

    The demand for petroleum has risen rapidly due to increasing industrialization and modernization of the world. This economic development has led to a huge demand for energy, where the major part of that energy is derived from fossil sources such as petroleum, coal and natural gas. Continued use of petroleum sourced fuels is now widely recognized as unsustainable because of depleting supplies. There is a growing interest in using Jatropha curcas L. oil as the feedstock for biodiesel production because it is non-edible and thus does not compromise the edible oils, which are mainly used for food consumption. Further, J. curcas L. seed has a high content of free fatty acids that is converted in to biodiesel by trans esterification with alcohol in the presence of a catalyst. The biodiesel produced has similar properties to that of petroleum-based diesel. Biodiesel fuel has better properties than petro diesel fuel; it is renewable, biodegradable, non-toxic, and essentially free of sulfur and aromatics. Biodiesel seems to be a realistic fuel for future. Biodiesel has the potential to economically, socially, and environmentally benefit communities as well as countries, and to contribute toward their sustainable development.

  16. Biodiesel Production from Microalgae by Extraction – Transesterification Method

    Directory of Open Access Journals (Sweden)

    Nguyen Thi Phuong Thao

    2013-11-01

    Full Text Available The environmental impact of using petroleum fuels has led to a quest to find a suitable alternative fuel source. In this study, microalgae were explored as a highly potential feedstock to produce biodiesel fuel. Firstly, algal oil is extracted from algal biomass by using organic solvents (n–hexan.  Lipid is contained in microalgae up to 60% of their weight. Then, Biodiesel is created through a chemical reaction known as transesterification between algal oil and alcohol (methanol with strong acid (such as H2SO4 as the catalyst. The extraction – transesterification method resulted in a high biodiesel yield (10 % of algal biomass and high FAMEs content (5.2 % of algal biomass. Biodiesel production from microalgae was studied through experimental investigation of transesterification conditions such as reaction time, methanol to oil ration and catalyst dosage which are deemed to have main impact on reaction conversion efficiency. All the parameters which were characterized for purified biodiesel such as free glycerin, total glycerin, flash point, sulfur content were analyzed according to ASTM standardDoi: http://dx.doi.org/10.12777/wastech.1.1.6-9Citation:  Thao, N.T.P., Tin, N.T., and Thanh, B.X. 2013. Biodiesel Production from Microalgae by Extraction – Transesterification Method. Waste Technology 1(1:6-9. Doi: http://dx.doi.org/10.12777/wastech.1.1.6-9

  17. Supercritical biodiesel production and power cogeneration: technical and economic feasibilities.

    Science.gov (United States)

    Deshpande, A; Anitescu, G; Rice, P A; Tavlarides, L L

    2010-03-01

    An integrated supercritical fluid technology with power cogeneration to produce biodiesel fuels, with no need for the costly separations involved with the conventional technology, is proposed, documented for technical and economic feasibility, and preliminarily designed. The core of the integrated system consists of the transesterification of various triglyceride sources (e.g., vegetable oils and animal fats) with supercritical methanol/ethanol. Part of the reaction products can be combusted by a diesel power generator integrated in the system which, in turn, provides the power needed to pressurize the system and the heat of the exhaust gases necessary in the transesterification step. The latter energy demand can also be satisfied by a fired heater, especially for higher plant capacities. Different versions of this system can be implemented based on the main target of the technology: biodiesel production or diesel engine applications, including power generation. The process options considered for biodiesel fuel production estimate break-even processing costs of biodiesel as low as $0.26/gal ($0.07/L) with a diesel power generator and $0.35/gal ($0.09/L) with a fired heater for a plant capacity of 15,000 gal/day (56,775 L/day). Both are significantly lower than the current processing costs of approximately $0.51/gal ($0.13/L) of biodiesel produced by conventional catalytic methods. A retail cost of biodiesel produced by the proposed method is likely to be competitive with the prices of diesel fuels.

  18. Study of the drivers of competitiveness of the Brazilian biodiesel; Estudo dos direcionadores de competitividade do biodiesel brasileiro

    Energy Technology Data Exchange (ETDEWEB)

    Cesar, Aldara da Silva; Batalha, Mario Otavio [Universidade Federal de Sao Carlos (UFSCar), SP (Brazil). Dept. de Engenharia de Producao; Monteiro, Marcos Roberto [Universidade Federal de Sao Carlos (UFSCar), SP (Brazil). Centro de Caracterizacao e Desenvolvimento de Materiais

    2008-07-01

    In the increasingly important role that the biofuel market takes in the new dynamic global competition, biodiesel emerges as a real alternative of implantation. In Brazil, this interest is not different. However, despite of biodiesel's enormous potential, there is a number of uncertainties that need to be investigated in order to produce a biodiesel which has its unique specifications and international quality recognized. The aim of this article is twofold: first, the information systematization of the Brazilian biodiesel production chain; and second, the analysis of drivers of competitiveness that affect that same production chain. Through the theory of systemic approach, each driver of competitiveness is described and its competitive environment is analyzed. The range of different raw materials and possible technological routes present numerous challenges for the agents of this chain. What increases the relevance of studies such as this is the notion that investigating the drives of competitiveness is the first step in overcoming these challenges. (author)

  19. Biodiesel and vegetable oil cogeneration systems: No boom in sight; Biodiesel- und Pflanzenoel-BHKW: Es plaetschert so dahin

    Energy Technology Data Exchange (ETDEWEB)

    Kiessling, K.P. [SenerTec, Schweinfurt (Germany); Wedekind, E. [Technologie fuer die Umwelt, Sachsen (Germany); Kramer, M. [Menag Energie GmbH, Engen (Germany)

    2003-09-29

    The market situation of biodiesel and vegetable oil fuelled cogeneration systems is outlined. There is a tabular survey and producers' statements which provide interesting information on this ecologically favourable but hardly profitable niche market. (orig.) [German] Nicht leicht zu deuten ist die derzeitige Marktsituation der mit Biodiesel bzw. Pflanzenoel betriebenen Blockheizkraftwerke. Die tabellarische Uebersicht auf Seite 84/85 liefert einen guten Ueberblick, die Stellungnahmen der Hersteller einen interessanten Einblick in diesen oekologischen, aber finanziell kaum rentablen Nischenmarkt. (orig.)

  20. Analisando o conteúdo da seção "Página do Estudante" dos Annaes de Enfermagem Analisando el contenido de la sección "Pagina del Estudiante" de los Annaes de Enfermagem Analysing the content of the section Students' page of the Annaes de Enfermagem

    Directory of Open Access Journals (Sweden)

    Marlene Nunes Morais Pereira

    2006-01-01

    Full Text Available A Revista Annaes Enfermagem foi um veiculo para retratar os problemas da saúde e evidenciar o exercício da profissão. A seção página do estudante foi criada para dar incentivo ao aluno, para expor suas idéias e focar pontos importantes na formação do enfermeiro da época. Este trabalho teve por objetivo analisar e descrever o conteúdo das publicações no período de 1932 a 1941. Trata-se de estudo de abordagem qualitativa pelo método histórico. Os principais elementos descritos na seção analisada estavam relacionados com os problemas de saúde, como escarlatina, tétano eclâmpsia. Conclui-se que o conteúdo do material analisado reflete que neste período existia uma preocupação com a preparação das alunas para suprir a necessidade vigente que o país atravessava.El periodico Annaes de Enfermagem ha sido el veiculo para discutir los problemas de salud y para evidenciar el professional rol. La sección "Pagina de estudiante" há sido creada para incentivar los estudiantes a exponer sus ideas y para focalisar en los puntos relevantes de formación del enfermero el aquelle tienpo . Esto estúdio objectivó describir y analisar el contenido de lo material publicado em el periodo de 1932 hasta 1941. Esto és um estudio con abordaje cualitativo usandoce el metodo historìco. Los principales elementos descriptos en la sección analisada estan relacionados a los problemas de salud colectiva como la escarlatina, tétano, eclampsia y tanbien a la ética. Se ha concluydo que el contenido del material analisado reflete que en el período analisado habia una preocupación com la preparación del studiante para atender a las necesidades de salud que el pais presentava.The journal Annaes de Enfermagem was a publishing vehicle to discuss health problems and to evidence the professional role. The section "Students Page" Was created for the motivation of students to expose their ideas and to focus in relevant points of the nurse education by

  1. Exergy analysis applied to biodiesel production

    Energy Technology Data Exchange (ETDEWEB)

    Talens, Laura; Villalba, Gara [SosteniPra UAB-IRTA. Environmental Science and Technology Institute (ICTA), Edifici Cn, Universitat Autonoma de Barcelona (UAB), 08193 Bellaterra, Cerdanyola del Valles, Barcelona (Spain); Gabarrell, Xavier [SosteniPra UAB-IRTA. Environmental Science and Technology Institute ICTA, Edifici Cn, Universitat Autonoma de Barcelona (UAB), 08193 Bellaterra (Cerdanyola del Valles), Barcelona (Spain); Department of Chemical Engineering, Universitat Autonoma de Barcelona (UAB), 08193 Bellaterra Cerdanyola del Valles, Barcelona (Spain)

    2007-08-15

    In our aim to decrease the consumption of materials and energy and promote the use of renewable resources, such as biofuels, rises the need to measure materials and energy fluxes. This paper suggests the use of Exergy Flow Analysis (ExFA) as an environmental assessment tool to account wastes and emissions, determine the exergetic efficiency, compare substitutes and other types of energy sources: all useful in defining environmental and economical policies for resource use. In order to illustrate how ExFA is used, it is applied to the process of biodiesel production. The results show that the production process has a low exergy loss (492 MJ). The exergy loss is reduced by using potassium hydroxide and sulphuric acid as process catalysts and it can be further minimised by improving the quality of the used cooking oil. (author)

  2. Formulação de biodiesel

    OpenAIRE

    Pinto, Maria Jorge Pratas de Melo

    2012-01-01

    O consumo de energia a nível mundial aumenta a cada dia, de forma inversa aos recursos fósseis que decrescem de dia para dia. O sector dos transportes é o maior consumidor deste recurso. Face ao actual cenário urge encontrar uma solução renovável e sustentável que permita não só, diminuir a nossa dependência de combustíveis fósseis mas fundamentalmente promover a sua substituição por energias de fontes renováveis. O biodiesel apresenta-se na vanguarda das alternativas aos co...

  3. Sustainable Future for Biodiesel in Brazil

    DEFF Research Database (Denmark)

    Dias, Maria Amélia de Paula

    This thesis aims to study alternatives to biodiesel industry in Brazil, for 2030, taking in account the sustainability dimensions, namely economic, environmental, ecological, social, national and international politics, territorial, cultural, and technological, through the development of scenarios...... of existing oil and waste today. A methodological discussion was also necessary to include sustainable dimensions on the scenario methods. Therefore, the environment, economics, technology, social, territorial, national and international institutional, cultural and political aspects were considered....... In order to carry on this work, it was necessary to develop a cross-disciplinary research, since sustainability requires a long run vision and a comprehensive approach. Brazil is a large country (851 Mha), with soil and weather conditions that are suitable to produce oilseeds, and available land...

  4. Characterization of crude glycerol from biodiesel plants.

    Science.gov (United States)

    Hu, Shengjun; Luo, Xiaolan; Wan, Caixia; Li, Yebo

    2012-06-13

    Characterization of crude glycerol is very important to its value-added conversion. In this study, the physical and chemical properties of five biodiesel-derived crude glycerol samples were determined. Three methods, including iodometric-periodic acid method, high performance liquid chromatography (HPLC), and gas chromatography (GC), were shown to be suitable for the determination of glycerol content in crude glycerol. The compositional analysis of crude glycerol was successfully achieved by crude glycerol fractionation and characterization of the obtained fractions (aqueous and organic) using titrimetric, HPLC, and GC analyses. The aqueous fraction consisted mainly of glycerol, methanol, and water, while the organic fraction contained fatty acid methyl esters (FAMEs), free fatty acids (FFAs), and glycerides. Despite the wide variations in the proportion of their components, all raw crude glycerol samples were shown to contain glycerol, soap, methanol, FAMEs, water, glycerides, FFAs, and ash.

  5. Biochemical responses in armored catfish (Pterygoplichthys anisitsi) after short-term exposure to diesel oil, pure biodiesel and biodiesel blends.

    Science.gov (United States)

    Nogueira, Lílian; da Silva, Danilo Grünig Humberto; Oliveira, Thiago Yukio Kikuchi; da Rosa, Joel Maurício Correa; Felício, Andréia Arantes; de Almeida, Eduardo Alves

    2013-09-01

    Biodiesel fuel is gradually replacing petroleum-based diesel oil use. Despite the biodiesel being considered friendlier to the environment, little is known about its effects in aquatic organisms. In this work we evaluated whether biodiesel exposure can affect oxidative stress parameters and biotransformation enzymes in armored catfish (Pterygoplichthys anisitsi, Loricariidae), a South American endemic species. Thus, fish were exposed for 2 and 7d to 0.01mLL(-1) and 0.1mLL(-1) of pure diesel, pure biodiesel (B100) and blends of diesel with 5% (B5) and 20% (B20) biodiesel. Lipid peroxidation (malondialdehyde) levels and the activities of the enzymes glutathione S-transferase, superoxide dismutase, catalase and glutathione peroxidase were measured in liver and gills. Also, DNA damage (8-oxo-7, 8-dihydro-2'-deoxyguanosine) levels in gills and 7-ethoxyresorufin-O-deethylase activity in liver were assessed. Pure diesel, B5 and B20 blends changed most of the enzymes tested and in some cases, B5 and B20 induced a higher enzyme activity than pure diesel. Antioxidant system activation in P. anisitsi was effective to counteract reactive oxygen species effects, since DNA damage and lipid peroxidation levels were maintained at basal levels after all treatments. However, fish gills exposed to B20 and B100 presented increased lipid peroxidation. Despite biodiesel being more biodegradable fuel that emits less greenhouse gases, the increased lipid peroxidation showed that biofuel and its blends also represent hazards to aquatic biota.

  6. Production of biodiesel from vegetable oils

    Directory of Open Access Journals (Sweden)

    Luque, Susana

    2008-03-01

    Full Text Available Biodiesel is produced by transesterification of triglycerides present in animal fat or vegetable oils, by displacing glycerine with a low molar mass alcohol. This resulting ester mixture has physico-chemical properties similar to those of petroleum diesel. This paper reviews the synthetic paths that lead to biodiesel by means of the catalytic transesterification of vegetable oils. Although methyl esters are at present the only ones produced at industrial scale, the use of ethanol, which can also be obtained from renewable resources, has been considered, since it would generate a cleaner and more biocompatible fuel.El biodiésel se produce mediante la transesterificación de triglicéridos, presentes en grasas animales o aceites vegetales, en un proceso en el que un alcohol de bajo peso molecular desplaza a la glicerina. La mezcla de esteres así resultante posee unas propiedades físico-químicas similares a las del diésel procedente de petróleo. En este artículo se revisan las vías de síntesis de biodiésel mediante la transesterificación catalítica de aceites vegetales. Aunque actualmente a escala industrial solo se producen ésteres metílicos, también se ha considerado el uso de etanol, ya que éste se obtiene también de fuentes renovables, generando así un combustible más limpio y biocompatible.

  7. Sustainable biocatalytic biodiesel production : A thermodynamic analysis

    Energy Technology Data Exchange (ETDEWEB)

    Guezel, G.

    2012-09-15

    In the present thesis it was aimed at achieving thermodynamic analysis of reactions involved in enzymatic biodiesel production with specific focus on chemical and phase equilibria of reactive systems. Lipase-catalyzed biodiesel production (biocatalytic ethanolysis) presents significant advantages: Easy recovery of glycerol, no complex down-processing operations for elimination of catalyst and salt, and requires less organic solvent and lower energy consumption compared with conventional chemical methods. In overall, the major aims of this thesis were evaluating and subsequently finding feasible solutions to the questions emerged during the corresponding studies that have been performed worldwide. Some of the questions that were answered as appropriate as possible can be listed as follows: 1) What is the solubility of EtOH in vegetable oils and in FAEE blends and how does it change with temperature? 2) Is it possible to prevent denaturing impact of EtOH on biocatalysts? 3) What are the feedstock content (water and FFA) impacts on glycerol and EtOH miscibility with ester species? 4) Is it necessary removing glycerol by-product simultaneously? 5) Is it feasible providing monophasic or homogeneous reaction media that procure lower external mass transfer resistance? 6) What are the moisture absorption limits of FAAE species? 7) How are the interactions of reactive species in terms of miscibility/immiscibility phenomena? 8) Is it thermodynamically feasible providing monophasic reaction media? 9) How can LLE and VLE phase behaviors help to determine optimum reaction conditions? 10) How can the results of LLE and VLE studies be used so as to determine appropriate refining operations? (LN)

  8. Calophyllum inophyllum L. as a future feedstock for bio-diesel production

    Energy Technology Data Exchange (ETDEWEB)

    Atabania, A.E. [Department of Mechanical Engineering, University of Khartoum (Sudan)], email: a_atabani2@msn.com, email: ardinsu@yahoo.co.id; Silitonga, A.S.; Mahlia, T.M.I.; Masjukia, H.H.; Badruddin, I.A. [University of Malaya (Malaysia)

    2011-07-01

    Due to the energy crisis and the concerns about climate change, the possibility of using biodiesel as an alternative energy resource has been examined. It has been found that biodiesel could be a solution for the future but the first generation of biodiesel, prepared from edible vegetable oils, has raised important concerns about food and environmental problems. The aim of this study is to assess if Calophyllum inophyllum, a non-edible oil, could be used for biodiesel production. Density, kinematic viscosity, cetane number, flashpoint and iodine value were determined on Calophyllum inophyllum trees from Cilacap, Indonesia and compared in light of ASTM D6751 biodiesel standards. It was found that Calophyllum inophyllum would be a satisfactory feedstock to produce biodiesel in the future. This study demonstrated that Calophyllum inophyllum has the potential to be a biodiesel feedstock and further research should be carried out on engine performance, combustion and emission performance of biodiesel produced from Calophyllum inophyllum.

  9. Effect of biodiesel addition on microbial community structure in a simulated fuel storage system.

    Science.gov (United States)

    Restrepo-Flórez, Juan-Manuel; Bassi, Amarjeet; Rehmann, Lars; Thompson, Michael R

    2013-11-01

    Understanding changes in microbial structure due to biodiesel storage is important both for protecting integrity of storage systems and fuel quality management. In this work a simulated storage system was used to study the effect of biodiesel (0%, 25%, 50%, 75% and 100%) on a microbial population, which was followed by community level physiological profiling (CLPP), 16s rDNA analysis and plating in selective media. Results proved that structure and functionality were affected by biodiesel. CLPP showed at least three populations: one corresponding to diesel, one to biodiesel and one to blends of diesel and biodiesel. Analysis of 16s rDNA revealed that microbial composition was different for populations growing in diesel and biodiesel. Genera identified are known for degradation of hydrocarbons and emulsifier production. Maximum growth was obtained in biodiesel; however, microbial counts in standard media were lower for this samples. Acidification of culture media was observed at high biodiesel concentration.

  10. Influence of Fatty Acid Methyl Esters on Fuel properties of Biodiesel ...

    African Journals Online (AJOL)

    biodiesel standards are exhaust emissions, lubricity ... oils are usually associated with low free fatty acid .... ensure good cold start properties and minimize the .... Blending effects of biodiesels on oxidation stability and low temperature flow ...

  11. Biodiesel forming reactions using heterogeneous catalysis

    Science.gov (United States)

    Liu, Yijun

    Biodiesel synthesis from biomass provides a means for utilizing effectively renewable resources, a way to convert waste vegetable oils and animal fats to a useful product, a way to recycle carbon dioxide for a combustion fuel, and production of a fuel that is biodegradable, non-toxic, and has a lower emission profile than petroleum-diesel. Free fatty acid (FFA) esterification and triglyceride (TG) transesterification with low molecular weight alcohols constitute the synthetic routes to prepare biodiesel from lipid feedstocks. This project was aimed at developing a better understanding of important fundamental issues involved in heterogeneous catalyzed biodiesel forming reactions using mainly model compounds, representing part of on-going efforts to build up a rational base for assay, design, and performance optimization of solid acids/bases in biodiesel synthesis. As FFA esterification proceeds, water is continuously formed as a byproduct and affects reaction rates in a negative manner. Using sulfuric acid (as a catalyst) and acetic acid (as a model compound for FFA), the impact of increasing concentrations of water on acid catalysis was investigated. The order of the water effect on reaction rate was determined to be -0.83. Sulfuric acid lost up to 90% activity as the amount of water present increased. The nature of the negative effect of water on esterification was found to go beyond the scope of reverse hydrolysis and was associated with the diminished acid strength of sulfuric acid as a result of the preferential solvation by water molecules of its catalytic protons. The results indicate that as esterification progresses and byproduct water is produced, deactivation of a Bronsted acid catalyst like H2SO4 occurs. Using a solid composite acid (SAC-13) as an example of heterogeneous catalysts and sulfuric acid as a homogeneous reference, similar reaction inhibition by water was demonstrated for homogeneous and heterogeneous catalysis. This similarity together with

  12. Performance characteristics of mix oil biodiesel blends with smoke emissions

    Directory of Open Access Journals (Sweden)

    Sanjay Mohite

    2016-08-01

    Full Text Available Fossil fuel resources are being depleted day by day and its use affects the environment adversely. Renewable energy is one of the alternate for sustainable development and biodiesel is one of the suitable alternate which can replace the diesel. The major hurdles in the successful commercialization of biodiesel are high feedstock cost and conversion technology to reduce viscosity. The choice of raw material and biodiesel production method must depend upon techno-economical view. There are some specific regions for different types of oil availability. It is therefore required to produce biodiesel from the mixture of oils to fulfill the requirements of energy demand in a particular country according to its suitability and availability of feedstock. Karanja and Linseed crops  are abundantly available in India. Biodiesel was produced from a mixture of Karanja and Linseed oils by alkaline transesterification. In this experimental study, biodiesel blends of 10%, 20% and 30% were used with diesel in a diesel engine at a constant speed of 1500 rpm with varying brake powers (loads from 0.5 kW to 3.5kW to evaluate brake thermal efficiency, brake specific fuel consumption,  brake specific energy consumption, exhaust gas temperature, mechanical efficiency, volumetric efficiency, air fuel ratio and smoke opacity. They were compared with diesel and found satisfactory. BTE was found to be  28.76% for B10 at 3.5kW load.  Smoke opacity was also found to be reduced with all blends. Smoke opacity was found to be reduced up to 10.23% for B10 biodiesel blend as compared to that of diesel at 3.5kW. Experimental investigation  has revealed that  biodiesel produced from a mixture of Karanja and Linseed oils can be successfully used in diesel engines without any engine modification  and B10 was found to be an optimum biodiesel blend in terms of brake thermal efficiency. Article History: Received April 14th 2016; Received in revised form June 25th 2016; Accepted

  13. A Decision Support System (DSS) for Project Management in the Bio-diesel Industry

    OpenAIRE

    Alin Paul OLTEANU

    2011-01-01

    The European biodiesel industry is currently facing several challenges affecting the profitability of investment projects in the industry. Among these challenges are higher prices for oilseeds, which are the main input for biodiesel production, lower fiscal support by national governments for biodiesel producers and high price volatility of oil markets. Thus identifying all opportunities for optimizing the value chain and lower the production cost of biodiesel is a main requirement for an eff...

  14. High-level expression and characterization of a chimeric lipase from Rhizopus oryzae for biodiesel production

    OpenAIRE

    Yu, Xiao-Wei; Sha, Chong; Guo, Yong-Liang; Xiao, Rong; Xu, Yan

    2013-01-01

    Background Production of biodiesel from non-edible oils is receiving increasing attention. Tung oil, called “China wood oil” is one kind of promising non-edible biodiesel oil in China. To our knowledge, tung oil has not been used to produce biodiesel by enzymatic method. The enzymatic production of biodiesel has been investigated extensively by using Rhizopus oryzae lipase as catalyst. However, the high cost of R. oryzae lipase remains a barrier for its industrial applications. Through differ...

  15. Production of Biodiesel from Lipid of Phytoplankton Chaetoceros calcitrans through Ultrasonic Method

    OpenAIRE

    Raymond Kwangdinata; Indah Raya; Muhammad Zakir

    2014-01-01

    A research on production of biodiesel from lipid of phytoplankton Chaetoceros calcitrans through ultrasonic method has been done. In this research, we carried out a series of phytoplankton cultures to determine the optimum time of growth and biodiesel synthesis process from phytoplankton lipids. Process of biodiesel synthesis consists of two steps, that is, isolation of phytoplankton lipids and biodiesel synthesis from those lipids. Oil isolation process was carried out by ultrasonic extracti...

  16. Dynamics of Peroxy and Alkenyl Radicals Undergoing Competing Rearrangements in Biodiesel Combustion

    Energy Technology Data Exchange (ETDEWEB)

    Dibble, Theodore S. [State Univ. of New York (SUNY), Syracuse, NY (United States)

    2016-03-24

    Biodiesel fuel is increasingly being used worldwide. Although we have a fair understanding of the molecular details of the chemistry of peroxy radicals derived from alkanes, biodiesel fuels contain ester and olefin groups which significantly impact the thermodynamics and kinetics of biodiesel ignition. The broader goal of this research is to carry out systematic computational studies of the elementary kinetics of the chemistry of ROO•, QOOH and •OOQOOH compounds that are models for biodiesel ignition.

  17. todos avanzados de muestreo : MCMC

    OpenAIRE

    Pascual Del Olmo, Víctor

    2011-01-01

    Este proyecto se propone estudiar, analizar e investigar las diferentes metodologías de generación de números aleatorios mediante técnicas avanzadas y modernas de Monte Carlo Markov Chain (MCMC). Los métodos de Monte Carlo son métodos numéricos usados para calcular, aproximar y simular expresiones o sistemas matemáticos complejos y difíciles de evaluar. Aunque estos métodos comenzaron a desarrollarse en los años cuarenta, hasta que las computadoras no se hicieron más potentes estuvieron en un...

  18. Potential use of eucalyptus biodiesel in compressed ignition engine

    Directory of Open Access Journals (Sweden)

    Puneet Verma

    2016-03-01

    Full Text Available The increased population has resulted in extra use of conventional sources of fuels due to which there is risk of extinction of fossil fuels’ resources especially petroleum diesel. Biodiesel is emerging as an excellent alternative choice across the world as a direct replacement for diesel fuel in vehicle engines. Biodiesel offers a great choice. It is mainly derived from vegetable oils, animal fats and algae. Hence in this paper effort has been made to find out feasibility of biodiesel obtained from eucalyptus oil and its impact on diesel engine. Higher viscosity is a major issue while using vegetable oil directly in engine which can be removed by converting it into biodiesel by the process of transesterification. Various fuel properties like calorific value, flash point and cetane value of biodiesel and biodiesel–diesel blends of different proportions were evaluated and found to be comparable with petroleum diesel. The result of investigation shows that Brake Specific Fuel Consumption (BSFC for two different samples of B10 blend of eucalyptus biodiesel is 2.34% and 2.93% lower than that for diesel. Brake Thermal Efficiency (BTE for B10 blends was found to be 0.52% and 0.94% lower than that for diesel. Emission characteristics show that Smoke Opacity improves for both samples, smoke is found to be 64.5% and 62.5% cleaner than that of diesel. Out of all blends B10 was found to be a suitable alternative to conventional diesel fuel to control air pollution without much significant effect on engine performance. On comparing both samples, biodiesel prepared from sample A of eucalyptus oil was found to be superior in all aspects of performance and emission.

  19. Biodiesel production from seed oil of Cleome viscosa L.

    Science.gov (United States)

    Kumari, Rashmi; Jain, Vinod Kumar; Kumar, Sushil

    2012-07-01

    Edible oil seed crops, such as rapeseed, sunflower, soyabean and safflower and non-edible seed oil plantation crops Jatropha and Pongamia have proved to be internationally viable commercial sources of vegetable oils for biodiesel production. Considering the paucity of edible oils and unsustainability of arable land under perennial plantation of Jatropha and Pongamia in countries such as India, the prospects of seed oil producing Cleome viscosa, an annual wild short duration plant species of the Indogangetic plains, were evaluated for it to serve as a resource for biodiesel. The seeds of C. viscosa resourced from its natural populations growing in Rajasthan, Haryana and Delhi areas of Aravali range were solvent extracted to obtain the seed oil. The oil was observed to be similar in fatty acid composition to the non-edible oils of rubber, Jatropha and Pongamia plantation crops and soybean, sunflower, safflower, linseed and rapeseed edible oil plants in richness of unsaturated fatty acids. The Cleome oil shared the properties of viscosity, density, saponification and calorific values with the Jatropha and Pongamia oils, except that it was comparatively acidic. The C. viscosa biodiesel had the properties of standard biodiesel specified by ASTM and Indian Standard Bureau, except that it had low oxidation stability. It proved to be similar to Jatropha biodiesel except in cloud point, pour point, cold filter plugging point and oxidation stability. In view of the annual habit of species and biodiesel quality, it can be concluded that C. viscosa has prospects to be developed into a short-duration biodiesel crop.

  20. A review on biodiesel production using catalyzed transesterification

    Energy Technology Data Exchange (ETDEWEB)

    Leung, Dennis Y.C.; Wu, Xuan; Leung, M.K.H. [Department of Mechanical Engineering, The University of Hong Kong, Pokfulam Road, Hong Kong (China)

    2010-04-15

    Biodiesel is a low-emissions diesel substitute fuel made from renewable resources and waste lipid. The most common way to produce biodiesel is through transesterification, especially alkali-catalyzed transesterification. When the raw materials (oils or fats) have a high percentage of free fatty acids or water, the alkali catalyst will react with the free fatty acids to form soaps. The water can hydrolyze the triglycerides into diglycerides and form more free fatty acids. Both of the above reactions are undesirable and reduce the yield of the biodiesel product. In this situation, the acidic materials should be pre-treated to inhibit the saponification reaction. This paper reviews the different approaches of reducing free fatty acids in the raw oil and refinement of crude biodiesel that are adopted in the industry. The main factors affecting the yield of biodiesel, i.e. alcohol quantity, reaction time, reaction temperature and catalyst concentration, are discussed. This paper also described other new processes of biodiesel production. For instance, the Biox co-solvent process converts triglycerides to esters through the selection of inert co-solvents that generates a one-phase oil-rich system. The non-catalytic supercritical methanol process is advantageous in terms of shorter reaction time and lesser purification steps but requires high temperature and pressure. For the in situ biodiesel process, the oilseeds are treated directly with methanol in which the catalyst has been preciously dissolved at ambient temperatures and pressure to perform the transesterification of oils in the oilseeds. This process, however, cannot handle waste cooking oils and animal fats. (author)

  1. Prediction of class membership of biodiesels using chemometrics.

    Science.gov (United States)

    Mustafa, Zylia; Milina, Rumyana; Simeonova, Pavlina A; Tsakovski, Stefan L; Simeonov, Vasil D

    2015-01-01

    Recently, serious scientific and technological attention is paid to creation of alternative energy sources, including biofuels. The assessment of the quality of the biofuels produced and of the raw materials needed for the production technology is an important scientific challenge. One of the major sources for biodiesel production is plant oils material (sunflower, rapeseed, palm, soya etc.). Since plants are complex system from the biota it is not easy to find specific chemical components responsible for their ability to serve as biodiesels. The characterization and classification of plant sources as biofuel material could be reliably estimated only by the use of multivariate statistical approaches (chemometrics). The chemometric expertise makes it possible not only to classify different biofuel sources into similarity classes but also to predict the membership of unknown by origin chemically analyzed samples to already existing classes. The present study deals with the prediction of the class membership of several unknown by origin samples, which are included in a large data set with FAME profiles of biodiesel plant sources. Using a data set from chromatographic analysis of fatty acid methyl esters profiles (FAME) of different plant biodiesel sources and applying the chemometric technique know as partial least squares-discriminant analysis (PLS - DA) a pattern recognition procedure is developed to: I. Model classes of similarity of biodiesel plant sources using their FAME profiles not taking into account the samples with unknown origin; II. Classify correctly the samples with unknown origin to the previously defined classes of biodiesel sources (palm oil, soybean oil, peanut oil, rapeseed oil, sunflower oil and maize oil). The prediction is successfully achieved for all samples with previously unknown origin. This pattern recognition approach is applied for the first time in the field of biodiesel classification and modeling tasks.

  2. Biodiesel from lignocellulosic biomass--prospects and challenges.

    Science.gov (United States)

    Yousuf, Abu

    2012-11-01

    Biodiesel can be a potential alternative to petroleum diesel, but its high production cost has impeded its commercialization in most parts of the world. One of the main drivers for the generation and use of biodiesel is energy security, because this fuel can be produced from locally available resources, thereby reducing the dependence on imported oil. Many countries are now trying to produce biodiesel from plant or vegetable oils. However, the consumption of large amounts of vegetable oils for biodiesel production could result in a shortage in edible oils and cause food prices to soar. Alternatively, the use of animal fat, used frying oils, and waste oils from restaurants as feedstock could be a good strategy to reduce the cost. However, these limited resources might not meet the increasing demand for clean, renewable fuels. Therefore, recent research has been focused the use of residual materials as renewable feedstock in order to lower the cost of producing biodiesel. Microbial oils or single cell oils (SCOs), produced by oleaginous microorganisms have been studied as promising alternatives to vegetable or seed oils. Various types of agro-industrial residues have been suggested as prospective nutritional sources for microbial cultures. Since the most abundant residue from agricultural crops is lignocellulosic biomass (LCB), this byproduct has been given top-priority consideration as a source of biomass for producing biodiesel. But the biological transformation of lignocellulosic materials is complicated due to their crystalline structure. So, pretreatment is required before they can be converted into fermentable sugar. This article compares and scrutinizes the extent to which various microbes can accumulate high levels of lipids as functions of the starting materials and the fermentation conditions. Also, the obstacles associated with the use of LCB are described, along with a potentially viable approach for overcoming the obstacles that currently preclude the

  3. Prospects of biodiesel from Jatropha in India: A review

    Energy Technology Data Exchange (ETDEWEB)

    Jain, Siddharth; Sharma, M.P. [Alternate Hydro Energy Centre, Indian Institute of Technology Roorkee, Roorkee 247667, Uttarakhand (India)

    2010-02-15

    The increasing industrialization and modernization of the world has to a steep rise for the demand of petroleum products. Economic development in developing countries has led to huge increase in the energy demand. In India, the energy demand is increasing at a rate of 6.5% per annum. The crude oil demand of the country is met by import of about 80%. Thus the energy security has become a key issue for the nation as a whole. Petroleum-based fuels are limited. The finite reserves are highly concentrated in certain regions of the world. Therefore, those countries not having these reserves are facing foreign exchange crises, mainly due to the import of crude oil. Hence it is necessary to look forward for alternative fuels, which can be produced from feedstocks available within the country. Biodiesel, an ecofriendly and renewable fuel substitute for diesel has been getting the attention of researchers/scientists of all over the world. The R and D has indicated that up to B20, there is no need of modification and little work is available related to suitability and sustainability of biodiesel production from Jatropha as non-edible oil sources. In addition, the use of vegetable oil as fuel is less polluting than petroleum fuels. The basic problem with biodiesel is that it is more prone to oxidation resulting in the increase in viscosity of biodiesel with respect to time which in turn leads to piston sticking, gum formation and fuel atomization problems. The report is an attempt to present the prevailing fossil fuel scenario with respect to petroleum diesel, fuel properties of biodiesel resources for biodiesel production, processes for its production, purification, etc. Lastly, an introduction of stability of biodiesel will also be presented. (author)

  4. Engineering an Escherichia coli platform to synthesize designer biodiesels.

    Science.gov (United States)

    Wierzbicki, Michael; Niraula, Narayan; Yarrabothula, Akshitha; Layton, Donovan S; Trinh, Cong T

    2016-04-20

    Biodiesels, fatty acid esters (FAEs), can be synthesized by condensation of fatty acid acyl CoAs and alcohols via a wax ester synthase in living cells. Biodiesels have advantageous characteristics over petrodiesels such as biodegradability, a higher flash point, and less emission. Controlling fatty acid and alcohol moieties are critical to produce designer biodiesels with desirable physiochemical properties (e.g., high cetane number, low kinematic viscosity, high oxidative stability, and low cloud point). Here, we developed a flexible framework to engineer Escherichia coli cell factories to synthesize designer biodiesels directly from fermentable sugars. In this framework, we designed each FAE pathway as a biodiesel exchangeable production module consisting of acyl CoA, alcohol, and wax ester synthase submodules. By inserting the FAE modules in an engineered E. coli modular chassis cell, we generated E. coli cell factories to produce targeted biodiesels (e.g., fatty acid ethyl (FAEE) and isobutyl (FAIbE) esters) with tunable and controllable short-chain alcohol moieties. The engineered E. coli chassis carrying the FAIbE production module produced 54mg/L FAIbEs with high specificity, accounting for>90% of the total synthesized FAEs and ∼4.7 fold increase in FAIbE production compared to the wildtype. Fed-batch cultures further improved FAIbE production up to 165mg/L. By mixing ethanol and isobutanol submodules, we demonstrated controllable production of mixed FAEEs and FAIbEs. We envision the developed framework offers a flexible, alternative route to engineer designer biodiesels with tunable and controllable properties using biomass-derived fermentable sugars. Copyright © 2016 Elsevier B.V. All rights reserved.

  5. Cold flow properties of biodiesel: A guide to getting an accurate analysis

    Science.gov (United States)

    Biodiesel has several advantages compared to conventional diesel fuel (petrodiesel). Nevertheless, biodiesel has poor cold flow properties that may restrict its use in moderate climates. It is essential that the cold flow properties of biodiesel and its blends with petrodiesel be measured as accurat...

  6. Aerobic Biodegradation Kinetics And Mineralization Of Six Petrodiesel/Soybean-Biodiesel Blends

    Science.gov (United States)

    The aerobic biodegradation kinetics and mineralization of six petrodiesel/soybean-biodiesel blends (B0, B20, B40, B60, B80, and B100), where B100 is 100% biodiesel, were investigated by acclimated cultures. The fatty acid methyl esters (FAMEs) of biodiesel were found to undergo ...

  7. DNA adducts induced by in vitro activation of extracts of diesel and biodiesel exhaust particles

    Science.gov (United States)

    AbstractContext: Biodiesel and biodiesel-blend fuels offer a renewable alternative to petroleum diesel, but few data are available concerning the carcinogenic potential of biodiesel exhausts. Objectives: We compared the formation of covalent DNA adducts by the in vitro metabol...

  8. Quantitative Investigations of Biodiesel Fuel Using Infrared Spectroscopy: An Instrumental Analysis Experiment for Undergraduate Chemistry Students

    Science.gov (United States)

    Ault, Andrew P.; Pomeroy, Robert

    2012-01-01

    Biodiesel has gained attention in recent years as a renewable fuel source due to its reduced greenhouse gas and particulate emissions, and it can be produced within the United States. A laboratory experiment designed for students in an upper-division undergraduate laboratory is described to study biodiesel production and biodiesel mixing with…

  9. 16 CFR Appendix A to Part 306 - Summary of Labeling Requirements for Biodiesel Fuels

    Science.gov (United States)

    2010-01-01

    ... Biodiesel Fuels A Appendix A to Part 306 Commercial Practices FEDERAL TRADE COMMISSION REGULATIONS UNDER... Part 306—Summary of Labeling Requirements for Biodiesel Fuels (Part 1 of 2) Fuel type Blends of 5 percent or less Blends of more than 5 but not more than 20 percent Header Text Color Biodiesel No...

  10. 76 FR 78290 - Cooperative Research and Development Agreement: Usage of Biodiesel Fuel Blends Within Marine...

    Science.gov (United States)

    2011-12-16

    ... SECURITY Coast Guard Cooperative Research and Development Agreement: Usage of Biodiesel Fuel Blends Within... technology enhancements, performance, costs, and other issues associated with using biodiesel fuel blends in... notice (investigating the use of biodiesel fuel blends in marine inboard engines) must reach the...

  11. [FTIR detection of unregulated emissions from a diesel engine with biodiesel fuel].

    Science.gov (United States)

    Tan, Pi-qiang; Hu, Zhi-yuan; Lou, Di-ming

    2012-02-01

    Biodiesel, as one of the most promising alternative fuels, has received more attention because of limited fossil fuels. A comparison of biodiesel and petroleum diesel fuel is discussed as regards engine unregulated exhaust emissions. A diesel fuel, a pure biodiesel fuel, and fuel with 20% V/V biodiesel blend ratio were tested without engine modification The present study examines six typical unregulated emissions by Fourier transform infrared spectroscopy (FTIR) method: formaldehyde (HCHO), acetaldehyde (C2 H4 O), acetone (C3 H6 O), toluene (C7 H8), sulfur dioxide (SO2), and carbon dioxide (CO2). The results show addition of biodiesel fuel increases the formaldehyde emission, and B20 fuel has little change, but the formaldehyde emission of pure biodiesel shows a clear trend of addition. Compared with the pure diesel fuel, the acetaldehyde of B20 fuel has a distinct decrease, and the acetaldehyde emission of pure biodiesel is lower than that of the pure diesel fuel at low and middle engine loads, but higher at high engine load. The acetone emission is very low, and increases for B20 and pure biodiesel fuels as compared to diesel fuel. Compared with the diesel fuel, the toluene and sulfur dioxide values of the engine show a distinct decrease with biodiesel blend ratio increasing. It is clear that the biodiesel could reduce aromatic compounds and emissions of diesel engines. The carbon dioxide emission of pure biodiesel has a little lower value than diesel, showing that the biodiesel benefits control of greenhouse gas.

  12. DNA adducts induced by in vitro activation of extracts of diesel and biodiesel exhaust particles

    Science.gov (United States)

    AbstractContext: Biodiesel and biodiesel-blend fuels offer a renewable alternative to petroleum diesel, but few data are available concerning the carcinogenic potential of biodiesel exhausts. Objectives: We compared the formation of covalent DNA adducts by the in vitro metabol...

  13. Aerobic Biodegradation Kinetics And Mineralization Of Six Petrodiesel/Soybean-Biodiesel Blends

    Science.gov (United States)

    The aerobic biodegradation kinetics and mineralization of six petrodiesel/soybean-biodiesel blends (B0, B20, B40, B60, B80, and B100), where B100 is 100% biodiesel, were investigated by acclimated cultures. The fatty acid methyl esters (FAMEs) of biodiesel were found to undergo ...

  14. Anaerobic Biodegradation of Soybean Biodiesel and Diesel Blends under Methanogenic Conditions

    Science.gov (United States)

    Biotransformation of soybean biodiesel and the inhibitory effect of petrodiesel were studied under methanogenic conditions. Biodiesel removal efficiency of more than 95% was achieved in a chemostat with influent biodiesel concentrations up to 2.45 g/L. The kinetics of anaerobic...

  15. Quantitative Investigations of Biodiesel Fuel Using Infrared Spectroscopy: An Instrumental Analysis Experiment for Undergraduate Chemistry Students

    Science.gov (United States)

    Ault, Andrew P.; Pomeroy, Robert

    2012-01-01

    Biodiesel has gained attention in recent years as a renewable fuel source due to its reduced greenhouse gas and particulate emissions, and it can be produced within the United States. A laboratory experiment designed for students in an upper-division undergraduate laboratory is described to study biodiesel production and biodiesel mixing with…

  16. Complete utilization of spent coffee grounds to produce biodiesel, bio-oil and biochar

    Science.gov (United States)

    This study presents the complete utilization of spent coffee grounds to produce biodiesel, bio-oil and biochar. Lipids extracted from spent grounds were converted to biodiesel to evaluate neat and blended (B5 and B20) fuel properties against ASTM and EN standards. Although neat biodiesel displayed h...

  17. EXTRAÇÃO DO MATERIAL LIPÍDICO PRESENTE NA ESCUMA E NO LODO DE ESGOTO SANITÁRIO ATRAVÉS DE DIFERENTES MÉTODOS

    Directory of Open Access Journals (Sweden)

    Hilquias Sabino Barros

    2015-12-01

    Full Text Available A reutilização do material lipídico (ML presente nos esgotos apresenta-se como alternativa de matéria-prima para a produção de biodiesel. Seu uso para obtenção de energia alternativa, trás consigo, benefícios como: disponibilidade imediata, baixo custo e minimização de problemas ambientais. Porém, muitos desafios como a complexidade da matriz, a porcentagem de óleo e a falta de tecnologias prontas para a extração e esterificação deste material, acompanham a confirmação da sua viabilidade técnica e precisam ser resolvidos. Desta forma, esta pesquisa teve como objetivo analisar qual o método de extração é mais eficiente para obtenção do ML da escuma e do lodo de esgoto, sendo estudados diferentes métodos de extração e diferentes tipos de solventes para a extração do óleo. Dentre esses métodos foi possível constatar que o método de Bligh&Dyer (1959, foi o mais eficiente com rendimento de aproximadamente 6% de ML extraído da escuma.  Porém, esse método é menos seletivo aos triglicerídeos que favoreceriam uma melhor conversão da matéria prima em biodiesel, o que deve considerar a boa porcentagem extraída dos outros métodos com o uso de hexano e ultrassom como potencialmente viáveis.

  18. Aproveitamento do Óleo das Amêndoas de Tucumã do Amazonas na Produção de Biodiesel The use of tucumã of amazonas kernel oil in the biodiesel production

    Directory of Open Access Journals (Sweden)

    Banny Silva Barbosa

    2009-01-01

    Full Text Available A falta de disponibilidade de energia elétrica é um dos principais motivos pelo baixo Índice de Desenvolvimento Humano das comunidades isoladas localizadas na Amazônia. O biodiesel produzido a partir de óleos vegetais extraídos de espécies oleaginosas nativas de forma sustentada é uma das melhores alternativas energéticas para a região. O tucumã do amazonas, Astrocaryum aculeatum, é uma espécie de palmeira que produz um fruto muito apreciado na região, a partir do qual se obtém uma amêndoa com alto teor de óleo. Nesse estudo, foi avaliada a produção de biodiesel etílico, a partir de diferentes lotes de óleos de tucumã do amazonas, com índices de acidez baixos e elevados, pela transesterificação por catálise básica e ácida homogêneas, respectivamente. Na catálise ácida, foram testados HCl e H2SO4 como catalisadores nas concentrações de 0,0625 a 1,000 M, empregando etanol hidratado na proporção molar de 1:6 e a reação conduzida a 90 ºC por 24 h. Na catálise básica, foram testados NaOH e KOH, nas proporções de 0,5 a 2,0 %, empregando etanol anidro na proporção molar de 1:12 e a reação conduzida a 80 ºC por 2 h. O biodiesel obtido em cada experimento foi analisado por métodos físicos (massa específica e cromatográficos (CLAE em fase reversa. Análises cromatográficas indicaram que as melhores conversões foram alcançadas por amostras de biodiesel com massas específicas inferiores a 0,87 g.cm-1. As amostras de biodiesel obtidas com melhor qualidade foram obtidas utilizando-se os catalisadores ácidos a 1,0 M com rendimentos superiores a 90%. No caso da catálise básica, obteve-se biodiesel de boa qualidade empregando-se o catalisador NaOH a 2,0%, porém com rendimento inferior a 60 %. Contudo, em ambos os casos, foi possível identificar um excelente potencial de produção de biocombustível, a partir do óleo das amêndoas de tucumã.The shortage of electricity is a major reason for the low

  19. todos de costeo"

    Directory of Open Access Journals (Sweden)

    Julio Castellanos Elías

    2003-01-01

    Full Text Available En este artículo se presentan los resultados de los trabajos de investigación que sobre ABC se han realizado, así como la reflexión a que me condujo el encontrar algunos textos nacionales que abordan este método de costeo. El método ABC es una herramienta novedosa que permite mayor precisión al determinar costos que el método tradicional. Tiene su aplicación natural en el comercio y en los servicios, aunque también es susceptible de utilizarse en la fabricación; sin embargo, es necesario reconocer que el método plantea problemas en su implantación y en su operación, y que muchas veces han querido soslayar sus adherentes

  20. Western Kentucky University Research Foundation Biodiesel Project

    Energy Technology Data Exchange (ETDEWEB)

    Pan, Wei-Ping [Principal Investigator; Cao, Yan [Co-Principal Investigator

    2013-03-15

    Petroleum-based liquid hydrocarbons is exclusively major energy source in the transportation sector. Thus, it is the major CO{sub 2} source which is the associated with greenhouse effect. In the United States alone, petroleum consumption in the transportation sector approaches 13.8 million barrels per day (Mbbl/d). It is corresponding to a release of 0.53 gigatons of carbon per year (GtC/yr), which accounts for approximate 7.6 % of the current global release of CO{sub 2} from all of the fossil fuel usage (7 GtC/yr). For the long term, the conventional petroleum production is predicted to peak in as little as the next 10 years to as high as the next 50 years. Negative environmental consequences, the frequently roaring petroleum prices, increasing petroleum utilization and concerns about competitive supplies of petroleum have driven dramatic interest in producing alternative transportation fuels, such as electricity-based, hydrogen-based and bio-based transportation alternative fuels. Use of either of electricity-based or hydrogen-based alternative energy in the transportation sector is currently laden with technical and economical challenges. The current energy density of commercial batteries is 175 Wh/kg of battery. At a storage pressure of 680 atm, the lower heating value (LHV) of H{sub 2} is 1.32 kWh/liter. In contrast, the corresponding energy density for gasoline can reach as high as 8.88 kWh/liter. Furthermore, the convenience of using a liquid hydrocarbon fuel through the existing infrastructures is a big deterrent to replacement by both batteries and hydrogen. Biomass-derived ethanol and bio-diesel (biofuels) can be two promising and predominant U.S. alternative transportation fuels. Both their energy densities and physical properties are comparable to their relatives of petroleum-based gasoline and diesel, however, biofuels are significantly environmental-benign. Ethanol can be made from the sugar-based or starch-based biomass materials, which is easily

  1. Use of clays for purification of biodiesel; Utilizacao de argilas para purificacao de biodiesel

    Energy Technology Data Exchange (ETDEWEB)

    Paula, Andreia Juliana Almeida de; Kruegel, Marlus; Miranda, Joao Paulo; Rossi, Luciano Fernando dos Santos; Costa Neto, Pedro Ramos da, E-mail: pedroneto@utfpr.edu.b [Universidade Tecnologica Federal do Parana (UTFPR), Curitiba, PR (Brazil). Depts. de Quimica, Biologia e Mecanica

    2011-07-01

    This work describes the results of the purification of methyl biodiesel, obtained by oxidized soybean oil, using different methods. After the ester separation from the glycerin by decanting, the ester was purified each time with distillation, washing with water and adsorption with bauxite, bentonite and attapulgite. The removal of total contamination, unsaponifiable material, concentrations of free glycerin and soap were analyzed in the purified ester phase. The best result of purification was observed with the use of bentonite and bauxite, in the removal of soap and free glycerin respectively. (author)

  2. An experimental study on thermal stability of biodiesel fuel

    Science.gov (United States)

    Zhu, Yiying

    Biodiesel fuel, as renewable energy, has been used in conventional diesel engines in pure form or as biodiesel/diesel blends for many years. However, thermal stability of biodiesel and biodiesel/diesel blends has been minimally explored. Aimed to shorten this gap, thermal stability of biodiesel is investigated at high temperatures. In this study, batch thermal stressing experiments of biodiesel fuel were performed in stainless steel coils at specific temperature and residence time range from 250 to 425 °C and 3 to 63 minutes, respectively. Evidence of different pathways of biodiesel fuel degradation is demonstrated chromatographically. It was found that biodiesel was stable at 275 °C for a residence time of 8 minutes or below, but the cis-trans isomerization reaction was observed at 28 minutes. Along with isomerization, polymerization also took place at 300 °C at 63 minutes. Small molecular weight products were detected at 350 °C at 33 minutes resulting from pyrolysis reactions and at 360 °C for 33 minutes or above, gaseous products were produced. The formed isomers and dimers were not stable, further decomposition of these compounds was observed at high temperatures. These three main reactions and the temperature ranges in which they occurred are: isomerization, 275--400 °C; polymerization (Diels-Alder reaction), 300--425 °C; pyrolysis reaction, ≥350 °C. The longer residence time and higher temperature resulted in greater decomposition. As the temperature increased to 425 °C, the colorless biodiesel became brownish. After 8 minutes, almost 84% of the original fatty acid methyl esters (FAMEs) disappeared, indicating significant fuel decomposition. A kinetic study was also carried out subsequently to gain better insight into the biodiesel thermal decomposition. A three-lump model was proposed to describe the decomposition mechanism. Based on this mechanism, a reversible first-order reaction kinetic model for the global biodiesel decomposition was shown to

  3. Determination of antioxidant content in biodiesel by fluorescence spectroscopy

    Energy Technology Data Exchange (ETDEWEB)

    Magalhaes, Keurison F.; Caires, Anderson R.L. [Universidade Federal da Grande Dourados, MS (Brazil). Grupo de Optica Aplicada; Oliveira, Samuel L. [Universidade Federal de Mato Grosso do Sul (UFMS), MS (Brazil). Grupo de Optica e Fotonica

    2011-07-01

    Full text. Biodiesel is an alternative fuel composed by mono-alkyl esters obtained from vegetable oils or animal fats. Due to its chemical structure, biodiesel is highly susceptible to oxidation which leads to formation of insoluble gums and sediments that can block the filter system of fuel injection. Biodiesel made from vegetable oils typically has a small amount of natural antioxidants so that it is necessary to add synthetic antioxidants to enhance its stability and retain their properties for a longer period. The main antioxidants are synthetic phenolic compounds such as butylated hydroxyanisole (BHA), butylated hydroxytoluene (BHT) and tert-butyl hydroquinone (TBHQ) as well as natural antioxidants as tocopherols. The fluorescence spectroscopy has been applied for determination of phenolic compounds in oils. Here, a method based on fluorescence is proposed to quantify the BHA and TBHQ antioxidant concentration in biodiesel produced from sunflower and soybean oils. Soybean and sunflower biodiesel were obtained by transesterification of fatty alcohol in the presence of NaOH as catalyst. The reactions were carried out in the molar ratio of 6:1 methanol/oil. After the production and purification, biodiesel samples were stored. Biodiesel samples with BHA and TBHQ concentrations from 1000 to 8000 ppm (m/m) were pre- pared. These samples were diluted in ethanol (95%) in order to measure the fluorescence spectra. Fluorescence and excitation spectra of the solutions were recorded at room temperature using a spectrofluorimeter. The emission spectra were obtained under excitation at about 310nm and fluorescence in the 320-800nm range was evaluated. Biodiesel samples without BHA and TBHQ showed fluorescence band at about 420nm, which can be attributed to tocopherols inherent to the vegetable oils used in the biodiesel production. The addition of BHA and/or TBHQ is responsible for the appearance of a fluorescence band around 330nm. It was verified that the fluorescence

  4. Comparative Analysis of Biodiesels from Calabash and Rubber Seeds Oils

    Directory of Open Access Journals (Sweden)

    J.O. Awulu

    2015-07-01

    Full Text Available Physicochemical properties of biodiesel from vegetable oils depend on the inherent properties of the oil-producing seeds. The purpose of this study is to investigate the physicochemical properties of biodiesels extracted from calabash and rubber seeds oils, as well as their combined oil mixtures with a view to ascertaining the most suitable for biodiesel production. Calabash and rubber seeds oils were separately extracted through the use of a mechanical press with periodic addition of water. Biodiesels were produced from each category of the oils by transesterification of the free fatty acid (FFA with alcohol under the influence of a catalyst in batch process. The physicochemical properties of the biodiesels were investigated and comparatively analysed. The results obtained indicated an average of 1.40 wt% FFA for biodiesel produced from the purified calabash oil, which has a specific gravity of 0.920, pH of 5.93, flash point of 116 0C, fire point of 138 0C, cloud point of 70 0C, pour point of -4 0C, moisture content of 0.82 wt% and specific heat capacity of 5301 J/kgK. Conversely, the results obtained for biodiesel produced from the purified rubber oil showed an average of 33.66 wt% FFA, specific gravity of 0.885, pH of 5.51, flash point of 145 0C, fire point of 170 0C, cloud point of 10 0C, pour point of 4 0C, moisture content of 1.30 wt% and specific heat capacity of 9317 J/kgK. However, results obtained for biodiesel produced from the combined oil mixtures indicated an average of 19.77 wt% FFA content, specific gravity of 0.904, API gravity of 25.036, pH value of 5.73, flash point of 157 0C, Fire point of 180 0C, cloud point of 9 0C, pour point of 5 0C, moisture content of 0.93 wt% and specific heat capacity of 6051 J/kgK. Biodiesel produced from calabash seed oil is superior in quality to rubber seed oil, particularly in terms of its low FFA and moisture contents.

  5. Evolution of oxidation in soybean oil and its biodiesel under the conditions of the oxidation stability test

    Directory of Open Access Journals (Sweden)

    Pereira, G. G.

    2013-12-01

    Full Text Available The objective of this study was to know the evolution of the oxidation of soybean oil and biodiesel under the conditions of the oxidation stability test (110 °C using the Rancimat apparatus. Samples were analyzed at different periods of time until the end of the induction period. The analytical determinations related to the changes in oxidation include peroxide value, anisidine value, natural tocopherols and polar compounds. Acid value, kinematic viscosity, polymers and ester content were also analyzed because of their relevance in the evaluation of biodiesel quality. Results showed that only peroxide value and the group of polar compounds including hydroperoxides, i.e. oxidized monomeric TAG in the oil and oxidized monomeric FAME in the biodiesel increased significantly during the early oxidation stage. The end of the induction period was marked by a rapid increase in polymerization compounds and the exhaustion of tocopherols. Significant changes in acid value, viscosity and ester content were only observed after the end of the induction period.El objetivo de este estudio fue conocer la evolución de la oxidación del aceite de soja y de su biodiesel a 110 °C en las condiciones del método estándar para la determinación de la estabilidad oxidativa, usando el aparato Rancimat. Las muestras se analizaron en diferentes períodos de tiempo hasta que el período de inducción fue sobrepasado. Se determinaron los índices de peróxidos y anisidina, los tocoferoles y los compuestos polares cuyos cambios están relacionados con el desarrollo de la alteración oxidativa. Además, fueron determinados el índice de acidez, la viscosidad y el contenido en ésteres, de interés en el análisis de la calidad del biodiesel. Los resultados indicaron que sólo el índice de peróxidos y el grupo de compuestos polares que incluye los hidroperóxidos (triglicéridos oxidados monómeros en el aceite y ésteres metílicos oxidados monómeros en el biodiesel

  6. Utilización de lipasas en la producción de un nuevo tipo de biodiesel que evita la generación de glicerol

    OpenAIRE

    Verdugo, Cristóbal

    2012-01-01

    Los altos precios de los combustibles derivados del petróleo están ocasionando una intensificación de la investigación de los métodos de producción de los biocombustibles, con la idea de optimizar la producción de combustibles de origen no fósil para reducir la dependencia del petróleo. En los actuales procesos de producción de biodiesel, con independencia de la escala o el tipo de proceso utilizado (continuo o discontinuo), se emplean de forma casi generalizada catalizadores en fase homog...

  7. A Comprehensive Review of Effect of Biodiesel Additives on Properties, Performance, and Emission

    Science.gov (United States)

    Madiwale, S.; Karthikeyan, A.; Bhojwani, V.

    2017-05-01

    Objectives:- To presents the literature review on effect of biodiesel additives on properties, performance and on emission. Method:-In the current paper reviews are taken from previous years paper which necessitates the need of addition of additives in the blends of biodiesel and studied the its effect on properties, performance and emissions. Emissions from the diesel powered vehicles mostly damaged the earth’s environment and also increased the overall earth’s temperature. This attracts the need of alternative fuels in the field of transportation sector. Past inventions and research showed that Biodiesel can be used as an alternative fuel for the diesel engine. Biodiesel have good combustion characteristics because of their long chain hydrocarbon structure. However biodiesel possesses few disadvantages such as lower heating value, higher flow ability, much high density and not able to flow at low temperature. Higher rate of fuel consumption is identified and higher level of NOx emissions when biodiesel used in an engine as an alternative fuels. Findings:-Different additives such as antioxidants, improvers for cetane number, cold flow properties improver, etc were investigated by the many researcher and scientists and added in the different feedstock of biodiesel or blends of biodiesel with diesel in different proportions. Directly or indirectly fuel additives can improve the reduction in the emissions, improve the fuel economy, and reduce the dependency of the one’s nation on other. Performances of biodiesel vehicles were drastically improved because of additioninthe blends of biodiesel with diesel fuel in specific percentages to meet the international emission standards. Addition of additives in the biodiesel or in the blends of biodiesel basically changes the high temperature and low temperature flow properties of blends of biodiesel. Current paper finds and compares properties of different additives and its effect on blends of biodiesel properties

  8. Effects of concentration and temperature on tribological properties of biodiesel

    Directory of Open Access Journals (Sweden)

    De-Xing Peng

    2015-11-01

    Full Text Available For tribologists, continuing challenges in engine design include reduced emissions and increased operating temperatures. Regulating the sulfur content in diesel fuel is expected to reduce the lubricity of these fuels, which may result in increased wear and damage of fuel injection systems in diesel engines. However, the use of biodiesel improves lubricity and cetane number requirements, particularly in ultra-low sulfur petro-diesel. In this study, the effect of temperature on the tribological properties of palm biodiesel was investigated using a wear machine. Palm biodiesel was used as a lubricating additive to petro-diesel at six concentrations of 2%, 5%, 10%, 20%, 50%, and 100%, and these biodiesel blends were named as B2, B5, B10, B20, B50, and B100, respectively. The tribological experiments were performed using the ball-on-ring method. Tests were conducted at 30°C, 60°C, 90°C, and 120°C, under a normal load of 50 N for 2 h and at a speed of 500 r/min. The wear scar diameter and the worn surface of tribopairs were studied and analyzed. According to the wear experimental results, the addition of a small amount of palm biodiesel to petroleum diesel can bring about a considerable reduction in the wear and friction under boundary lubrication. Results show that friction and wear increase with increasing temperature.

  9. Life cycle assessment of palm-derived biodiesel in Taiwan

    KAUST Repository

    Maharjan, Sumit

    2016-10-01

    In Taiwan, due to the limited capacity of waste cooking oil, palm oil has been viewed as the potential low-cost imported feedstock for producing biodiesel, in the way of obtaining oil feedstock in Malaysia and producing biodiesel in Taiwan. This study aims to evaluate the cradle-to-grave life cycle environmental performance of palm biodiesel within two different Asian countries, Malaysia and Taiwan. The phases of the life cycle such as direct land-use-change impact, plantation and milling are investigated based on the Malaysia case and those of refining, and fuel production as well as engine combustion is based on Taiwan case. The greenhouse gas (GHG) emission and energy consumption for the whole life cycle were calculated as −28.29 kg CO2-equiv. and +23.71 MJ/kg of palm-derived biodiesel. We also analyze the impacts of global warming potential (GWP) and the payback time for recovering the GHG emissions when producing and using biodiesel. Various scenarios include (1) clearing rainforest or peat-forest; (2) treating or discharging palm-oil-milling effluent (POME) are further developed to examine the effectiveness of improving the environmental impacts © 2016 Springer-Verlag Berlin Heidelberg

  10. Cultivation of freshwater microalgae in biodiesel wash water.

    Science.gov (United States)

    Sassi, Patrícia Giulianna Petraglia; Calixto, Clediana Dantas; da Silva Santana, Jordana Kaline; Sassi, Roberto; Costa Sassi, Cristiane Francisca; Abrahão, Raphael

    2017-06-21

    Biodiesel wash water is a contaminating industrial effluent that must be treated prior to disposal. The use of this effluent as a low-cost alternative cultivation medium for microalgae could represent a viable supplementary treatment. We cultivated 11 microalgae species with potential use for biodiesel production to assess their growth capacities in biodiesel industrial washing waters. Only Monoraphidium contortum, Ankistrodesmus sp., Chlorococcum sp., and one unidentified Chlorophyceae species grew effectively in that effluent. M. contortum showed the highest growth capacity and had the second highest fatty acid content (267.9 mg g(-1) of DW), predominantly producing palmitic (20.9%), 7,10,13-hexadecatrienoic (14%), oleic (16.2%), linoleic (10.5%), and linolenic acids (23.2%). In the second phase of the experiment, the microalgae were cultivated in biodiesel wash water at 75% of its initial concentration as well as in WC (control) medium. After 21 days of cultivation, 25.8 and 7.2% of the effluent nitrate and phosphate were removed, respectively, and the chemical oxygen demand was diminished by 31.2%. These results suggest the possibility of cultivating biodiesel producing microalgae in industrial wash water effluents.

  11. Conversion of lipid from food waste to biodiesel.

    Science.gov (United States)

    Karmee, Sanjib Kumar; Linardi, Darwin; Lee, Jisoo; Lin, Carol Sze Ki

    2015-07-01

    Depletion of fossil fuels and environmental problems are encouraging research on alternative fuels of renewable sources. Biodiesel is a promising alternative fuel to be used as a substitute to the petroleum based diesel fuels. However, the cost of biodiesel production is high and is attributed mainly to the feedstock used which leads to the investigation of low cost feedstocks that are economically feasible. In this paper, we report on the utilization of lipid obtained from food waste as a low-cost feedstock for biodiesel production. Lipid from food waste was transesterified with methanol using base and lipase as catalysts. The maximum biodiesel yield was 100% for the base (KOH) catalyzed transesterification at 1:10M ratio of lipid to methanol in 2h at 60°C. Novozyme-435 yielded a 90% FAME conversion at 40°C and 1:5 lipid to methanol molar ratio in 24h. Lipid obtained from fungal hydrolysis of food waste is found to be a suitable feedstock for biodiesel production.

  12. Ionic liquid supported acid/base-catalyzed production of biodiesel.

    Science.gov (United States)

    Lapis, Alexandre A M; de Oliveira, Luciane F; Neto, Brenno A D; Dupont, Jairton

    2008-01-01

    The transesterification (alcoholysis) reaction was successfully applied to synthesize biodiesel from vegetable oils using imidazolium-based ionic liquids under multiphase acidic and basic conditions. Under basic conditions, the combination of the ionic liquid 1-n-butyl-3-methylimidazolium bis(trifluoromethylsulfonyl)imide (BMINTf2), alcohols, and K2CO3 (40 mol %) results in the production of biodiesel from soybean oil in high yields (>98%) and purity. H2SO4 immobilized in BMINTf2 efficiently promotes the transesterification reaction of soybean oil and various primary and secondary alcohols. In this multiphase process the acid is almost completely retained in the ionic liquid phase, while the biodiesel forms a separate phase. The recovered ionic liquid containing the acid could be reused at least six times without any significant loss in the biodiesel yield or selectivity. In both catalytic processes (acid and base), the reactions proceed as typical multiphasic systems in which the formed biodiesel accumulates as the upper phase and the glycerol by-product is selectively captured by the alcohol-ionic liquid-acid/base phase. Classical ionic liquids such as 1-n-butyl-3-methylimidazolium tetrafluoroborate and hexafluorophosphate are not stable under these acidic or basic conditions and decompose.

  13. Noncatalytic biodiesel fuel production from croton megalocarpus oil

    Energy Technology Data Exchange (ETDEWEB)

    Kafuku, G.; Mbarawa, M. [Department of Mechanical Engineering, Tshwane University of Technology, Pretoria (South Africa); Tan, K.T.; Lee, K.T. [School of Chemical Engineering, Universiti Sains Malaysia, Engineering Campus, Seri Ampangan, Nibong Tebal, Pulau Pinang (Malaysia)

    2011-11-15

    Biodiesel is currently considered as the most promising substitute for diesel fuel because of its similar properties to diesel. This study presents the use of the supercritical methanol method in the production of biodiesel from Croton megalocarpus oil. The reaction parameters such as methanol-to-oil ratio, reaction temperature and reaction time were varied to obtain the optimal reaction conditions by design of experiment, specifically, response surface methodology based on three-variable central composite design with {alpha}=2. It has been shown that it is possible to achieve methyl ester yields as high as 74.91 % with reaction conditions such as 50:1 methanol-to-oil molar ratio, 330 C reaction temperature and a reaction period of 20 min. However, Croton-based biodiesel did not sustain higher temperatures due to decomposition of polyunsaturated methyl linoleate, which is dominant in biodiesel. Lower yields were observed when higher temperatures were used during the optimization process. The supercritical methanol method showed competitive biodiesel yields when compared with catalytic methods. (Copyright copyright 2011 WILEY-VCH Verlag GmbH and Co. KGaA, Weinheim)

  14. Solid Catalysts and theirs Application in Biodiesel Production

    Directory of Open Access Journals (Sweden)

    Ramli Mat

    2012-12-01

    Full Text Available The reduction of oil resources and increasing petroleum price has led to the search for alternative fuel from renewable resources such as biodiesel. Currently biodiesel is produced from vegetable oil using liquid catalysts. Replacement of liquid catalysts with solid catalysts would greatly solve the problems associated with expensive separation methods and corrosion problems, yielding to a cleaner product and greatly decreasing the cost of biodiesel production. In this paper, the development of solid catalysts and its catalytic activity are reviewed. Solid catalysts are able to perform trans-esterification and esterification reactions simultaneously and able to convert low quality oils with high amount of Free Fatty Acids. The parameters that effect the production of biodiesel are discussed in this paper. Copyright © 2012 by BCREC UNDIP. All rights reservedReceived: 6th April 2012, Revised: 24th October 2012, Accepted: 24th October 2012[How to Cite: R. Mat, R.A. Samsudin, M. Mohamed, A. Johari, (2012. Solid Catalysts and Their Application in Biodiesel Production. Bulletin of Chemical Reaction Engineering & Catalysis, 7(2: 142-149. doi:10.9767/bcrec.7.2.3047.142-149] [How to Link / DOI: http://dx.doi.org/10.9767/bcrec.7.2.3047.142-149 ] | View in 

  15. Ultrasound Assisted Esterification of Rubber Seed Oil for Biodiesel Production

    Directory of Open Access Journals (Sweden)

    Berkah Fajar Tamtomo Kiono

    2012-02-01

    Full Text Available roduction of biodiesel is currently shifting from the first to the second generation in which the raw materials are mostly from non-edible type oils and fats. Biodiesel production is commonly conducted under batch operation using mechanical agitation to accelerate mass transfers. The main drawback of oil esterification is the high content of free fatty acids (FFA which may reduce the yield of biodiesel and prolong the production time (2-5 hours. Ultrasonification has been used in many applications such as component extraction due to its ability to produce cavitation under certain frequency. This research is aimed to facilitate ultrasound system for improving biodiesel production process particularly rubber seed oil. An ultrasound unit was used under constant temperature (40oC and frequency of 40 Hz. The result showed that ultrasound can reduces the processing time and increases the biodiesel yield significantly. A model to describe correlation of yield and its independent variables is yield (Y = 43,4894 – 0,6926 X1 + 1,1807 X2 – 7,1042 X3 + 2,6451 X1X2 – 1,6557 X1X3 + 5,7586 X2X3 - 10,5145 X1X2X3, where X1 is mesh sizes, X2 ratio oil: methanol and X3 type of catalyst.

  16. Thermoeconomic Analysis of Biodiesel Production from Used Cooking Oils

    Directory of Open Access Journals (Sweden)

    Emilio Font de Mora

    2015-05-01

    Full Text Available Biodiesel from used cooking oil (UCO is one of the most sustainable solutions to replace conventional fossil fuels in the transport sector. It can achieve greenhouse gas savings up to 88% and at the same time reducing the disposal of a polluting waste. In addition, it does not provoke potential negative impacts that conventional biofuels may eventually cause linked to the use of arable land. For this reason, most policy frameworks favor its consumption. This is the case of the EU policy that double-counters the use of residue and waste use to achieve the renewable energy target in the transport sector. According to different sources, biodiesel produced from UCO could replace around 1.5%–1.8% of the EU-27 diesel consumption. This paper presents an in-depth thermoeconomic analysis of the UCO biodiesel life cycle to understand its cost formation process. It calculates the ExROI value (exergy return on investment and renewability factor, and it demonstrates that thermoeconomics is a useful tool to assess life cycles of renewable energy systems. It also shows that UCO life cycle biodiesel production is more sustainable than biodiesel produced from vegetable oils.

  17. Biodiesel from Forsythia suspense [(Thunb.) Vahl (Oleaceae)] seed oil.

    Science.gov (United States)

    Jiao, Jiao; Gai, Qing-Yan; Wei, Fu-Yao; Luo, Meng; Wang, Wei; Fu, Yu-Jie; Zu, Yuan-Gang

    2013-09-01

    In the present work, Forsythia suspense seed oil (FSSO) was investigated for the first time as an alternative non-conventional feedstock for the preparation of biodiesel. The FSSO yield is 30.08±2.35% (dry weight of F. suspense seed basis), and the oil has low acid value (1.07 mg KOH/g). The fatty acid composition of FSSO exhibits the predominance of linoleic acid (72.89%) along with oleic acid (18.68%) and palmitic acid (5.65%), which is quite similar to that of sunflower oil. Moreover, microwave-assisted transesterification process of FSSO with methanol in the presence of potassium hydroxide catalyst was optimized and an optimal biodiesel yield (90.74±2.02%) was obtained. Furthermore, the fuel properties of the biodiesel product were evaluated as against ASTM D-6751 biodiesel standards and an acceptable agreement was observed except the cetane number. Overall, this study revealed the possibility of FSSO as a potential resource of biodiesel feedstock.

  18. Integrated biodiesel production: a comparison of different homogeneous catalysts systems

    Energy Technology Data Exchange (ETDEWEB)

    Vicente, Gemma; Martinez, Mercedes; Aracil, Jose [Complutense Univ., Dept. of Chemical Engineering, Madrid (Spain)

    2004-05-01

    The most common catalysts for biodiesel production are homogeneous basic catalysts. In the present paper, a comparison is made of different basic catalysts (sodium methoxide, potassium methoxide, sodium hydroxide and potassium hydroxide) for methanolysis of sunflower oil. All the reactions were carried out under the same experimental conditions in a batch stirred reactor and the subsequent separation and purification stages in a decanter. The analytical methods included gas chromatography and the determination of fat and oil conventional parameters. The biodiesel purity was near 100 wt. % for all catalysts. However, near 100 wt. % biodiesel yields were only obtained with the methoxide catalysts. According to the material balance of the process, yield losses were due to triglyceride saponification and methyl ester dissolution in glycerol. Obtained biodiesel met the measured specifications, except for the iodine value, according to the German and EU draft standards. Although all the transesterification reactions were quite rapid and the biodiesel layers achieved nearly 100% methyl ester concentrations, the reactions using sodium hydroxide turned out the fastest. (Author)

  19. Evaluación de los efectos ambientales de la gasolina, diesel, biodiesel y etanol carburante en Colombia por medio del análisis de ciclo de vida

    OpenAIRE

    Buitrago Tello, Rodrigo

    2014-01-01

    El Análisis de Ciclo de Vida (ACV) es un método para determinar las cargas ambientales de un producto durante todo su ciclo, “desde su cuna hasta la tumba”. Este estudio presenta el ACV para la producción de gasolina, diésel, biodiesel y bioetanol en Colombia, empleando el software de uso libre OpenLCA. Para el inventario de emisiones del ACV se empleó la base de datos Ecoinvent V 2.2 y diferentes referencias bibliográficas. Como métodos de análisis de impacto se empleó el método Potencial de...

  20. Enhancing clostridial acetone-butanol-ethanol (ABE) production and improving fuel properties of ABE-enriched biodiesel by extractive fermentation with biodiesel.

    Science.gov (United States)

    Li, Qing; Cai, Hao; Hao, Bo; Zhang, Congling; Yu, Ziniu; Zhou, Shengde; Chenjuan, Liu

    2010-12-01

    The extractive acetone-butanol-ethanol (ABE) fermentations of Clostridium acetobutylicum were evaluated using biodiesel as the in situ extractant. The biodiesel preferentially extracted butanol, minimized product inhibition, and increased production of butanol (from 11.6 to 16.5 g L⁻¹) and total solvents (from 20.0 to 29.9 g L⁻¹) by 42% and 50%, respectively. The fuel properties of the ABE-enriched biodiesel obtained from the extractive fermentations were analyzed. The key quality indicators of diesel fuel, such as the cetane number (increased from 48 to 54) and the cold filter plugging point (decreased from 5.8 to 0.2 °C), were significantly improved for the ABE-enriched biodiesel. Thus, the application of biodiesel as the extractant for ABE fermentation would increase ABE production, bypass the energy intensive butanol recovery process, and result in an ABE-enriched biodiesel with improved fuel properties.

  1. Using near-infrared overtone regions to determine biodiesel content and adulteration of diesel/biodiesel blends with vegetable oils.

    Science.gov (United States)

    de Vasconcelos, Fernanda Vera Cruz; de Souza, Paulo Fernandes Barbosa; Pimentel, Maria Fernanda; Pontes, Márcio José Coelho; Pereira, Claudete Fernandes

    2012-02-24

    This work evaluates the use of near-infrared (NIR) overtone regions to determine biodiesel content, as well potential adulteration with vegetable oil, in diesel/biodiesel blends. For this purpose, NIR spectra (12,000-6300 cm(-1)) were obtained using three different optical path lengths: 10 mm, 20 mm and 50 mm. Two strategies of regression with variable selection were evaluated: partial least squares (PLS) with significant regression coefficients selected by Jack-Knife algorithm (PLS/JK) and multiple linear regression (MLR) with wavenumber selection by successive projections algorithm (MLR/SPA). For comparison, the results obtained by using PLS full-spectrum models are also presented. In addition, the performance of models using NIR (1.0 mm optical path length, 9000-4000 cm(-1)) and MIR (UATR - universal attenuated total reflectance, 4000-650 cm(-1)) spectral regions was also investigated. The results demonstrated the potential of overtone regions with MLR/SPA regression strategy to determine biodiesel content in diesel/biodiesel blends, considering the possible presence of raw oil as a contaminant. This strategy is simple, fast and uses a fewer number of spectral variables. Considering this, the overtone regions can be useful to develop low cost instruments for quality control of diesel/biodiesel blends, considering the lower cost of optical components for this spectral region.

  2. Combustion, emission and engine performance characteristics of used cooking oil biodiesel - A review

    Energy Technology Data Exchange (ETDEWEB)

    Enweremadu, C.C. [Department of Mechanical Engineering, Vaal University of Technology, Private Bag X021, Vanderbijlpark 1900 (South Africa); Rutto, H.L. [Department of Chemical Engineering, Vaal University of Technology, Private Bag X021, Vanderbijlpark 1900 (South Africa)

    2010-12-15

    As the environment degrades at an alarming rate, there have been steady calls by most governments following international energy policies for the use of biofuels. One of the biofuels whose use is rapidly expanding is biodiesel. One of the economical sources for biodiesel production which doubles in the reduction of liquid waste and the subsequent burden of sewage treatment is used cooking oil (UCO). However, the products formed during frying, such as free fatty acid and some polymerized triglycerides, can affect the transesterification reaction and the biodiesel properties. This paper attempts to collect and analyze published works mainly in scientific journals about the engine performance, combustion and emissions characteristics of UCO biodiesel on diesel engine. Overall, the engine performance of the UCO biodiesel and its blends was only marginally poorer compared to diesel. From the standpoint of emissions, NOx emissions were slightly higher while un-burnt hydrocarbon (UBHC) emissions were lower for UCO biodiesel when compares to diesel fuel. There were no noticeable differences between UCO biodiesel and fresh oil biodiesel as their engine performances, combustion and emissions characteristics bear a close resemblance. This is probably more closely related to the oxygenated nature of biodiesel which is almost constant for every biodiesel (biodiesel has some level of oxygen bound to its chemical structure) and also to its higher viscosity and lower calorific value, which have a major bearing on spray formation and initial combustion. (author)

  3. Biodiesel Production by Reactive Flash: A Numerical Simulation

    Directory of Open Access Journals (Sweden)

    Alejandro Regalado-Méndez

    2016-01-01

    Full Text Available Reactive flash (RF in biodiesel production has been studied in order to investigate steady-state multiplicities, singularities, and effect of biodiesel quality when the RF system approaches to bubble point. The RF was modeled by an index-2 system of differential algebraic equations, the vapor split (ϕ was computed by modified Rachford-Rice equation and modified Raoult’s law computed bubble point, and the continuation analysis was tracked on MATCONT. Results of this study show the existence of turning points, leading to a unique bubble point manifold, (xBiodiesel,T=(0.46,478.41 K, which is a globally stable flashing operation. Also, the results of the simulation in MATLAB® of the dynamic behavior of the RF show that conversion of triglycerides reaches 97% for a residence time of 5.8 minutes and a methanol to triglyceride molar flow ratio of 5 : 1.

  4. Lipase-catalyzed biodiesel synthesis with different acyl acceptors

    Directory of Open Access Journals (Sweden)

    Ognjanović Nevena D.

    2008-01-01

    Full Text Available Biodiesel is an alternative fuel for diesel engine that is environmentally acceptable. Conventionally, biodiesel is produced by transesterification of triglycerides and short alcohols in the presence of an acid or an alkaline catalyst. There are several problems associated with this kind of production that can be resolved by using lipase as the biocatalyst. The aim of the present work was to investigate novel acyl acceptors for biodiesel production. 2-Propanol and n-butanol have a less negative effect on lipase stability, and they also improve low temperature properties of the fuel. However, excess alcohol leads to inactivation of the enzyme, and glycerol, a major byproduct, can block the immobilized enzyme, resulting in low enzymatic activity. This problem was solved by using methyl acetate as acyl acceptor. Triacetylglycerol is produced instead of glycerol, and it has no negative effect on the activity of the lipase.

  5. Whole-cell biocatalysts for biodiesel fuel production.

    Science.gov (United States)

    Fukuda, H; Hama, S; Tamalampudi, S; Noda, H

    2008-12-01

    Biodiesel fuel (BDF), which refers to fatty acid alkyl esters, has attracted considerable attention as an environmentally friendly alternative fuel for diesel engines. Alkali catalysis is widely applied for the commercial production of BDF. However, enzymatic transesterification offers considerable advantages, including reducing process operations in biodiesel fuel production and an easy separation of the glycerol byproduct. The high cost of the lipase enzyme is the main obstacle for a commercially feasible enzymatic production of biodiesel fuels. To reduce enzyme associated process costs, the immobilization of fungal mycelium within biomass support particles (BSPs) as well as expression of the lipase enzyme on the surface of yeast cells has been developed to generate whole-cell biocatalysts for industrial applications.

  6. Sustainable and Intensified Design of a Biodiesel Production Process

    DEFF Research Database (Denmark)

    Mansouri, Seyed Soheil; Ismail, Muhammad I.; Babi, Deenesh Kavi

    for process sustainability analysis), ECON (method and tool for process economic analysis), LCSoft (method and tool for process lifecycle assessment analysis) and process simulation software (e.g. PRO/II, ASPEN Plus, ICAS). They are all used in an integrated framework for process synthesis....... impact and maximum profitability is needed. In this work a computer-aided framework for process synthesis and process intensification is applied for sustainable production of biodiesel from pure/waste palm oil as the feedstock. This approach examines several biodiesel processing routes that were...... collected through available data and current technologies reported in the literature. Using this information, a generic superstructure of processing routes was created that described a network of configurations representing multiple designs for the production of biodiesel. Therefore, based on the currently...

  7. Biodegradation of diesel/biodiesel blends in saturated sand microcosms

    DEFF Research Database (Denmark)

    Lisiecki, Piotr; Chrzanowski, Łukasz; Szulc, Alicja

    2014-01-01

    The aim of the study was to evaluate the biodegradation extent of both aromatic and aliphatic hydrocarbon fractions in saturated sandy microcosm spiked with diesel/biodiesel blends (D, B10, B20, B30, B40, B50, B60, B70, B80, B90 and B100, where D is commercial petroleum diesel fuel and B...... is commercial biodiesel blend) augmented with a bacterial consortium of petroleum degraders. The biodegradation kinetics for blends were evaluated based on measuring the amount of emitted CO2 after 578 days. Subsequently, the residual aromatic and aliphatic fractions were separated and determined by employing...... GC-FID and GC _ GC–TOF-MS. Additionally, the influence of biodiesel-amendment on the community dynamics was assessed based on the results of real-time PCR analyzes. Our results suggest that the biodegradation extents of both aliphatic and aromatic hydrocarbon were uninfluenced by the addition...

  8. Coagulation-flocculation of marine Chlorella sp. for biodiesel production.

    Science.gov (United States)

    Sanyano, Naruetsawan; Chetpattananondh, Pakamas; Chongkhong, Sininart

    2013-11-01

    Harvesting of marine Chlorella sp. by autoflocculation and flocculation by addition of coagulant with pH adjustment was investigated in this study. Autoflocculation provided low efficiency. Response surface methodology was employed to optimize the coagulant dosage and pH for flocculation. Aluminium sulfate and ferric chloride were investigated coagulants. The empirical models from RSM are in a good agreement with the experimental results. The optimum flocculation was achieved at ferric chloride dosage 143 mg/L, pH 8.1 and settling time 40 min. Biomass concentration also presented the significant effect on harvesting efficiency. Lipid extracted from marine Chlorella sp. cultivated in urea fertilizer medium with hexane as a solvent is suitable to produce biodiesel according to it contains high proportion of saturated fatty acids. The crude lipid should be purified to remove some impurities before making biodiesel. As the free fatty acid content was higher than 1% a two-step biodiesel production is recommended.

  9. From Fed-batch to Continuous Enzymatic Biodiesel Production

    DEFF Research Database (Denmark)

    2015-01-01

    In this this paper, we use mechanistic modelling to guide the development of acontinuous enzymatic process that is performed as a fed-batch operation. In this workwe use the enzymatic biodiesel process as a case study. A mechanistic model developedin our previous work was used to determine...... measured components (triglycerides, diglycerides, monoglycerides, free fatty acid and fatty acid methyl esters(biodiesel)) much better than using fed-batch data alone given the smaller residuals. We also observe a reduction in the correlation between the parameters.The model was then used to predict that 5...... reactors are required (with a combined residence time of 30 hours) to reach a final biodiesel concentration within 2 % of the95.6 mass % achieved in a fed-batch operation, for 24 hours....

  10. Lipase-immobilized biocatalytic membranes for biodiesel production.

    Science.gov (United States)

    Kuo, Chia-Hung; Peng, Li-Ting; Kan, Shu-Chen; Liu, Yung-Chuan; Shieh, Chwen-Jen

    2013-10-01

    Microbial lipase from Candida rugosa (Amano AY-30) has good transesterification activity and can be used for biodiesel production. In this study, polyvinylidene fluoride (PVDF) membrane was grafted with 1,4-diaminobutane and activated by glutaraldehyde for C. rugosa lipase immobilization. After immobilization, the biocatalytic membrane was used for producing biodiesel from soybean oil and methanol via transesterification. Response Surface Methodology (RSM) in combination with a 5-level-5-factor central composite rotatable design (CCRD) was employed to evaluate the effects of reaction time, reaction temperature, enzyme amount, substrate molar ratio and water content on the yield of soybean oil methyl ester. By ridge max analysis, the predicted and experimental yields under the optimum synthesis conditions were 97% and 95%, respectively. The lipase-immobilized PVDF membrane showed good reuse ability for biodiesel production, enabling operation for at least 165 h during five reuses of the batch, without significant loss of activity.

  11. Biodiesel production in crude oil contaminated environment using Chlorella vulgaris.

    Science.gov (United States)

    Xaaldi Kalhor, Aadel; Mohammadi Nassab, Adel Dabbagh; Abedi, Ehsan; Bahrami, Ahmad; Movafeghi, Ali

    2016-12-01

    Biodiesel is a valuable alternative to fossil fuels and many countries choose biodiesel as an unconventional energy source. A large number of investigations have been done on microalgae as a source of oil production. In recent years, wastewater pollutions have caused many ecological problems, and therefore, wastewater phycoremediation has attracted the international attention. This paper studied the cultivation of Chlorella vulgaris in a crude oil polluted environment for biodiesel production. Intended concentrations were 10 and 20gperliter (crude oil/water) at two times. The results showed that the growth of C. vulgaris was improved in wastewater and the maximum amount of dry mass and oil was produced at the highest concentration of crude oil (0.41g and 0.15g/l, respectively). In addition, dry mass and oil yield of the microalga were significantly enhanced by increasing the experiment duration.

  12. Biodiesel production from microalgae oil catalyzed by a recombinant lipase.

    Science.gov (United States)

    Huang, Jinjin; Xia, Ji; Jiang, Wei; Li, Ying; Li, Jilun

    2015-03-01

    A recombinant Rhizomucor miehei lipase was constructed and expressed in Pichia pastoris. The target enzyme was termed Lipase GH2 and it can be used as a free enzyme for catalytic conversion of microalgae oil mixed with methanol or ethanol for biodiesel production in an n-hexane solvent system. Conversion rates of two major types of biodiesel, fatty acid methyl ester (FAME) and fatty acid ethyl ester (FAEE), reached maximal values (>90%) after 24h. The process of FAME production is generally more simple and economical than that of FAEE production, even though the two processes show similar conversion rates. In spite of the damaging effect of ethanol on enzyme activity, we successfully obtained ethyl ester by the enzymatic method. Our findings indicate that Lipase GH2 is a useful catalyst for conversion of microalgae oil to FAME or FAEE, and this system provides efficiency and reduced costs in biodiesel production.

  13. Biodiesel Production from Bulk Frying Oil with Ultrasound Assisted

    Directory of Open Access Journals (Sweden)

    Widayat

    2013-07-01

    Full Text Available The objective of this research is to optimize of biodiesel production with ultrasound assisted. Optimization was used central composite design methods. Biodiesel was produced from frying oil with KOH catalyst and ultrasonic assisted. The variables were investigated temperature, catalyst concentration and ratio of methanol to oil. Biodiesel was separated from reactant and impurities with decantation process and distillation process. The results of research obtained optimum conversion 85.95% in operation condition are methanol/oil 5.05:1, catalyst concentration 1.65% and temperature reaction 50°C. Mathematic modeling for describe in this process like expressed; Y = 86.2107 - 7.4287X1 + 1.0661X2 + 0.6289X3 - 2.5319X12 - 2.0603X22 - 1.0618X32.

  14. Performance optimization of Jatropha biodiesel engine model using Taguchi approach

    Energy Technology Data Exchange (ETDEWEB)

    Ganapathy, T.; Murugesan, K.; Gakkhar, R.P. [Mechanical and Industrial Engineering Department, Indian Institute of Technology Roorkee, Roorkee 247 667 (India)

    2009-11-15

    This paper proposes a methodology for thermodynamic model analysis of Jatropha biodiesel engine in combination with Taguchi's optimization approach to determine the optimum engine design and operating parameters. A thermodynamic model based on two-zone Weibe's heat release function has been employed to simulate the Jatropha biodiesel engine performance. Among the important engine design and operating parameters 10 critical parameters were selected assuming interactions between the pair of parameters. Using linear graph theory and Taguchi method an L{sub 16} orthogonal array has been utilized to determine the engine test trials layout. In order to maximize the performance of Jatropha biodiesel engine the signal to noise ratio (SNR) related to higher-the-better (HTB) quality characteristics has been used. The present methodology correctly predicted the compression ratio, Weibe's heat release constants and combustion zone duration as the critical parameters that affect the performance of the engine compared to other parameters. (author)

  15. Extraction of oil from microalgae for biodiesel production: A review.

    Science.gov (United States)

    Halim, Ronald; Danquah, Michael K; Webley, Paul A

    2012-01-01

    The rapid increase of CO(2) concentration in the atmosphere combined with depleted supplies of fossil fuels has led to an increased commercial interest in renewable fuels. Due to their high biomass productivity, rapid lipid accumulation, and ability to survive in saline water, microalgae have been identified as promising feedstocks for industrial-scale production of carbon-neutral biodiesel. This study examines the principles involved in lipid extraction from microalgal cells, a crucial downstream processing step in the production of microalgal biodiesel. We analyze the different technological options currently available for laboratory-scale microalgal lipid extraction, with a primary focus on the prospect of organic solvent and supercritical fluid extraction. The study also provides an assessment of recent breakthroughs in this rapidly developing field and reports on the suitability of microalgal lipid compositions for biodiesel conversion. Copyright © 2012 Elsevier Inc. All rights reserved.

  16. Producing biodiesel from yellow greases with high free fatty acids

    Directory of Open Access Journals (Sweden)

    Amrani Mahacine

    2007-01-01

    Full Text Available Biodiesel is a diesel replacement fuel that is manufactured from vegetable oils recycled cooking greases and oils or animal fats. Biodiesel offers many advantages because it is renewable, nontoxic, biodegradable, and suitable for sensitive environments. It can also be used in most diesel equipments with no or only minor modifications. These yellow greases contain great quantities of free fatty acids which form soaps in the presence of alkaline catalyst. Pretreatments of the raw material with acid catalysts are necessary to avoid the soap formation. The transesterification of yellow greases is supplemented in the presence of an alkaline catalyst. The greatest production of biodiesel corresponds to molar flows of 4.985 kmol.hr-1 of methyl oleate, and 4.658 kmol.hr-1 of methyl butyrate.

  17. Production of Biodiesel from Shea Butter Oil using Homogeneous Catalysts

    Directory of Open Access Journals (Sweden)

    Jude EJEH

    2014-02-01

    Full Text Available An investigation into the production of biodiesel from shea butter oil using homogenous catalyst was carried out. The properties of the oil obtained were first determined, having an FFA value of 2.279 amongst other properties. Thus, the direct base-catalysis method was used, with potassium hydroxide as the catalyst. In a 1 hour batch run, biodiesel was produced with a conversion of 92%, FAME content of 97.1%, cetane number of 46.84 and kinematic viscosity of 4.30mm2/s, conforming to ASTM D6751 and EN 14214 international standards. As such, it was established that shea butter biodiesel could be produced by the direct base catalysis, over a shorter time with low cost chemicals.

  18. Biodiesel for Brazilian development: current situation and challenges for a sustainable future; Biodiesel para o desenvolvimento brasileiro: situacao atual e desafios para um futuro sustentavel

    Energy Technology Data Exchange (ETDEWEB)

    Bartsch, Aleksandra Sliwowska; Antunes, Adelaide Maria de Souza [Universidade Federal do Rio de Janeiro (UFRJ), RJ (Brazil). Escola de Quimica

    2008-07-01

    This article aims at analyzing the state of art and trends of biodiesel in Brazil, with resort to the Industry Strategic Map, a tool developed by National Industry Federation (CNI). The situation of biodiesel will be analyzed considering : Bases for Development, Processes and Activities, Market and Results for Country. At the beginning is presented the evolution of biodiesel in Brazil e are explained the construction of the Strategic Map by CNI. (author)

  19. Novel process integration for biodiesel blend in membrane reactive divided wall (MRDW column

    Directory of Open Access Journals (Sweden)

    Sakhre Vandana

    2016-03-01

    Full Text Available The paper proposes a novel process integration for biodiesel blend in the Membrane assisted Reactive Divided Wall Distillation (MRDW column. Biodiesel is a green fuel and grade of biodiesel blend is B20 (% which consist of 20% biodiesel and rest 80% commercial diesel. Instead of commercial diesel, Tertiary Amyl Ethyl Ether (TAEE was used as an environment friendly fuel for blending biodiesel. Biodiesel and TAEE were synthesized in a pilot scale reactive distillation column. Dual reactive distillation and MRDW were simulated using aspen plus. B20 (% limit calculation was performed using feed flow rates of both TAEE and biodiesel. MRDW was compared with dual reactive distillation column and it was observed that MRDW is comparatively cost effective and suitable in terms of improved heat integration and flow pattern.

  20. The Influence of Non-Esterification Biodiesel in AN Indirect Injection Diesel Engine

    Science.gov (United States)

    Choi, Seung-Hun; Oh, Young-Taig

    Biodiesel as alternative energy source of the traditional petroleum fuels has increased interest, because environmental pollution based exhaust emissions from vehicle became serious. The advantage of biodiesel produced from esterification of vegetable and animal oils can be used without the modification of existing diesel engine, but glycerin is generated by production process. In this study, the usability of non-esterification biodiesel as an alternative fuel was investigated in an indirect injection diesel engine. The non-esterification biodiesel has not generated glycerin in esterification process and reduced the 20 percent of cost because it has not used methanol in the production process. Experiments were conducted by using the 5, 10 and 20 percentage of biodiesel and 4 and 8 percentage of biodiesel with 1 and 2 percentage of WDP in baseline diesel fuel. The smoke emission of biodiesel was reduced in comparison with diesel fuel, but power, torque and brake specific energy consumption was similar to diesel fuel.

  1. Production of biodiesel from lipid of phytoplankton Chaetoceros calcitrans through ultrasonic method.

    Science.gov (United States)

    Kwangdinata, Raymond; Raya, Indah; Zakir, Muhammad

    2014-01-01

    A research on production of biodiesel from lipid of phytoplankton Chaetoceros calcitrans through ultrasonic method has been done. In this research, we carried out a series of phytoplankton cultures to determine the optimum time of growth and biodiesel synthesis process from phytoplankton lipids. Process of biodiesel synthesis consists of two steps, that is, isolation of phytoplankton lipids and biodiesel synthesis from those lipids. Oil isolation process was carried out by ultrasonic extraction method using ethanol 96%, while biodiesel synthesis was carried out by transesterification reaction using methanol and KOH catalyst under sonication. Weight of biodiesel yield per biomass Chaetoceros calcitrans is 35.35%. Characterization of biodiesel was well carried out in terms of physical properties which are density and viscosity and chemical properties which are FFA content, saponification value, and iodine value. These values meet the American Society for Testing and Materials (ASTM D6751) standard levels, except for the viscosity value which was 1.14 g · cm(-3).

  2. Anaerobic biodegradation of soybean biodiesel and diesel blends under sulfate-reducing conditions.

    Science.gov (United States)

    Wu, Shuyun; Yassine, Mohamad H; Suidan, Makram T; Venosa, Albert D

    2016-10-01

    Biotransformation of soybean biodiesel and its biodiesel/petrodiesel blends were investigated under sulfate-reducing conditions. Three blends of biodiesel, B100, B50, and B0, were treated using microbial cultures pre-acclimated to B100 (biodiesel only) and B80 (80% biodiesel and 20% petrodiesel). Results indicate that the biodiesel could be effectively biodegraded in the presence or absence of petrodiesel, whereas petrodiesel could not be biodegraded at all under sulfate-reducing conditions. The kinetics of biodegradation of individual Fatty Acid Methyl Ester (FAME) compounds and their accompanying sulfate-reduction rates were studied using a serum bottle test. As for the biodegradation of individual FAME compounds, the biodegradation rates for the saturated FAMEs decreased with increasing carbon chain length. For unsaturated FAMEs, biodegradation rates increased with increasing number of double bonds. The presence of petrodiesel had a greater effect on the rate of biodegradation of biodiesel than on the extent of removal.

  3. Study on Emission and Performance of Diesel Engine Using Castor Biodiesel

    Directory of Open Access Journals (Sweden)

    Md. Saiful Islam

    2014-01-01

    performance of diesel engine using the castor biodiesel and its blend with diesel from 0% to 40% by volume. The acid-based catalyzed transesterification system was used to produce castor biodiesel and the highest yield of 82.5% was obtained under the optimized condition. The FTIR spectrum of castor biodiesel indicates the presence of C=O and C–O functional groups, which is due to the ester compound in biodiesel. The smoke emission test revealed that B40 (biodiesel blend with 40% biodiesel and 60% diesel had the least black smoke compared to the conventional diesel. Diesel engine performance test indicated that the specific fuel consumption of biodiesel blend was increased sufficiently when the blending ratio was optimized. Thus, the reduction in exhaust emissions and reduction in brake-specific fuel consumption made the blends of caster seed oil (B20 a suitable alternative fuel for diesel and could help in controlling air pollution.

  4. Technical aspects of production and analysis of biodiesel from used cooking oil. A review

    Energy Technology Data Exchange (ETDEWEB)

    Enweremadu, C.C.; Mbarawa, M.M. [Department of Mechanical Engineering, Tshwane University of Technology, Private Bag X680, Pretoria 001 (South Africa)

    2009-12-15

    The increasing awareness of the depletion of fossil fuel resources and the environmental benefits of biodiesel fuel has made it more attractive in recent times. The cost of biodiesel, however, is the major hurdle to its commercialization in comparison to petroleum-based diesel fuel. The high cost is primarily due to the raw material, mostly neat vegetable oil. Used cooking oil is one of the economical sources for biodiesel production. However, the products formed during frying, can affect the transesterification reaction and the biodiesel properties. This paper attempts to review various technological methods of biodiesel production from used cooking oil. The analytical methods for high quality biodiesel fuel from used cooking oil like GC, TLC, HPLC, GPC and TGA have also been summarized in this paper. In addition, the specifications provided by different countries are presented. The fuel properties of biodiesel fuel from used cooking oil were also reviewed and compared with those of conventional diesel fuel. (author)

  5. IDENTIFICATION OF ADULTERANT AND ALCOHOL ROUTE IN BIODIESEL USING MID-INFRARED ABSORPTION SPECTROSCOPY

    Directory of Open Access Journals (Sweden)

    Maryleide Ventura da Silva

    2014-01-01

    Full Text Available Mid-infrared absorption spectroscopy was used to analyze soybean oil, ethylic and methylic soybean biodiesel, and blends prepared with soybean oil mixed with biodiesel, in order to evaluate this method as an alternative to assess oil as impurities or adulterant in biodiesel. We also aimed to determine whether the biodiesel was prepared by the ethyl or methyl routes, by inspecting the infrared spectra. The C-O functional groups between 1100 and 1200 cm-1 are different for oil and biodiesel, which allows them to be used to distinguish impurities (residual oil in biofuel. The peak C-O-C at 1017 cm-1 is characteristic for methylic biodiesel, and the peak O-C-C at 1035 cm-1 for ethylic biodiesel. These vibrational modes can therefore be used to indicate the route used to prepare the biofuel. Results indicated that infrared spectroscopy is appropriate for monitoring the quality of biofuel for commercial sale.

  6. MODEL FOR THE CORRECTION OF THE SPECIFIC GRAVITY OF BIODIESEL FROM RESIDUAL OIL

    Directory of Open Access Journals (Sweden)

    Tatiana Aparecida Rosa da Silva

    2013-06-01

    Full Text Available Biodiesel is a important fuel with economic benefits, social and environmental. The production cost of the biodiesel can be significantly lowered if the raw material is replaced by a alternative material as residual oil. In this study, the variation of specific gravity with temperature increase for diesel and biodiesel from residual oil obtained by homogeneous basic catalysis. All properties analyzed for biodiesel are within specification Brazil. The determination of the correction algorithm for the specific gravity function of temperature is also presented, and the slope of the line to diesel fuel, methylic biodiesel (BMR and ethylic biodiesel (BER from residual oil were respectively the values -0.7089, -0.7290 and -0.7277. This demonstrates the existence of difference of the model when compared chemically different fuels, like diesel and biodiesel from different sources, indicating the importance of determining the specific algorithm for the operations of conversion of volume to the reference temperature.

  7. Characterization of Palm Oil as Biodiesel

    Science.gov (United States)

    Gorey, Neeraj; Ghosh, Shankha; Srivastava, Priyank; Kumar, Vivek

    2017-08-01

    The various sources of energy from which mechanical energy is obtained are non-renewable and are thus considered to be unsustainable. These sources include the various fossil fuels like the petroleum, coal and the natural gas. The burning of fossil fuels led to the production of the greenhouse gases increasing the levels of CO2 in the atmosphere. The adverse effects are the global warming and the ozone layer depletion. In a nation like India, where consumable oils are still transported in, it is advantageous to investigate the likelihood of utilising such non-palatable oils as a part of CI motors which are not by and by used as cooking oil. Palm oil (otherwise called dendê oil, from Portuguese) is a consumable vegetable oil got from the monocarp (ruddy mash) of the product of the oil palms. The major objective is to provide a cheap and effective alternative to diesel. This paper is an exploration of the capability of the palm oil as a practical, modest and effective hotspot for the generation of biodiesel. the paper is based on the characterisation of palm oil compare to diesel.

  8. Biodiesel production by enzyme-catalyzed transesterification

    Directory of Open Access Journals (Sweden)

    Stamenković Olivera S.

    2005-01-01

    Full Text Available The principles and kinetics of biodiesel production from vegetable oils using lipase-catalyzed transesterification are reviewed. The most important operating factors affecting the reaction and the yield of alkyl esters, such as: the type and form of lipase, the type of alcohol, the presence of organic solvents, the content of water in the oil, temperature and the presence of glycerol are discussed. In order to estimate the prospects of lipase-catalyzed transesterification for industrial application, the factors which influence the kinetics of chemically-catalysed transesterification are also considered. The advantages of lipase-catalyzed transesterification compared to the chemically-catalysed reaction, are pointed out. The cost of down-processing and ecological problems are significantly reduced by applying lipases. It was also emphasized that lipase-catalysed transesterification should be greatly improved in order to make it commercially applicable. The further optimization of lipase-catalyzed transesterification should include studies on the development of new reactor systems with immobilized biocatalysts and the addition of alcohol in several portions, and the use of extra cellular lipases tolerant to organic solvents, intracellular lipases (i.e. whole microbial cells and genetically-modified microorganisms ("intelligent" yeasts.

  9. Ultrasound assisted intensification of biodiesel production using enzymatic interesterification.

    Science.gov (United States)

    Subhedar, Preeti B; Gogate, Parag R

    2016-03-01

    Ultrasound assisted intensification of synthesis of biodiesel from waste cooking oil using methyl acetate and immobilized lipase obtained from Thermomyces lanuginosus (Lipozyme TLIM) as a catalyst has been investigated in the present work. The reaction has also been investigated using the conventional approach based on stirring so as to establish the beneficial effects obtained due to the use of ultrasound. Effect of operating conditions such as reactant molar ratio (oil and methyl acetate), temperature and enzyme loading on the yield of biodiesel has been investigated. Optimum conditions for the conventional approach (without ultrasound) were established as reactant molar ratio of 1:12 (oil:methyl acetate), enzyme loading of 6% (w/v), temperature of 40 °C and reaction time of 24 h and under these conditions, 90.1% biodiesel yield was obtained. The optimum conditions for the ultrasound assisted approach were oil to methyl acetate molar ratio of 1:9, enzyme loading of 3% (w/v), and reaction time of 3 h and the biodiesel yield obtained under these conditions was 96.1%. Use of ultrasound resulted in significant reduction in the reaction time with higher yields and lower requirement of the enzyme loading. The obtained results have clearly established that ultrasound assisted interesterification was a fast and efficient approach for biodiesel production giving significant benefits, which can help in reducing the costs of production. Reusability studies for the enzyme were also performed but it was observed that reuse of the catalyst under the optimum experimental condition resulted in reduced enzyme activity and biodiesel yield.

  10. Los Alamos National Laboratory considers the use of biodiesel.

    Energy Technology Data Exchange (ETDEWEB)

    Matlin, M. K. (Marla K.)

    2002-01-01

    A new EPA-approved alternative fuel, called biodiesel, may soon be used at Los Alamos National Laboratory in everything from diesel trucks to laboratory equipment. Biodiesel transforms vegetable oils into a renewable, cleaner energy source that can be used in any machinery that uses diesel fuel. For the past couple years, the Laboratory has been exploring the possibility of switching over to soybean-based biodiesel. This change could lead to many health and environmental benefits, as well as help reduce the nation's dependence on foreign oil. Biodiesel is a clean, renewable diesel fuel substitute made from soybean and other vegetable oil crops, as well as from recycled cooking oils. A chemical process breaks down the vegetable oil into a usable form. Vegetable oil has a chain of about 18 carbons and ordinary diesel has about 12 or 13 carbons. The process breaks the carbon chains of the vegetable oil and separates out the glycerin (a fatty substance used in creams and soaps). The co-product of glycerin can be used by pharmaceutical and cosmetic companies, as well as many other markets. Once the chains are shortened and the glycerin is removed from the oil, the remaining liquid is similar to petroleum diesel fuel. It can be burned in pure form or in a blend of any proportion with petroleum diesel. To be considered an alternative fuel source by the EPA, the blend must be at least 20 percent biodiesel (B20). According to the U.S. Department of Energy (DOE), biodiesel is America's fastest growing alternative fuel.

  11. Tinjauan Penilaian Siklus Hidup Bahan Bakar Biodiesel di Indonesia

    Directory of Open Access Journals (Sweden)

    Kiman Siregar

    2014-10-01

    Review of Life Cycle Assesment of Biodiesel in Indonesia Abstract. Currently, environmental consideration becomes the most important issue in biodiesel production. Eventhough source of energy is considered as carbon neutral, the production path may release various environmentally hazardous gasses. European and American countries claim that production of biodiesel from palm oil contributes carbon emission to the atmosphere along its production path. Furthermore, US EPA-NODA and EU RED stated that palm oil based biodiesel can only reduce emission of GWP by 17 % and 19 % compared to fossil-fuel based. Considering on the minimum requirement is 20 % for US and 35 % for EU, CPO from Indonesia experiences difficulties to enter the global market. Scientific approach should be undertaken by Indonesia to address this issue. Summary of the literature mentions that the sustainability of biodiesel from palm oil is better than Jatropha curcas, compared to other sources of raw materials, such as rapeseed. Summary of the literature mentions that the value of carbon that can be absorbed by primary forest is higher than secondary forest and palm oil plantation. This is the reason why world claims Indonesia on global warming issues although further research is still needed based on the latest data. From the real condition in Indonesia, in which GHG value before stable productivity is 2 575.47 kg-CO2eq./ton-Biodiesel fuel(BDF for oil palm and 3 057.74 kg-CO2eq./ton-BDF for Jatropha curcas. When the productivity has reached stability, the GHG value is  1 511.96 kg-CO2eq./ton-BDF for oil palm and 380.52 kg-CO2eq./ton-BDF for Jatropha curcas. If we compared to diesel fuel, CO2eq. emission is reduced up to 49.27 % and 88.45 % for BDF-CPO and BDF-CJCO, respectively.

  12. Microwave irradiation biodiesel processing of waste cooking oil

    Science.gov (United States)

    Motasemi, Farough; Ani, Farid Nasir

    2012-06-01

    Major part of the world's total energy output is generated from fossil fuels, consequently its consumption has been continuously increased which accelerates the depletion of fossil fuel reserves and also increases the price of these valuable limited resources. Biodiesel is a renewable, non-toxic and biodegradable diesel fuel which it can be the best environmentally friendly and easily attainable alternative for fossil fuels. The costs of feedstock and production process are two important factors which are particularly against large-scale biodiesel production. This study is intended to optimize three critical reaction parameters including intensity of mixing, microwave exit power and reaction time from the transesterification of waste cooking oil by using microwave irradiation in an attempt to reduce the production cost of biodiesel. To arrest the reaction, similar quantities of methanol/oil molar ratio (6:1) and potassium hydroxide (2% wt) as the catalyst were used. The results showed that the best yield percentage (95%) was obtained using 300W microwave exit power, 300 rpm stirrer speed (intensity of mixing) and 78°C for 5 min. It was observed that increasing the intensity of mixing greatly ameliorates the yield percentage of biodiesel (up to 17%). Moreover, the results demonstrate that increasing the reaction time in the low microwave exit power (100W) improves the yield percentage of biodiesel, while it has a negative effect on the conversion yield in the higher microwave exit power (300W). From the obtained results it was clear that FAME was within the standards of biodiesel fuel.

  13. Simulation, optimization and analysis of cost of biodiesel plant pot route enzymatic; Simulacao, otimizacao e analise de custo de planta de biodiesel via rota enzimatica

    Energy Technology Data Exchange (ETDEWEB)

    Mendes, Jocelia S.; Ferreira, Andrea L.O. [Universidade Federal do Ceara (UFC), Fortaleza, CE (Brazil); Silva, Giovanilton F. [Tecnologia Bioenergetica - Tecbio, Fortaleza, CE (Brazil)

    2008-07-01

    The aim of this work ware simulation, optimization and to find the biodiesel production cost produced by enzymatic route. Consequently, it was carried out a methodology of economic calculations and sensitivity analyses for this process. It was used a computational software from balance equations for obtaining the biodiesel cost. The economical analysis was obtained by capital cost of biofuel. The whole process was developed according analysis of fixed capital cost, total manufacturing cost, raw material cost, and chemical cost. The results of economic calculations to biodiesel production showed efficient. The model was meant for use in assessing the effects on estimated biodiesel production cost of changes in different types of oils. (author)

  14. Life cycle assessment of palm biodiesel: Revealing facts and benefits for sustainability

    Energy Technology Data Exchange (ETDEWEB)

    Yee, Kian Fei; Tan, Kok Tat; Abdullah, Ahmad Zuhairi; Lee, Keat Teong [School of Chemical Engineering, Universiti Sains Malaysia, Engineering Campus, Seri Ampangan, 14300 Nibong Tebal, Pulau Pinang (Malaysia)

    2009-11-15

    Similarity between the properties of biodiesel and petroleum-derived diesel has made the former one of the most promising alternatives to a renewable and sustainable fuel for the transportation sector. In Malaysia, palm oil can be a suitable feedstock for the production of biodiesel due to its abundant availability and low production cost. However, not many assessments have been carried out regarding the impacts of palm biodiesel on the environment. Hence, in this study, life cycle assessment (LCA) was conducted for palm biodiesel in order to investigate and validate the popular belief that palm biodiesel is a green and sustainable fuel. The LCA study was divided into three main stages, namely agricultural activities, oil milling and transesterification process for the production of biodiesel. For each stage, the energy balance and green house gas assessments were presented and discussed. These are important data for the techno-economical and environmental feasibility evaluation of palm biodiesel. The results obtained for palm biodiesel were then compared with rapeseed biodiesel. From this study, it was found that the utilization of palm biodiesel would generate an energy yield ratio of 3.53 (output energy/input energy), indicating a net positive energy generated and ensuring its sustainability. The energy ratio for palm biodiesel was found to be more than double that of rapeseed biodiesel which was estimated to be only 1.44, thereby indicating that palm oil would be a more sustainable feedstock for biodiesel production as compared to rapeseed oil. Moreover, combustion of palm biodiesel was found to be more environment-friendly than petroleum-derived-diesel as a significant 38% reduction of CO{sub 2} emission can be achieved per liter combusted. (author)

  15. Treatment for purification water of biodiesel using electrofloculation

    Directory of Open Access Journals (Sweden)

    Juliana Ferreira de Brito

    2012-01-01

    Full Text Available Biodiesel was created as a solution for a great economic and enviromental problem of petroleum, a resource with sustainable characteristics. But its production still needs optimization, because it uses a lot of water and generates a large volume of this residue, which appears improper to disposal without correct treatment. This work propose an economic, viable and efficient way to treat the Biodiesel purification water, not only aiming at a proper disposal, but the reuse as input in the process, generating a large industrial economy, and greater environmental progress. For both treatment uses the electrofloculation technique.

  16. Alabama Institute for Deaf and Blind Biodiesel Project Green

    Energy Technology Data Exchange (ETDEWEB)

    Edmiston, Jessica L

    2012-09-28

    Through extensive collaboration, Alabama Institute for Deaf and Blind (AIDB) is Alabama's first educational entity to initiate a biodiesel public education, student training and production program, Project Green. With state and national replication potential, Project Green benefits local businesses and city infrastructures within a 120-mile radius; provides alternative education to Alabama school systems and to schools for the deaf and blind in Appalachian States; trains students with sensory and/or multiple disabilities in the acquisition and production of biodiesel; and educates the external public on alternative fuels benefits.

  17. An Overview of Biodiesel and Petroleum Diesel Life Cycles

    Energy Technology Data Exchange (ETDEWEB)

    Sheehan, John [National Renewable Energy Lab. (NREL), Golden, CO (United States); Camobreco, Vince [National Renewable Energy Lab. (NREL), Golden, CO (United States); Duffield, James [National Renewable Energy Lab. (NREL), Golden, CO (United States); Graboski, Michael [National Renewable Energy Lab. (NREL), Golden, CO (United States); Shapouri, Housein [National Renewable Energy Lab. (NREL), Golden, CO (United States)

    1998-05-01

    This overview is extracted from a detailed, comprehensive report entitled Life Cycle Inventories of Biodiesel and Petroleum Diesel for Use in an Urban Bus. This report presents the findings from a study of the life cycle inventories (LCIs) for petroleum diesel and biodiesel. An LCI comprehensively quantifies all the energy and environmental flows associated with a product from “cradle to grave.” It provides information on raw materials extracted from the environment; energy resources consumed; and air, water, and solid waste emissions generated.

  18. Mechanistic Modelling of Biodiesel Production using a Liquid Lipase Formulation

    DEFF Research Database (Denmark)

    Price, Jason Anthony; Hofmann, Björn; Silva, Vanessa T. L.

    2014-01-01

    , with respect to the industrial production of biodiesel. The developed kinetic model, coupled with a mass balance of the system, was fitted to and validated on experimental results for the fed-batch transesterification of rapeseed oil. The confidence intervals of the parameter estimates, along...... that constrains the amount of methanol in the reactor was computed and the predictions experimentally validated. Monte-Carlo simulations were then used to characterize the effect of the parameter uncertainty on the model outputs, giving a biodiesel yield, based on the mass of oil, of 90.8 ± 0.55 mass %. © 2014...

  19. Optimization of Substrate Feeding for Enzymatic Biodiesel Production

    DEFF Research Database (Denmark)

    Price, Jason Anthony; Huusom, Jakob Kjøbsted; Nordblad, Mathias

    to be effective in mitigating the effects of substrate inhibition. Using enzymatic biodiesel production as a case study, the volumetric productivity of the reactor is increased while minimizing inactivation of the enzyme due to the alcohol. This is done by using a simple optimization routine where the substrate...... (both the vegetable oil and alcohol) feed rate/concentration is manipulated simultaneously. The results of the simulation were tested in the laboratory and are sufficiently positive to suggest the implementation of a feeding strategy for large scale enzymatic biodiesel production....

  20. Model Feed for Hydrotreating of Fat for Biodiesel Production

    DEFF Research Database (Denmark)

    Biodiesel production by the transesterification of oils and fats with an alcohol to fatty acid alkyl esters is rapidly increasing worldwide. Plant oils are usually suited for transesterification, but feedstocks from waste products like trap greases and abattoir wastes are difficult to react due...... resulted in lower conversions and a much higher degree of hydrogenation than with the Pt catalyst. This protocol represents a facile method of studying hydrotreating of waste fats and oils for biodiesel production, which may be a viable alternative to current dominating transesterification technology. 1...

  1. Fed-Batch Feeding Strategies for Enzymatic Biodiesel Production

    DEFF Research Database (Denmark)

    Price, Jason Anthony; Nordblad, Mathias; Woodley, John

    2014-01-01

    of the differences in the interfacial and bulk concentrations of the enzyme. The model is then used to evaluate various feeding strategies to improve the enzymatic biodiesel production. The feeding strategies investigated, gave insight into how the methanol should be fed to potentially mitigate enzyme deactivation...... while improving the biodiesel yield. The best experimental results gave a yield of 703 .76 g FAME L-1 and a reactor productivity of 28.12 g FAME L-1 h-1. In comparison, to reach the same yield, the optimised two step feeding strategy took 6.25 hours less, which equates to an increase the reactor...

  2. Moving towards a Competitive Fully Enzymatic Biodiesel Process

    Directory of Open Access Journals (Sweden)

    Silvia Cesarini

    2015-06-01

    Full Text Available Enzymatic biodiesel synthesis can solve several problems posed by the alkaline-catalyzed transesterification but it has the drawback of being too expensive to be considered competitive. Costs can be reduced by lipase improvement, use of unrefined oils, evaluation of soluble/immobilized lipase preparations, and by combination of phospholipases with a soluble lipase for biodiesel production in a single step. As shown here, convenient natural tools have been developed that allow synthesis of high quality FAMEs (EN14214 from unrefined oils in a completely enzymatic single-step process, making it fully competitive.

  3. Optimization of Substrate Feeding for Enzymatic Biodiesel Production

    DEFF Research Database (Denmark)

    Price, Jason Anthony; Huusom, Jakob Kjøbsted; Nordblad, Mathias

    2013-01-01

    to be effective in mitigating the effects of substrate inhibition. Using enzymatic biodiesel production as a case study, the volumetric productivity of the reactor is increased while minimizing inactivation of the enzyme due to the alcohol. This is done by using a simple optimization routine where the substrate...... (both the vegetable oil and alcohol) feed rate/concentration is manipulated simultaneously. The results of the simulation were tested in the laboratory and are sufficiently positive to suggest the implementation of a feeding strategy for large scale enzymatic biodiesel production...

  4. Enhancement of biodiesel production from different species of algae

    OpenAIRE

    El-Moneim M. R. Afify, Abd; Shalaby, Emad A.; Shanab, Sanaa M. M.

    2010-01-01

    Eight algal species (4 Rhodo, 1 chloro and 1 phaeophycean macroalgae, 1 cyanobacterium and 1 green microalga) were used for the production of biodiesel using two extraction solvent systems (Hexane/ether (1:1, v/v)) and (Chloroform/ methanol (2:1, v/v)). Biochemical evaluations of algal species were carried out by estimating biomass, lipid, biodiesel and sediment (glycerin and pigments) percentages. Hexane/ ether (1:1, v/v) extraction so...

  5. [Biodiesel-fuel: content, production, producers, contemporary biotechnology (review)].

    Science.gov (United States)

    Feofilova, E P; Sergeeva, Ia E; Ivashechkin, A A

    2010-01-01

    The necessity of expanding studies on producing renewable biofuel is reviewed. Special attention is given to biodiesel, the history of its creation, and its advantages and disadvantages in comparison with diesel-fuel. The main part of the review is devoted to an analysis of diesel biofuel on the basis of bacterial lipids, filamentous fungi, yeasts, plants, photo- and heterotrophic algae. Biodiesel on the basis of filamentous fungi is studied in detail and the possibility of creation of the most perspective biotechnology using these producers is grounded. The contemporary state of biotechnology in Russia is discussed in connection with the development of energetics based on renewable biofuels.

  6. Pengaruh Zat Aditif Urea terhadap Kuantitas Biodiesel Pada Reaksi Transesterfikasi

    Directory of Open Access Journals (Sweden)

    Rismawati Rasyid

    2017-03-01

    Full Text Available Abstrak Asam lemak jenuh maupun tak jenuh pada minyak nabati memiliki potensi untuk diubah menjadi bahan kimia penyusun bahan bakar . Komponen asam lemak pada CPO RBD dengan komposisi terbesar adalah asam palmitat (38.2% dan asam oleat (45.89%.  Pembuatan biodiesel dalam penelitian ini menggunakan CPO (Crude Palm Oil yang telah dimurnikan melalui reaksi transesterfikasi dengan pereaksi etanol dan katalisator KOH. Penambahan urea sebagai zat aditif pada reaksi dapat meningkatkan kualitas biodiesel yang diperoleh serta lebih efisien dalam tahapan pemurnian. Persentase kadar FAME (Fatty Acid Metyl Ester setara dengan persen yield biodiesel pada proses reaksi tanpa penambahan urea adalah 90.34% dan mengalami peningkatan setelah penambahan urea sebesar 98%. Densitas yang dihasilkan pada reaksi tanpa zat aditif  0.868 gr/ ml dan reaksi dengan penambahan zat aditif memiliki densitas  0.866 gr/ml,  kedua produk tersebut telah sesuai dengan standar SNI yakni berkisar 0.85–0.89. Kata kunci : biodiesel, CPO, zat aditif Abstract Saturated and unsaturated fatty acids in vegetable oils have potential to be converted into constituent of chemicals fuel. Fatty acids in the RBD palm oil with the largest composition are palmitic acid (38.2% and oleic acid (45.89%. Production of fuel which substitute diesel fuel (biodiesel from CPO (Crude Palm Oil which has been purified by transesterification reaction with ethanol reagent and KOH catalyst. The addition of urea as an additive substancein the reaction to improve  the quality as well as more efficient biodiesel obtained in the purification stages. Percentage value of FAME(Fatty Acid Metyl Esteror yield biodiesel in the reaction without the addition of urea is 90.34% and after the addition of urea increased by 98%. Density of product that produced in the reaction without additives is 0.868 g / ml and for reaction with additives has a density of 0.866 g / ml, both of these products are met the criteria of SNI

  7. Potency of Microalgae as Biodiesel Source in Indonesia

    Directory of Open Access Journals (Sweden)

    H Hadiyanto

    2012-02-01

    Full Text Available Within 20 years, Indonesia should find another energy alternative to substitute current fossil oil. Current use of renewable energy is only 5% and need to be improved up to 17% of our energy mix program. Even though, most of the area in Indonesia is covered by sea, however the utilization of microalgae as biofuel production is still limited. The biodiesel from current sources (Jatropha, palm oil, and sorghum is still not able to cover all the needs if the fossil oil cannot be explored anymore. In this paper, the potency of microalgae in Indonesia was analysed as the new potential of energy (biodiesel sources.

  8. Potency of Microalgae as Biodiesel Source in Indonesia

    Directory of Open Access Journals (Sweden)

    H Hadiyanto

    2012-04-01

    Full Text Available Within 20 years, Indonesia should find another energy alternative to substitutecurrent fossil oil. Current use of renewable energy is only 5% and need to be improved up to 17%of our energy mix program. Even though, most of the area in Indonesia is covered by sea, howeverthe utilization of microalgae as biofuel production is still limited. The biodiesel from currentsources (Jatropha, palm oil, and sorghum is still not able to cover all the needs if the fossil oilcannot be explored anymore. In this paper, the potency of microalgae in Indonesia was analysed asthe new potential of energy (biodiesel sources.

  9. O método simplex generalizado

    OpenAIRE

    Cardoso, Domingos Moreira

    1992-01-01

    Apresenta-se um novo método para a resolução de problemas de Programação Linear, que se designa por método simplex generalizado, por se considerar que generaliza o método simplex clássico. Com efeito, as sucessivas soluções admissíveis, que se vão determinando ao longo da sua aplicação, podem pertencer ao interior relativo de faces de dimensão superior a zero, fazendo-se os respectivos deslocamentos, entre estas faces, através de faces que, incluindo as anteriores, têm um...

  10. Effect of poultry fat oil biodiesel on tractor engine performance

    Directory of Open Access Journals (Sweden)

    M Bavafa

    2016-04-01

    Full Text Available Introduction: Depletion of fossil fuels and environmental degradation are two major problems faced by the world. Today fossil fuels take up to 80% of the primary energy consumed in the world, of which 58% is consumed by the transport sector alone (Mard et al., 2012. The combustion products cause global warming, which is caused of emissions like carbon monoxide (CO, sulfur dioxide (SO2 and nitrogen oxides (NOX. Thus it is essential that low emission alternative fuels to be developed for useing in diesel engines. Many researchers have concluded that biodiesel holds promise as an alternative fuel for diesel engines. Biodiesel is oxygenated, biodegradable, non-toxic, and environmentally friendly (Qi et al., 2010. Materials and Methods: In this study transesterification method was used to produce biodiesel, because of its simplicity in biodiesel production process and holding the highest conversion efficiency. Transesterification of poultry fat oil and the properties of the fuels: Fatty acid methyl ester of poultry fat oil was prepared by transesterification of oil with methanol in the presence of KOH as catalyst. The fuel properties of poultry fat oil methyl ester and diesel fuel were determined. These properties are presented in Table 1. Tests of engine performance and emissions: After securing the qualitative characteristics of produced biodiesel, different biodiesel fuels of 5%, 10%, 15%, and 20% blended with diesel fuel were prepared. A schematic diagram of the engine setup is shown in Fig.1. The MF-399 tractor engine was used in the tests. The basic specifications of the engine are shown in Table 3. The engine was loaded with an electromagnetic dynamometer. The Σ5 model dynamometer manufactured by NJ-FROMENT was used to measure the power and the torque of the tractor engine. The speed range and capacity of this device are shown in Table 2. A FTO Flow Meter, manufactured by American FLOWTECH Company, was used to measure the fuel consumption

  11. EXTRAÇÃO, HIDRO-ESTERIFICAÇÃO E METILAÇÃO DOS LIPIDIOS DA MACROALGA GRACILARIA CAUDATA, APLICANDO CATALISE HETEROGENEA NA PREPARAÇÃO DO BIODIESEL

    Directory of Open Access Journals (Sweden)

    Iolanda Cristiny Nascimento Duarte

    2015-03-01

    Full Text Available O biodiesel se enquadra perfeitamente nas exigências ambientais requeridas por ser um biocombustível renovável, biodegradável e não-tóxico apresentando-se como uma possível solução para amenizar os problemas atuais provocado pela dependência do petróleo pela sociedade, reduzindo alguns efeitos causadores do aquecimento global. O presente trabalho relata a extração dos lipídios da macroalga Gracilaria caudata e a utilização dos mesmos na preparação do biodiesel. A metodologia utilizada para extração dos lipídios foi extração à quente usando hexano como solvente e também o método de extração a frio, usando a mistura de solventes, clorofórmio/metanol numa proporção de 2:1. O método de conversão foi hidro-esterificação usando iodo sublimado na presença de álcool, etílico ou metílico. Com essa metodologia pode-se obter resultados interessantes para a aplicação do biodiesel feito a partir da matéria prima.

  12. Fuel Pellets Production from Biodiesel Waste

    Directory of Open Access Journals (Sweden)

    Kawalin Chaiyaomporn

    2010-01-01

    Full Text Available This research palm fiber and palm shell were used as raw materials to produce pelletised fuel, and waste glycerol were used as adhesive to reduce biodiesel production waste. The aim of this research is to find optimum ratio of raw material (ratio of palm fiber and palm shell, raw material size distribution, adhesive temperature, and ratio of ingredients (ratio of raw material, waste glycerol, and water. The optimum ratio of pelletized fuel made only by palm fiber was 50:10:40; palm fiber, water, and waste glycerol respectively. In the best practice condition; particle size was smaller than 2 mm, adhesive glycerol was heated. From the explained optimum ratio and ingredient, pelletizing ratio was 62.6%, specific density was 982.2 kg/m3, heating value was 22.5 MJ/kg, moisture content was 5.9194%, volatile matter was 88.2573%, fix carbon content was 1.5894%, and ash content was 4.2339% which was higher than the standard. Mixing palm shell into palm fiber raw material reduced ash content of the pellets. The optimum raw material ratio, which minimizes ash content, was 80 to 20 palm fiber and palm shell respectively. Adding palm shell reduced ash content to be 2.5247% which was higher than pelletized fuel standard but followed cubed fuel standard. At this raw material ratio, pelletizing ratio was 70.5%, specific density was 774.8 kg/m3, heating value was 19.71 MJ/kg, moisture content was 9.8137%, volatile matter was 86.2259%, fix carbon content was 1.4356%, and compressive force was 4.83 N. Pelletized fuel cost at optimum condition was 1.14 baht/kg.

  13. Biodiesel: most recent developments in distribution infra-structure; Recentes desenvolvimentos na infra-estrutura do biodiesel: caso pratico apresentando desde a compra do biodiesel ate a mistura automatizada nas bases

    Energy Technology Data Exchange (ETDEWEB)

    Kauer, Luiz Athayde da Silva; Silberman Luis [Petroleo Ipiranga (Grupo ULTRA), Rio Grande, RS (Brazil)

    2008-07-01

    This presentation will show a practical large scale case of, which involves: the purchase, distribution and storage of 80 million liters of Biodiesel that we have bought in the Brazilian market; the way the distribution is being done and the future perspectives in its infra-structure. Moreover, this presentation will approach and detail the most recent developments in: automation of the mix in the terminals of distribution. Specific analysis of our terminal in Rio de Janeiro - Brazil; identification of the best practice and the results already obtained from it; identification of the tie breaker criteria to produce the mix of the Biodiesel in the Diesel oil; what we are doing to development the modals of transportation of Biodiesel; the Biodiesel storage - Best operational practices; the Biodiesel - aspects for the consumer quality control; acquisition of 5 thousand tons of carbon credits. (author)

  14. todos cuantitativos e historia

    Directory of Open Access Journals (Sweden)

    Elber Berdugo Cotera Journal

    1999-07-01

    Full Text Available El siguiente artículo desea despertar el interés de los historiadores y estudiantes de historia hacia el uso de los métodos cuantitativos en la narración histórica, considerándolos como una herramienta que les permita obtener mejores resultados. Desmitificar lo cuantitativo. Romper con el temor y la aprehensión que se tiene a lo numérico, a la estadística y al computador, considerando que la falta de familiarización con ellos se convierte en un obstáculo para el avance de la investigación histórica. Mostrar las bondades del empleo de los métodos cuantitativos en el campo de la historia, pero también sus limitaciones y peligros cuando se abusa de ellos. Para lograr los objetivos propuestos, el ensayo se desarrolla de la siguiente manera: en la primera parte, se hace un breve recuento del acercamiento de lo cuantitativo a la historia. En la segunda parte, se exponen algunos puntos de vista de quienes justifican el uso de los métodos cuantitativos y de quienes los rechazan. En la tercera parte, se problematiza sobre las limitaciones e importancia para los historiadores de la utilización de los métodos cuantitativos. En la última parte, se muestran algunos usos del computador por parte de los historiadores.

  15. Direct Biodiesel Production from Wet Microalgae Biomass of Chlorella pyrenoidosa through In Situ Transesterification

    Directory of Open Access Journals (Sweden)

    Hechun Cao

    2013-01-01

    Full Text Available A one-step process was applied to directly converting wet oil-bearing microalgae biomass of Chlorella pyrenoidosa containing about 90% of water into biodiesel. In order to investigate the effects of water content on biodiesel production, distilled water was added to dried microalgae biomass to form wet biomass used to produce biodiesel. The results showed that at lower temperature of 90°C, water had a negative effect on biodiesel production. The biodiesel yield decreased from 91.4% to 10.3% as water content increased from 0% to 90%. Higher temperature could compensate the negative effect. When temperature reached 150°C, there was no negative effect, and biodiesel yield was over 100%. Based on the above research, wet microalgae biomass was directly applied to biodiesel production, and the optimal conditions were investigated. Under the optimal conditions of 100 mg dry weight equivalent wet microalgae biomass, 4 mL methanol, 8 mL n-hexane, 0.5 M H2SO4, 120°C, and 180 min reaction time, the biodiesel yield reached as high as 92.5% and the FAME content was 93.2%. The results suggested that biodiesel could be effectively produced directly from wet microalgae biomass and this effort may offer the benefits of energy requirements for biodiesel production.

  16. Computational fluid dynamics simulation of a single cylinder research engine working with biodiesel

    Directory of Open Access Journals (Sweden)

    Moldovanu Dan

    2013-01-01

    Full Text Available The main objective of the paper is to present the results of the CFD simulation of a DI single cylinder engine using diesel, biodiesel, or different mixture proportions of diesel and biodiesel and compare the results to a test bed measurement in the same functioning point. The engine used for verifying the results of the simulation is a single cylinder research engine from AVL with an open ECU, so that the injection timings and quantities can be controlled and analyzed. In Romania, until the year 2020 all the fuel stations are obliged to have mixtures of at least 10% biodiesel in diesel [14]. The main advantages using mixtures of biofuels in diesel are: the fact that biodiesel is not harmful to the environment; in order to use biodiesel in your engine no modifications are required; the price of biodiesel is smaller than diesel and also if we compare biodiesel production to the classic petroleum based diesel production, it is more energy efficient; biodiesel assures more lubrication to the engine so the life of the engine is increased; biodiesel is a sustainable fuel; using biodiesel helps maintain the environment and it keeps the people more healthy [1-3].

  17. Annex 34 : task 1 : analysis of biodiesel options : biomass-derived diesel fuels : final report

    Energy Technology Data Exchange (ETDEWEB)

    McGill, R. [Oak Ridge National Laboratory, TN (United States); Aakko-Saksa, P.; Nylund, N.O. [TransEnergy Consulting Ltd., Helsinki (Finland)

    2009-06-15

    Biofuels are derived from woody biomass, non-woody biomass, and organic wastes. The properties of vegetable oil feedstocks can have profound effects on the properties of the finished biodiesel product. However, all biodiesel fuels have beneficial effects on engine emissions. This report discussed the use of biodiesel fuels as replacements for part of the diesel fuel consumed throughout the world. Biodiesel fuels currently being produced from fatty acid esters today were reviewed, as well as some of the more advanced diesel replacement fuels. The report was produced as part of the International Energy Agency (IEA) Advanced Motor Fuels (AMF) Implementing Agreement Annex 34, and was divided into 14 sections: (1) an introduction, (2) biodiesel and biomass, (3) an explanation of biodiesel, (4) properties of finished biodiesel fuels, (5) exhaust emissions of finished biodiesel fuels and blends, (6) life-cycle emissions and energy, (7) international biodiesel (FAME) technical standards and specifications, (8) growth in production and use of biodiesel fuels, (9) biofuel refineries, (10) process technology, (11) development and status of biorefineries, (12) comparison of options to produce biobased diesel fuels, (13) barriers and gaps in knowledge, and (14) references. 113 refs., 37 tabs., 74 figs.

  18. Effect of first and second generation biodiesel blends on engine performance and emission

    Science.gov (United States)

    Azad, A. K.; Rasul, M. G.; Bhuiya, M. M. K.; Islam, Rubayat

    2016-07-01

    The biodiesel is a potential source of alternative fuel which can be used at different proportions with diesel fuel. This study experimentally investigated the effect of blend percentage on diesel engine performance and emission using first generation (soybean) and second generation (waste cooking) biodiesel. The characterization of the biodiesel was done according to ASTM and EN standards and compared with ultralow sulfur diesel (ULSD) fuel. A multi-cylinder test bed engine coupled with electromagnetic dynamometer and 5 gas analyzer were used for engine performance and emission test. The investigation was made using B5, B10 and B15 blends for both biodiesels. The study found that brake power (BP) and brake torque (BT) slightly decreases and brake specific fuel consumption (BSFC) slightly increases with an increase in biodiesel blends ratio. Besides, a significant reduction in exhaust emissions (except NOx emission) was found for both biodiesels compared to ULSD. Soybean biodiesel showed better engine performance and emissions reduction compared with waste cooking biodiesel. However, NOx emission for B5 waste cooking biodiesel was lower than soybean biodiesel.

  19. Effect of first and second generation biodiesel blends on engine performance and emission

    Energy Technology Data Exchange (ETDEWEB)

    Azad, A. K., E-mail: azad.cqu@gmail.com, E-mail: a.k.azad@cqu.edu.au; Rasul, M. G., E-mail: m.rasul@cqu.edu.au; Bhuiya, M. M. K., E-mail: m.bhuiya@cqu.edu.au [School of Engineering and Technology, Central Queensland University, Rockhampton, QLD 4702 (Australia); Islam, Rubayat, E-mail: rubayat12@yahoo.com [Department of Mechanical Engineering, Bangladesh University of Engineering and Technology, Dhaka-1000 (Bangladesh)

    2016-07-12

    The biodiesel is a potential source of alternative fuel which can be used at different proportions with diesel fuel. This study experimentally investigated the effect of blend percentage on diesel engine performance and emission using first generation (soybean) and second generation (waste cooking) biodiesel. The characterization of the biodiesel was done according to ASTM and EN standards and compared with ultralow sulfur diesel (ULSD) fuel. A multi-cylinder test bed engine coupled with electromagnetic dynamometer and 5 gas analyzer were used for engine performance and emission test. The investigation was made using B5, B10 and B15 blends for both biodiesels. The study found that brake power (BP) and brake torque (BT) slightly decreases and brake specific fuel consumption (BSFC) slightly increases with an increase in biodiesel blends ratio. Besides, a significant reduction in exhaust emissions (except NO{sub x} emission) was found for both biodiesels compared to ULSD. Soybean biodiesel showed better engine performance and emissions reduction compared with waste cooking biodiesel. However, NO{sub x} emission for B5 waste cooking biodiesel was lower than soybean biodiesel.

  20. Non-Edible Plant Oils as New Sources for Biodiesel Production

    Directory of Open Access Journals (Sweden)

    M. Rafiqul Islam

    2008-02-01

    Full Text Available Due to the concern on the availability of recoverable fossil fuel reserves and the environmental problems caused by the use those fossil fuels, considerable attention has been given to biodiesel production as an alternative to petrodiesel. However, as the biodiesel is produced from vegetable oils and animal fats, there are concerns that biodiesel feedstock may compete with food supply in the long-term. Hence, the recent focus is to find oil bearing plants that produce non-edible oils as the feedstock for biodiesel production. In this paper, two plant species, soapnut (Sapindus mukorossi and jatropha (jatropha curcas, L. are discussed as newer sources of oil for biodiesel production. Experimental analysis showed that both oils have great potential to be used as feedstock for biodiesel production. Fatty acid methyl ester (FAME from cold pressed soapnut seed oil was envisaged as biodiesel source for the first time. Soapnut oil was found to have average of 9.1% free FA, 84.43% triglycerides, 4.88% sterol and 1.59% others. Jatropha oil contains approximately 14% free FA, approximately 5% higher than soapnut oil. Soapnut oil biodiesel contains approximately 85% unsaturated FA while jatropha oil biodiesel was found to have approximately 80% unsaturated FA. Oleic acid was found to be the dominant FA in both soapnut and jatropha biodiesel. Over 97% conversion to FAME was achieved for both soapnut and jatropha oil.

  1. Direct Biodiesel Production from Wet Microalgae Biomass of Chlorella pyrenoidosa through In Situ Transesterification

    Science.gov (United States)

    Cao, Hechun; Zhang, Zhiling; Wu, Xuwen; Miao, Xiaoling

    2013-01-01

    A one-step process was applied to directly converting wet oil-bearing microalgae biomass of Chlorella pyrenoidosa containing about 90% of water into biodiesel. In order to investigate the effects of water content on biodiesel production, distilled water was added to dried microalgae biomass to form wet biomass used to produce biodiesel. The results showed that at lower temperature of 90°C, water had a negative effect on biodiesel production. The biodiesel yield decreased from 91.4% to 10.3% as water content increased from 0% to 90%. Higher temperature could compensate the negative effect. When temperature reached 150°C, there was no negative effect, and biodiesel yield was over 100%. Based on the above research, wet microalgae biomass was directly applied to biodiesel production, and the optimal conditions were investigated. Under the optimal conditions of 100 mg dry weight equivalent wet microalgae biomass, 4 mL methanol, 8 mL n-hexane, 0.5 M H2SO4, 120°C, and 180 min reaction time, the biodiesel yield reached as high as 92.5% and the FAME content was 93.2%. The results suggested that biodiesel could be effectively produced directly from wet microalgae biomass and this effort may offer the benefits of energy requirements for biodiesel production. PMID:24195081

  2. Direct biodiesel production from wet microalgae biomass of Chlorella pyrenoidosa through in situ transesterification.

    Science.gov (United States)

    Cao, Hechun; Zhang, Zhiling; Wu, Xuwen; Miao, Xiaoling

    2013-01-01

    A one-step process was applied to directly converting wet oil-bearing microalgae biomass of Chlorella pyrenoidosa containing about 90% of water into biodiesel. In order to investigate the effects of water content on biodiesel production, distilled water was added to dried microalgae biomass to form wet biomass used to produce biodiesel. The results showed that at lower temperature of 90°C, water had a negative effect on biodiesel production. The biodiesel yield decreased from 91.4% to 10.3% as water content increased from 0% to 90%. Higher temperature could compensate the negative effect. When temperature reached 150°C, there was no negative effect, and biodiesel yield was over 100%. Based on the above research, wet microalgae biomass was directly applied to biodiesel production, and the optimal conditions were investigated. Under the optimal conditions of 100 mg dry weight equivalent wet microalgae biomass, 4 mL methanol, 8 mL n-hexane, 0.5 M H2SO4, 120°C, and 180 min reaction time, the biodiesel yield reached as high as 92.5% and the FAME content was 93.2%. The results suggested that biodiesel could be effectively produced directly from wet microalgae biomass and this effort may offer the benefits of energy requirements for biodiesel production.

  3. Proposta de um método prático de sialometria A proposal for a practical method of sialometry

    Directory of Open Access Journals (Sweden)

    Daniella B. Pupo

    2002-03-01

    Full Text Available Introdução: A xerostomia é uma queixa subjetiva que pode ou não estar relacionada à diminuição da salivação. Deve, porém, ser sempre investigada, pois está freqüentemente associada a doenças sistêmicas, incluindo a síndrome de Sjögren. Apesar de não haver padrão universal que caracterize a hipossalivação, consideramos a sialometria importante para avaliação do tratamento, através da realização de exames seriados em um mesmo paciente. Analisando as técnicas de sialometria já descritas, optamos por adaptar e padronizar o método de Bolwig e Rafaelsen (1972 por considerá-lo o mais prático e fidedigno e visando à partir de então a sua utilização em larga escala. Objetivo: Avaliar os resultados de método submúltiplo de sialometria. Material e método: Foram avaliados 10 sujeitos, 5 sem sintomatologia de xerostomia que formam considerados compatíveis e 5 com xerostomia. Foram submetidos ao método de sialometria com algodão pré e pós estimulados. Os resultados foram comprovados. Resultados: Todos os pacientes apresentaram melhora da saliva mensurável pelo método pós-estimulado. Conclusões: O método utilizado se mostrou de fácil realização e fidedigno.Introduction: Xerostomia is a subjective complaint that may or not be related to decrease in salivation. It should be always investigated because it is frequently associated to systemic diseases, including Sjögren’s syndrome. Despite there is not a universal standard to identify hiposalivation, we consider that sialometry is an important tool for treatment evaluation through serial exams in the same patient. After the analysis of several sialometry techniques, we opted to adapt and to standardize the Bolwig and Rafaelsen method (1972 for being the most practical and reliable method among all. We pursue the large-scale use of this method. Aim: To evaluate the results of a systematized sialometry method. Material and method: 10 subject were evaluated, 5

  4. SÍNTESE E CARACTERIZAÇÃO DE BIODIESEL COM MATERIAL LIPÍDICO EXTRAIDO DAS VÍSCERAS DA Sardinella Brasiliensis

    Directory of Open Access Journals (Sweden)

    Anderson Fernandes Gomes

    2015-06-01

    Full Text Available Este trabalho relata a extração atraves dois métodos (a frio e a quente, com solventes orgânicos o material lipídico obtido das vísceras da Sardinella Brasiliensis. Os lipidios foram submetidos a uma hidroesterificação utilizando iodo sublimado como catalisador. O óleo e o biodiesel foram caracterizados por RMN H1, espectroscopia FTIR, tensão superficial, densidade e água e sedimentos. Os resultados de água e sedimentos e densidade foram comparados com os previstos na legislação. Os resultados evidenciaram que o método à frio forneceu melhor rendimento na extração do óleo, que ocorreu a hidroesterificação do material indicado na técnica de  RMN H1 pelos dois prótons com sinal de quarteto na região de 4,2 ppm referentes aos hidrogênios metilênicos (CH2 ɑ-O, característicos de mono ésteres etílicos (biodiesel e na técnica de FTIR pelo aparecimento de deformações axiais características de ésteres em 1.742 cm-1.  Assim concluiu-se que as vísceras da sardinha são uma matéria-prima promissora e barata para produção de biodiesel, no entanto há necessidade de melhor caracterização da sua qualidade físico-química e estabilidade.

  5. Recent trends, opportunities and challenges of biodiesel in Malaysia: An overview

    Energy Technology Data Exchange (ETDEWEB)

    Lim, Steven; Teong, Lee Keat [School of Chemical Engineering, Engineering Campus, Universiti Sains Malaysia, 14300 Nibong Tebal, Seberang Perai Selatan, Pulau Pinang (Malaysia)

    2010-04-15

    Energy supply and its security issues have been the topic of interest lately. With growing environmental awareness about the negative implications brought by excessive usage of fossil fuels, the race for finding alternative energy as their substitutions is getting heated up. For now, renewable energy from biodiesel has been touted as one of the most promising substitutions for petroleum-derived diesel. Combustion of biodiesel as fuel is more environment-friendly while retaining most of the positive engine properties of petroleum-derived diesel. Production of biodiesel is also a proven technology with established commercialization activities. The huge potential of biodiesel coupled with the abundance of palm oil which is one of the most cost-effective feedstocks for biodiesel is responsible for the pledging of Malaysia to become the leading producer of high quality biodiesel in the region. Currently, total approved installed capacity of biodiesel production in Malaysia equals to almost 92% of the world biodiesel production output in 2008. While Malaysia does indeed possessed materials, technologies and marketing superiority to vie for that position, many more challenges are still awaiting. The price restriction, provisions controversy, escalating non-tariff trade barriers and negligible public support need to be addressed appropriately. In this review, Malaysia's previous and current position in global biodiesel market, its future potential towards the prominent leading biodiesel status and major disrupting obstacles are being discussed. The feasibility of utilizing algae as the up-and-coming biodiesel feedstock in Malaysia is also under scrutiny. Lastly, several recommendations on the roles played by three major forces in Malaysia's biodiesel industry are presented to tackle the shortcomings in achieving the coveted status by Malaysia. It is hope that Malaysia's progress in biodiesel industry will not only benefit itself but rather as the role model

  6. Low-Cost Feedstock Conversion to Biodiesel via Ultrasound Technology

    Directory of Open Access Journals (Sweden)

    Farouk Ameer

    2010-10-01

    Full Text Available Biodiesel has attracted increasing interest and has proved to be a good substitute for fossil-based fuels due to its environmental advantages and availability from renewable resources such as refined and waste vegetable oils. Several studies have shown that biodiesel is a better fuel than the fossil-derived diesel in terms of engine performance, emissions reduction, lubricity and environmental benefits. The increasing popularity of biodiesel has generated great demand for its commercial production methods, which in turn calls for the development of technically and economically sound process technologies. This paper explores the applicability of ultrasound in the optimization of low-cost feedstock – in this case waste cooking oil – in the transesterification conversion to biodiesel. It was found that the conversion efficiency of the waste oil using ultrasound was higher than with the mechanical stirring method. The optimized variables of 6:1 methanol/oil ratio at a reaction temperature of 30 °C and a reaction time of 30 min and 0.75% KOH (wt/wt catalyst concentration was obtained for the transesterification of the waste oil via the use of ultrasound.

  7. Detailed chemical kinetic oxidation mechanism for a biodiesel surrogate

    Energy Technology Data Exchange (ETDEWEB)

    Herbinet, O; Pitz, W J; Westbrook, C K

    2007-09-20

    A detailed chemical kinetic mechanism has been developed and used to study the oxidation of methyl decanoate, a surrogate for biodiesel fuels. This model has been built by following the rules established by Curran et al. for the oxidation of n-heptane and it includes all the reactions known to be pertinent to both low and high temperatures. Computed results have been compared with methyl decanoate experiments in an engine and oxidation of rapeseed oil methyl esters in a jet stirred reactor. An important feature of this mechanism is its ability to reproduce the early formation of carbon dioxide that is unique to biofuels and due to the presence of the ester group in the reactant. The model also predicts ignition delay times and OH profiles very close to observed values in shock tube experiments fueled by n-decane. These model capabilities indicate that large n-alkanes can be good surrogates for large methyl esters and biodiesel fuels to predict overall reactivity, but some kinetic details, including early CO{sub 2} production from biodiesel fuels, can be predicted only by a detailed kinetic mechanism for a true methyl ester fuel. The present methyl decanoate mechanism provides a realistic kinetic tool for simulation of biodiesel fuels.

  8. Detailed chemical kinetic oxidation mechanism for a biodiesel surrogate

    Energy Technology Data Exchange (ETDEWEB)

    Herbinet, O; Pitz, W J; Westbrook, C K

    2007-09-17

    A detailed chemical kinetic mechanism has been developed and used to study the oxidation of methyl decanoate, a surrogate for biodiesel fuels. This model has been built by following the rules established by Curran et al. for the oxidation of n-heptane and it includes all the reactions known to be pertinent to both low and high temperatures. Computed results have been compared with methyl decanoate experiments in an engine and oxidation of rapeseed oil methyl esters in a jet stirred reactor. An important feature of this mechanism is its ability to reproduce the early formation of carbon dioxide that is unique to biofuels and due to the presence of the ester group in the reactant. The model also predicts ignition delay times and OH profiles very close to observed values in shock tube experiments fueled by n-decane. These model capabilities indicate that large n-alkanes can be good surrogates for large methyl esters and biodiesel fuels to predict overall reactivity, but some kinetic details, including early CO2 production from biodiesel fuels, can be predicted only by a detailed kinetic mechanism for a true methyl ester fuel. The present methyl decanoate mechanism provides a realistic kinetic tool for simulation of biodiesel fuels.

  9. Mutagenicity of Diesel and Soy Biodiesel Exhaust Particles

    Science.gov (United States)

    Mutagenicity Of Diesel And Soy Biodiesel Exhaust Particles E Mutlua,b' SH Warrenb, PP Matthewsb, CJ Kingb, B Prestonc, MD Haysb, DG Nashb,ct, WP Linakb, MI Gilmourb, and DM DeMarinib aUniversity of North Carolina, Chapel Hill, NC bU.S. Environmental Agency, Research Triangle Pa...

  10. Marketing Risk Management of Palm Oil Based Biodiesel Agroindustry

    Directory of Open Access Journals (Sweden)

    I Gusti Bagus Udayana

    2014-03-01

    Full Text Available Biodiesel is fuel generates from vegetable oils that have properties similar to diesel oil. The advantages of biodiesel compared to diesel is an environmentally friendly fuel because it produces much lower emissions (sulfur free, low smoke number in accordance with global issues, higher cetane number (> 57 so that the combustion efficiency is better than diesel, lubrication properties of the piston engine; biodegradable, a renewable energy because it is made from natural materials, and improve the independence of fuel supply because it can be produced locally. The purpose of this research is to design the risk management decision support system for agro-industry development biodiesel of oil palm-based. Determination of objectives and risk management strategies using the used to obtain an alternative value in the aspect of marketing. This research resulted in a decision support system that is useful to help decision makers in addressing the risk of agro-bio-diesel. Risk management model is designed in a decision support system  (DSS, can be used by industrial users and investors in the field of biodiesel. DSS software development using Microsoft Visual Basic Version 6.0 consists of three main components namely database management system, knowledge base management system and model base management system. Model base management system consists of risk marketing analysis.

  11. Dual bioimprinting of Thermomyces lanuginosus lipase for synthesis of biodiesel

    Directory of Open Access Journals (Sweden)

    Joyeeta Mukherjee

    2016-06-01

    Full Text Available Use of biodiesel as an alternative to non-renewable sources of energy has become an attractive option in recent years. The enzymatic synthesis of biodiesel by transesterification of fats/oils with an alcohol is a much more sustainable route than the chemical method. However, cost effectiveness of the enzymatic route is a major barrier in its commercialization. In this work, a high activity biocatalyst design of Thermomyces lanuginosus lipase is made by dually bioimprinting it with substrate and a surfactant (which is believed to open up the lid covering the active site of the lipase during precipitation of the lipase in organic solvent. When the lipase was bioimprinted with only the surfactants, 28 U of the enzyme/g of oil could yield 99% biodiesel from soybean oil in about 4 h. However, when dually bioimprinted even very low enzyme load 1.4 U/g of oil, yielded 99% biodiesel within 48 h.

  12. Assessing the greenhouse gas emissions from poultry fat biodiesel

    NARCIS (Netherlands)

    Jorgensen, A.; Bikker, P.; Herrmann, I.T.

    2012-01-01

    This article attempts to answer the question: What will most likely happen in terms of emitted greenhouse gases if the use of poultry fat for making biodiesel used in transportation is increased? Through a well-to-wheel assessment, several different possible scenarios are assessed, showing that

  13. Biodiesel from microalgae – greenhouse gas emissions and energy balance

    DEFF Research Database (Denmark)

    Monari, Chiara; Righi, Serena; Olsen, Stig Irving

    difficulties with both microalgae cultivation in wastewater as well as transportation and injection of waste CO2. In any way, a positive energy balance is still far from being achieved. Considerable improvements must be made to develop an environmentally beneficial microalgae biodiesel production...

  14. Superstructure optimization of biodiesel production from microalgal biomass

    DEFF Research Database (Denmark)

    Rizwan, Muhammad; Lee, Jay H.; Gani, Rafiqul

    2013-01-01

    for the production of biodiesel from microalgae. The proposed methodology is tested by implementing on a specific case study. The MINLP model is implemented and solved in GAMS using a database built in Excel. The results from the optimization are analyzed and their significances are discussed....

  15. A Simple, Safe Method for Preparation of Biodiesel

    Science.gov (United States)

    Behnia, Mahin S.; Emerson, David W.; Steinberg, Spencer M.; Alwis, Rasika M.; Duenas, Josue A.; Serafino, Jessica O.

    2011-01-01

    An experiment suitable for organic chemistry students is described. Biodiesel, a "green" fuel, consists of methyl or ethyl esters of long-chain fatty acids called FAMES (fatty acid methyl esters) or FAEES (fatty acid ethyl esters). A quick way to make FAMES is a base-catalyzed transesterification of oils or fats derived from plants or from animal…

  16. Artificial Intelligent Control for a Novel Advanced Microwave Biodiesel Reactor

    Energy Technology Data Exchange (ETDEWEB)

    Wali, W A; Hassan, K H; Cullen, J D; Al-Shamma' a, A I; Shaw, A; Wylie, S R, E-mail: w.wali@2009.ljmu.ac.uk [Built Environment and Sustainable Technologies Institute (BEST), School of the Built Environment, Faculty of Technology and Environment Liverpool John Moores University, Byrom Street, Liverpool L3 3AF (United Kingdom)

    2011-08-17

    Biodiesel, an alternative diesel fuel made from a renewable source, is produced by the transesterification of vegetable oil or fat with methanol or ethanol. In order to control and monitor the progress of this chemical reaction with complex and highly nonlinear dynamics, the controller must be able to overcome the challenges due to the difficulty in obtaining a mathematical model, as there are many uncertain factors and disturbances during the actual operation of biodiesel reactors. Classical controllers show significant difficulties when trying to control the system automatically. In this paper we propose a comparison of artificial intelligent controllers, Fuzzy logic and Adaptive Neuro-Fuzzy Inference System(ANFIS) for real time control of a novel advanced biodiesel microwave reactor for biodiesel production from waste cooking oil. Fuzzy logic can incorporate expert human judgment to define the system variables and their relationships which cannot be defined by mathematical relationships. The Neuro-fuzzy system consists of components of a fuzzy system except that computations at each stage are performed by a layer of hidden neurons and the neural network's learning capability is provided to enhance the system knowledge. The controllers are used to automatically and continuously adjust the applied power supplied to the microwave reactor under different perturbations. A Labview based software tool will be presented that is used for measurement and control of the full system, with real time monitoring.

  17. Artificial Intelligent Control for a Novel Advanced Microwave Biodiesel Reactor

    Science.gov (United States)

    Wali, W. A.; Hassan, K. H.; Cullen, J. D.; Al-Shamma'a, A. I.; Shaw, A.; Wylie, S. R.

    2011-08-01

    Biodiesel, an alternative diesel fuel made from a renewable source, is produced by the transesterification of vegetable oil or fat with methanol or ethanol. In order to control and monitor the progress of this chemical reaction with complex and highly nonlinear dynamics, the controller must be able to overcome the challenges due to the difficulty in obtaining a mathematical model, as there are many uncertain factors and disturbances during the actual operation of biodiesel reactors. Classical controllers show significant difficulties when trying to control the system automatically. In this paper we propose a comparison of artificial intelligent controllers, Fuzzy logic and Adaptive Neuro-Fuzzy Inference System(ANFIS) for real time control of a novel advanced biodiesel microwave reactor for biodiesel production from waste cooking oil. Fuzzy logic can incorporate expert human judgment to define the system variables and their relationships which cannot be defined by mathematical relationships. The Neuro-fuzzy system consists of components of a fuzzy system except that computations at each stage are performed by a layer of hidden neurons and the neural network's learning capability is provided to enhance the system knowledge. The controllers are used to automatically and continuously adjust the applied power supplied to the microwave reactor under different perturbations. A Labview based software tool will be presented that is used for measurement and control of the full system, with real time monitoring.

  18. A Review of Microwave-Assisted Reactions for Biodiesel Production

    Science.gov (United States)

    Nomanbhay, Saifuddin; Ong, Mei Yin

    2017-01-01

    The conversion of biomass into chemicals and biofuels is an active research area as trends move to replace fossil fuels with renewable resources due to society’s increased concern towards sustainability. In this context, microwave processing has emerged as a tool in organic synthesis and plays an important role in developing a more sustainable world. Integration of processing methods with microwave irradiation has resulted in a great reduction in the time required for many processes, while the reaction efficiencies have been increased markedly. Microwave processing produces a higher yield with a cleaner profile in comparison to other methods. The microwave processing is reported to be a better heating method than the conventional methods due to its unique thermal and non-thermal effects. This paper provides an insight into the theoretical aspects of microwave irradiation practices and highlights the importance of microwave processing. The potential of the microwave technology to accomplish superior outcomes over the conventional methods in biodiesel production is presented. A green process for biodiesel production using a non-catalytic method is still new and very costly because of the supercritical condition requirement. Hence, non-catalytic biodiesel conversion under ambient pressure using microwave technology must be developed, as the energy utilization for microwave-based biodiesel synthesis is reported to be lower and cost-effective. PMID:28952536

  19. Preparation of Jojoba Oil Ester Derivatives for Biodiesel Evaluation

    Science.gov (United States)

    As a result of the increase in commodity vegetable oil prices, it is imperative that non-food oils should be considered as alternative feedstocks for biodiesel production. Jojoba oil is unusual in that it is comprised of wax esters as opposed to the triglycerides found in typical vegetable oils. A...

  20. Aspen Simulation of Diesel-Biodiesel Blends Combustion

    Directory of Open Access Journals (Sweden)

    Pérez-Sánchez Armando

    2015-01-01

    Full Text Available Biodiesel is a fuel produced by transesterification of vegetable oils or animal fats, which currently is gaining attention as a diesel substitute. It represents an opportunity to reduce CO2, SO2, CO, HC, PAH and PM emissions and contributes to the diversification of fuels in Mexico's energetic matrix. The results of the simulation of the combustion process are presented in this paper with reference to an engine specification KUBOTA D600-B, operated with diesel-biodiesel blends. The physicochemical properties of the compounds and the operating conditions of equipment were developed using the simulator Aspen® and supplementary information. The main aspects of the engine working conditions were considered such as diesel-biodiesel ratio, air/fuel mixture, temperature of the combustion gases and heat load. Diesel physicochemical specifications were taken from reports of PEMEX and SENER. Methyl esters corresponding to the transesterification of fatty acids that comprise castor oil were regarded as representative molecules of biodiesel obtained from chromatographic analysis. The results include CO2, water vapor, combustion efficiency, power and lower calorific value of fuels.

  1. Novel investigation of enzymatic biodiesel reaction by isothermal calorimetry

    DEFF Research Database (Denmark)

    Søtoft, Lene Fjerbaek; Westh, Peter; Christensen, Knud V.

    2010-01-01

    Isothermal calorimetry (ITC) was used to investigate solvent-free enzymatic biodiesel production. The transesterification of rapeseed oil with methanol and ethanol was catalyzed by immobilized lipase Novozym 435 at 40 °C. The aim of the study was to determine reaction enthalpy for the enzymatic...

  2. Enzymatic pretreatment of low-grade oils for biodiesel production

    DEFF Research Database (Denmark)

    Nordblad, Mathias; Pedersen, Anders K.; Rancke-Madsen, Anders

    2016-01-01

    The alkaline process for making biodiesel (fatty acidmethyl esters, or FAME) is highly efficient at the transesterification of glycerides. However, its performance is poor when it comes to using oil that contain significant amounts of free fatty acids (FFA).The traditional approach to such feed s...

  3. Computational Fluid Dynamics Analysis of High Injection Pressure Blended Biodiesel

    Science.gov (United States)

    Khalid, Amir; Jaat, Norrizam; Faisal Hushim, Mohd; Manshoor, Bukhari; Zaman, Izzuddin; Sapit, Azwan; Razali, Azahari

    2017-08-01

    Biodiesel have great potential for substitution with petrol fuel for the purpose of achieving clean energy production and emission reduction. Among the methods that can control the combustion properties, controlling of the fuel injection conditions is one of the successful methods. The purpose of this study is to investigate the effect of high injection pressure of biodiesel blends on spray characteristics using Computational Fluid Dynamics (CFD). Injection pressure was observed at 220 MPa, 250 MPa and 280 MPa. The ambient temperature was kept held at 1050 K and ambient pressure 8 MPa in order to simulate the effect of boost pressure or turbo charger during combustion process. Computational Fluid Dynamics were used to investigate the spray characteristics of biodiesel blends such as spray penetration length, spray angle and mixture formation of fuel-air mixing. The results shows that increases of injection pressure, wider spray angle is produced by biodiesel blends and diesel fuel. The injection pressure strongly affects the mixture formation, characteristics of fuel spray, longer spray penetration length thus promotes the fuel and air mixing.

  4. Fast biodiesel production from beef tallow with radio frequency heating

    Energy Technology Data Exchange (ETDEWEB)

    Liu, Shaoyang; Wang, Yifen [Biosystems Engineering Department, Auburn University, 200 Tom E. Corley Building, Auburn, AL 36849-5417 (United States); Oh, Jun-Hyun [Department of Plant Science and Technology, Sangmyung University (Korea, Republic of); Herring, Josh L. [Department of Food and Animal Sciences, Alabama A and M University, Normal, AL 35762 (United States)

    2011-03-15

    Efficient biodiesel production from beef tallow was achieved with radio frequency (RF) heating. A conversion rate of 96.3 {+-} 0.5% was obtained with a NaOH concentration of 0.6% (based on tallow), an RF heating for 5 min, and a methanol/tallow molar ratio of 9:1. Response surface methodology was employed to evaluate the influence of NaOH dose, RF heating time, and methanol/tallow ratio. The alkaline concentration showed the largest positive impact on the conversion rate. Similar fast conversion from canola oil to biodiesel was achieved in our previous work, indicating that RF heating, as an accelerating technique for biodiesel production, had a large applying area. Viscosities of biodiesel products from beef tallow and canola oil were measured as 5.23 {+-} 0.01 and 4.86 {+-} 0.01 mm{sup 2} s{sup -1}, respectively, both meeting the specification in ASTM D6751 (1.9-6.0 mm{sup 2} s{sup -1}). (author)

  5. AN EXPERIMENTAL INVESTIGATION ON OXIDATIVE STABILITY OF BIODIESEL

    Directory of Open Access Journals (Sweden)

    Mustafa ÇANAKÇI

    2004-02-01

    Full Text Available Biodiesel is an alternative fuel for diesel engines that can be produced from renewable feed stocks such as vegetable oil and animal fats. These feed stocks are reacted with an alcohol to produce alkyl monoesters. The obtained ester can be used in conventional diesel engines with little or no modification. Biodiesel, especially if produced from highly unsaturated oils, oxidizes more rapidly than diesel fuel. This paper reports the results of accelerated oxidation tests on biodiesel. These tests show the impact of time, oxygen flow rate, temperature, metals, and feedstock type on the rate of oxidation. Blending with diesel fuel and the addition of antioxidants are also explored. The data indicate that without antioxidants, biodiesel will oxidize very quickly at temperatures typical of diesel engines. This oxidation results in increases in peroxide value, acid value, and viscosity. While the peroxide value generally reaches a plateau of about 350 meq O2/kg, the acid value and viscosity increase monotonically as oxidation proceeds.

  6. Quality Assessment of Biodiesels from Lophira Lanceolata and Zi

    African Journals Online (AJOL)

    M.KYARI

    Lophira and Ziziphus oils were transesterified under the following conditions: ethanol/methanol/oil molar ratio (6:1), potassium hydroxide catalyst (1.0%wt), temperature (55. oC. ) .... the catalyst, and glycerol. ... indicates oils to be normal triglycerides which ... Table 2.0: Methyl Fatty Acid Esters (approximate wt %) of Biodiesels ...

  7. Process optimization of biodiesel production from wild rapeseed (Brassica campestris

    Directory of Open Access Journals (Sweden)

    Héctor Ramírez

    2012-03-01

    Full Text Available The objectives of this study were, to optimize the performance of biodiesel from rapeseed wild oil depending on the molar ratio methanol / oil, the concentration of NaOH and KOH homogeneous catalysts, temperature and time of transesterification through the response surface methodology, and determining the physicochemical characteristics of biodiesel obtained under optimized conditions. A Plackett and Burman (PB12 design was applied for the screening stage and a rotatable central composite design (DCCR for the final optimization. The conditions that maximize the yield of biodiesel (77.8% were obtained at concentrations of 0 to 0.2% NaOH and 0.4 to 0.6% KOH, with time from 77 to 81 minutes, keeping constant the molar ratio of methanol/oil in 6/1 and a temperature of 60 °C. The physicochemical properties of biodiesel obtained under optimized conditions meet the technical specifications given by ASTM D6751 - 07 and EN14214

  8. A Simple, Safe Method for Preparation of Biodiesel

    Science.gov (United States)

    Behnia, Mahin S.; Emerson, David W.; Steinberg, Spencer M.; Alwis, Rasika M.; Duenas, Josue A.; Serafino, Jessica O.

    2011-01-01

    An experiment suitable for organic chemistry students is described. Biodiesel, a "green" fuel, consists of methyl or ethyl esters of long-chain fatty acids called FAMES (fatty acid methyl esters) or FAEES (fatty acid ethyl esters). A quick way to make FAMES is a base-catalyzed transesterification of oils or fats derived from plants or from animal…

  9. Biodiesel production from rice bran oil and supercritical methanol.

    Science.gov (United States)

    Kasim, Novy Srihartati; Tsai, Tsung-Han; Gunawan, Setiyo; Ju, Yi-Hsu

    2009-04-01

    In this study, production of biodiesel from low cost raw materials, such as rice bran and dewaxed-degummed rice bran oil (DDRBO), under supercritical condition was carried out. Carbon dioxide (CO2) was employed as co-solvent to decrease the supercritical temperature and pressure of methanol. The effects of different raw materials on the yield of biodiesel production were investigated. In situ transesterification of rice bran with supercritical methanol at 30MPa and 300 degrees C for 5 min was not a promising way to produce biodiesel because the purity and yield of fatty acid methyl esters (FAMEs) obtained were 52.52% and 51.28%, respectively. When DDRBO was reacted, the purity and yield were 89.25% and 94.84%, respectively. Trans-FAMEs, which constituted about 16% of biodiesel, were found. They were identified as methyl elaidate [trans-9], methyl linoleaidate [trans-9, trans-12], methyl linoleaidate [cis-9, trans-12], and methyl linoleaidate [trans-9, cis-12]. Hydrocarbons, which constituted about 3% of the reaction product, were also detected.

  10. Superstructure-based optimization of biorefinery networks: Production of biodiesel

    DEFF Research Database (Denmark)

    2015-01-01

    through a practical case study for the production biodiesel from a variety of feedstock. The different biorefinery processing alternatives are represented in a superstructure and the associated data is collected and stored in a database. Once a specific biorefinery synthesis problem is formulated...

  11. Dutch business opportunities in the Turkish biodiesel sector

    NARCIS (Netherlands)

    Wiersinga, R.C.; Elbersen, H.W.; Yilmaz, G.

    2009-01-01

    To research possibilities for Dutch businesses to be involved in the Turkish biodiesel sector, a short literature study and unstructured interviews with sector stakeholders were performed. Turkey is interested to develop its biofuel sector particularly to improve its security of energy supply, more

  12. Soybean Oil: Powering a High School Investigation of Biodiesel

    Science.gov (United States)

    De La Rosa, Paul; Azurin, Katherine A.; Page, Michael F. Z.

    2014-01-01

    This laboratory investigation challenges students to synthesize, analyze, and compare viable alternative fuels to Diesel No. 2 using a renewable resource, as well as readily available reagents and supplies. During the experiment, students synthesized biodiesel from soybean oil in an average percent yield of 83.8 ± 6.3%. They then prepared fuel…

  13. Detailed chemical kinetic oxidation mechanism for a biodiesel surrogate

    Energy Technology Data Exchange (ETDEWEB)

    Herbinet, O; Pitz, W J; Westbrook, C K

    2007-09-20

    A detailed chemical kinetic mechanism has been developed and used to study the oxidation of methyl decanoate, a surrogate for biodiesel fuels. This model has been built by following the rules established by Curran et al. for the oxidation of n-heptane and it includes all the reactions known to be pertinent to both low and high temperatures. Computed results have been compared with methyl decanoate experiments in an engine and oxidation of rapeseed oil methyl esters in a jet stirred reactor. An important feature of this mechanism is its ability to reproduce the early formation of carbon dioxide that is unique to biofuels and due to the presence of the ester group in the reactant. The model also predicts ignition delay times and OH profiles very close to observed values in shock tube experiments fueled by n-decane. These model capabilities indicate that large n-alkanes can be good surrogates for large methyl esters and biodiesel fuels to predict overall reactivity, but some kinetic details, including early CO{sub 2} production from biodiesel fuels, can be predicted only by a detailed kinetic mechanism for a true methyl ester fuel. The present methyl decanoate mechanism provides a realistic kinetic tool for simulation of biodiesel fuels.

  14. Detailed chemical kinetic oxidation mechanism for a biodiesel surrogate

    Energy Technology Data Exchange (ETDEWEB)

    Herbinet, O; Pitz, W J; Westbrook, C K

    2007-09-17

    A detailed chemical kinetic mechanism has been developed and used to study the oxidation of methyl decanoate, a surrogate for biodiesel fuels. This model has been built by following the rules established by Curran et al. for the oxidation of n-heptane and it includes all the reactions known to be pertinent to both low and high temperatures. Computed results have been compared with methyl decanoate experiments in an engine and oxidation of rapeseed oil methyl esters in a jet stirred reactor. An important feature of this mechanism is its ability to reproduce the early formation of carbon dioxide that is unique to biofuels and due to the presence of the ester group in the reactant. The model also predicts ignition delay times and OH profiles very close to observed values in shock tube experiments fueled by n-decane. These model capabilities indicate that large n-alkanes can be good surrogates for large methyl esters and biodiesel fuels to predict overall reactivity, but some kinetic details, including early CO2 production from biodiesel fuels, can be predicted only by a detailed kinetic mechanism for a true methyl ester fuel. The present methyl decanoate mechanism provides a realistic kinetic tool for simulation of biodiesel fuels.

  15. Environmental impacts of Jatropha curcas biodiesel in India.

    Science.gov (United States)

    Gmünder, Simon; Singh, Reena; Pfister, Stephan; Adheloya, Alok; Zah, Rainer

    2012-01-01

    In the context of energy security, rural development and climate change, India actively promotes the cultivation of Jatropha curcas, a biodiesel feedstock which has been identified as suitable for achieving the Indian target of 20% biofuel blending by 2017. In this paper, we present results concerning the range of environmental impacts of different Jatropha curcas cultivation systems. Moreover, nine agronomic trials in Andhra Pradesh are analysed, in which the yield was measured as a function of different inputs such as water, fertilizer, pesticides, and arbuscular mycorrhizal fungi. Further, the environmental impact of the whole Jatropha curcas biodiesel value chain is benchmarked with fossil diesel, following the ISO 14040/44 life cycle assessment procedure. Overall, this study shows that the use of Jatropha curcas biodiesel generally reduces the global warming potential and the nonrenewable energy demand as compared to fossil diesel. On the other hand, the environmental impacts on acidification, ecotoxicity, eutrophication, and water depletion all showed increases. Key for reducing the environmental impact of Jatropha curcas biodiesel is the resource efficiency during crop cultivation (especially mineral fertilizer application) and the optimal site selection of the Jatropha curcas plantations.

  16. Biodiesel from Seeds: An Experiment for Organic Chemistry

    Science.gov (United States)

    Goldstein, Steven W.

    2014-01-01

    Plants can store the chemical energy required by their developing offspring in the form of triglycerides. These lipids can be isolated from seeds and then converted into biodiesel through a transesterification reaction. This second-year undergraduate organic chemistry laboratory experiment exemplifies the conversion of an agricultural energy…

  17. Corrosion characteristics of copper and leaded bronze in palm biodiesel

    Energy Technology Data Exchange (ETDEWEB)

    Haseeb, A.S.M.A.; Masjuki, H.H.; Ann, L.J.; Fazal, M.A. [Department of Mechanical Engineering, University of Malaya, 50603 Kuala Lumpur (Malaysia)

    2010-03-15

    Biodiesel has become more attractive as alternative fuel for automobiles because of its environmental benefits and the fact that it is made from renewable sources. However, corrosion of metals in biodiesel is one of the concerns related to biodiesel compatibility issues. This study aims to characterize the corrosion behavior of commercial pure copper and leaded bronze commonly encountered in the automotive fuel system in diesel engine. Static immersion tests in B0, B50 and B100 fuels were carried out at room temperature for 2640 h. Similar immersion tests in B0, B100 and B100 (oxidized) fuels were also conducted at 60 C for 840 h. At the end of the test, corrosion behavior was investigated by weight loss measurements and changes in surface morphology. Fuels were analyzed by using TAN analyzer, FTIR, MOA (multi-element oil analyzer) to investigate acid concentration, oxidation level with water content and corrosive impurities respectively. Results showed that under the experimental conditions, pure copper was more susceptible to corrosion in biodiesel as compared to leaded bronze. (author)

  18. Oil industry waste: a potential feedstock for biodiesel production.

    Science.gov (United States)

    Abbas, Javeria; Hussain, Sabir; Iqbal, Muhammad Javid; Nadeem, Habibullah; Qasim, Muhammad; Hina, Saadia; Hafeez, Farhan

    2016-08-01

    The worldwide rising energy demands and the concerns about the sustainability of fossil fuels have led to the search for some low-cost renewable fuels. In this scenario, the production of biodiesel from various vegetable and animal sources has attracted worldwide attention. The present study was conducted to evaluate the production of biodiesel from the oil industry waste following base-catalysed transesterification. The transesterification reaction gave a yield of 83.7% by 6:1 methanol/oil molar ratio, at 60°C over 80 min of reaction time in the presence of NaOH. The gas chromatographic analysis of the product showed the presence of 16 fatty acid methyl esters with linoleic and oleic acid as principal components representing about 31% and 20.7% of the total methyl esters, respectively. The fourier transform infrared spectroscopy spectrum of oil industry waste and transesterified product further confirmed the formation of methyl esters. Furthermore, the fuel properties of oil industry waste methyl esters, such as kinematic viscosity, cetane number, cloud point, pour point, flash point, acid value, sulphur content, cold filter plugging point, copper strip corrosion, density, oxidative stability, higher heating values, ash content, water content, methanol content and total glycerol content, were determined and discussed in the light of ASTM D6751 and EN 14214 biodiesel standards. Overall, this study presents the production of biodiesel from the oil industry waste as an approach of recycling this waste into value-added products.

  19. Assessing the greenhouse gas emissions from poultry fat biodiesel

    NARCIS (Netherlands)

    Jorgensen, A.; Bikker, P.; Herrmann, I.T.

    2012-01-01

    This article attempts to answer the question: What will most likely happen in terms of emitted greenhouse gases if the use of poultry fat for making biodiesel used in transportation is increased? Through a well-to-wheel assessment, several different possible scenarios are assessed, showing that unde

  20. Production of Biodiesel Using Ethanol Way and Alkaline Catalyst

    Directory of Open Access Journals (Sweden)

    Cesar Aparecido da Silva

    2010-06-01

    Full Text Available The potential inputs to promote the supply of the demand for power generation has become the aim of several scientific researches to mitigate environmental impacts. The biodiesel is the highlight solution that can be obtained through the transesterification process. The aim this present work was the biodiesel production using ethanol and crude oil sunflower as inputs and potassium ethoxide such as catalyst for the rection. Were produced seven samples using different parameters. The product with high rate of ethyl ester was the one with catalyst and reaction time optimized. However, it has showed the presence of glycerol, suggesting the use of other unit operations such as cooling and centrifugation to improve the purity of the biodiesel formed is necessary. The parameters used in this experiment (oil, catalyst and water washing contents, reaction time, temperature and agitation speed showed critical endpoints to be monitored during the production of biodiesel due interfering the quality and yield to the final product. In addition, the inappropriate speed of agitation in the reactor for ethanol way in the presence of an alkaline catalyst can gelatinize the mixture of reactants due the emulsion formed.

  1. Life-cycle assessment of biodiesel production from microalgae.

    Science.gov (United States)

    Lardon, Laurent; Hélias, Arnaud; Sialve, Bruno; Steyer, Jean-Philippe; Bernard, Olivier

    2009-09-01

    This paper provides an analysis of the potential environmental impacts of biodiesel production from microalgae. High production yields of microalgae have called forth interest of economic and scientific actors but it is still unclear whether the production of biodiesel is environmentally interesting and which transformation steps need further adjustment and optimization. A comparative LCA study of a virtual facility has been undertaken to assessthe energetic balance and the potential environmental impacts of the whole process chain, from the biomass production to the biodiesel combustion. Two different culture conditions, nominal fertilizing or nitrogen starvation, as well as two different extraction options, dry or wet extraction, have been tested. The best scenario has been compared to first generation biodiesel and oil diesel. The outcome confirms the potential of microalgae as an energy source but highlights the imperative necessity of decreasing the energy and fertilizer consumption. Therefore control of nitrogen stress during the culture and optimization of wet extraction seem to be valuable options. This study also emphasizes the potential of anaerobic digestion of oilcakes as a way to reduce external energy demand and to recycle a part of the mineral fertilizers.

  2. Overview and opportunities of biodiesel production in Kaliningrad region

    Energy Technology Data Exchange (ETDEWEB)

    Aizenberg, G.; Tsipukhovskiy, A. [Kaliningrad State Land-Reclamation Center (Russian Federation)

    2006-07-01

    Two or three years ago activity targeted to biodiesel production would have been pointless because of the low home market price for the diesel fuel derived from oil. However, in recent years constant rising of the oil price in the world market as well as in the home market forced us to pay attention to alternative ways. (orig.)

  3. Biodiesel from Seeds: An Experiment for Organic Chemistry

    Science.gov (United States)

    Goldstein, Steven W.

    2014-01-01

    Plants can store the chemical energy required by their developing offspring in the form of triglycerides. These lipids can be isolated from seeds and then converted into biodiesel through a transesterification reaction. This second-year undergraduate organic chemistry laboratory experiment exemplifies the conversion of an agricultural energy…

  4. Biodiesel from non-food alternative feed-stock

    Science.gov (United States)

    As a potential feedstock for biodiesel (BD) production, Jojoba oil was extracted from Jojoba (Simmondsia chinensis L.) plant seeds that contained around 50-60 wt.%, which were explored as non-food alternative feedstocks. Interestingly, Jojoba oil has long-chain wax esters and is not a typical trigly...

  5. Preparation of biodiesel from soybean oil by using heterogeneous catalyst

    Directory of Open Access Journals (Sweden)

    Kaniz Ferdous, M. Rakib Uddin, Maksudur R. Khan, M. A. Islam

    2013-01-01

    Full Text Available The predicted shortage of fossil fuels and related environmental concerns has recently attracted significant attention to search alternative fuel. Biodiesel is one of the alternatives to fossil fuel. Now-a-days, most biodiesel is produced by the transesterification of oils using methanol and a homogeneous base catalyst. The use of homogeneous catalysts is normally limited to batch mode processing followed by a catalyst separation step. The immiscible glycerol phase, which accumulates during the course of the reaction, solubilizes the homogeneous base catalyst and therefore, withdraws from the reaction medium. Moreover, other difficulties of using homogeneous base catalysts relate to their sensitivity to free fatty acid (FFA and water and resulting saponification phenomenon. High energy consumption and costly separation of the catalyst from the reaction mixture have inspired the use of heterogeneous catalyst. The use of heterogeneous catalysts does not lead to the formation of soaps through neutralization of FFA and saponification of oil. In the present paper, biodiesel was prepared from crude (soybean oil by transesterification reaction using heterogeneous base catalyst name calcium oxide (CaO. Various reaction parameters were optimized and the biodiesel properties were evaluated.

  6. Dutch business opportunities in the Turkish biodiesel sector

    NARCIS (Netherlands)

    Wiersinga, R.C.; Elbersen, H.W.; Yilmaz, G.

    2009-01-01

    To research possibilities for Dutch businesses to be involved in the Turkish biodiesel sector, a short literature study and unstructured interviews with sector stakeholders were performed. Turkey is interested to develop its biofuel sector particularly to improve its security of energy supply, more

  7. A techno-economic analysis of biodiesel production from microalgae

    NARCIS (Netherlands)

    Olivieri, G.; Guida, T.; Salatino, P.; Marzocchella, A.

    2013-01-01

    The preliminary assessment of a cost-effective flow-sheet for the production of biodiesel from microalgae lipid fraction was carried out. The study was based on approximated cost-estimation methods integrated with the simulation software Aspen Plus (R). Several scenarios were investigated to compare

  8. Preparation of biodiesel from soybean oil by using heterogeneous catalyst

    Energy Technology Data Exchange (ETDEWEB)

    Ferdous, Kaniz; Rakib Uddin, M.; Islam, M.A. [Department of Chemical Engineering and Polymer Science, Shah Jalal University of Science and Technology, Sylhet 3114 (Bangladesh); Khan, Maksudur R. [Department of Chemical Engineering and Polymer Science, Shah Jalal University of Science and Technology, Sylhet 3114 (Bangladesh); Faculty of Chemical and Natural Resources Engineering, University Malaysia Pahang, 26300 Gambang, Kuantan, Pahang (Malaysia)

    2013-07-01

    The predicted shortage of fossil fuels and related environmental concerns has recently attracted significant attention to search alternative fuel. Biodiesel is one of the alternatives to fossil fuel. Now-a-days, most biodiesel is produced by the transesterification of oils using methanol and a homogeneous base catalyst. The use of homogeneous catalysts is normally limited to batch mode processing followed by a catalyst separation step. The immiscible glycerol phase, which accumulates during the course of the reaction, solubilizes the homogeneous base catalyst and therefore, withdraws from the reaction medium. Moreover, other difficulties of using homogeneous base catalysts relate to their sensitivity to free fatty acid (FFA) and water and resulting saponification phenomenon. High energy consumption and costly separation of the catalyst from the reaction mixture have inspired the use of heterogeneous catalyst. The use of heterogeneous catalysts does not lead to the formation of soaps through neutralization of FFA and saponification of oil. In the present paper, biodiesel was prepared from crude (soybean) oil by transesterification reaction using heterogeneous base catalyst name calcium oxide (CaO). Various reaction parameters were optimized and the biodiesel properties were evaluated.

  9. Technical aspects of biodiesel production from vegetable oils

    Directory of Open Access Journals (Sweden)

    Krishnakumar Janahiraman

    2008-01-01

    Full Text Available Biodiesel, a promising substitute as an alternative fuel has gained significant attention due to the finite nature of fossil energy sources and does not produce sulfur oxides and minimize the soot particulate in comparison with the existing one from petroleum diesel. The utilization of liquid fuels such as biodiesel produced from vegetable oil by transesterification process represents one of the most promising options for the use of conventional fossil fuels. In the first step of this experimental research, edible rice bran oil used as test material and converted into methyl ester and non-edible jatropha vegetable oil is converted into jatropha oil methyl ester, which are known as biodiesel and they are prepared in the presence of homogeneous acid catalyst and optimized their operating parameters like reaction temperature, quantity of alcohol and the catalyst requirement, stirring rate and time of esterification. In the second step, the physical properties such as density, flash point, kinematic viscosity, cloud point, and pour point were found out for the above vegetable oils and their methyl esters. The same characteristics study was also carried out for the diesel fuel for obtaining the baseline data for analysis. The values obtained from the rice bran oil methyl ester and jatropha oil methyl ester are closely matched with the values of conventional diesel and it can be used in the existing diesel engine without any hardware modification. In the third step the storage characteristics of biodiesel are also studied. .

  10. Superstructure optimization of biodiesel production from microalgal biomass

    DEFF Research Database (Denmark)

    Rizwan, Muhammad; Lee, Jay H.; Gani, Rafiqul

    2013-01-01

    for the production of biodiesel from microalgae. The proposed methodology is tested by implementing on a specific case study. The MINLP model is implemented and solved in GAMS using a database built in Excel. The results from the optimization are analyzed and their significances are discussed....

  11. Composition and Toxicity of Biodiesel versus Conventional Diesel

    Science.gov (United States)

    Increasing production of biodiesel (BD) fuel at the local, national, and global levels raise important issues related to the impact and potential adverse health outcome related to BD exposures. Studies on the toxicity of BD combustion emissions are very limited. Emission co...

  12. Biodiesel from waste cooking oil in Mexico City.

    Science.gov (United States)

    Sheinbaum, Claudia; Balam, Marco V; Robles, Guillermo; Lelo de Larrea, Sebastian; Mendoza, Roberto

    2015-08-01

    The aim of this article is to evaluate the potential use of biodiesel produced from waste cooking oil in Mexico City. The study is divided in two main areas: the analysis of a waste cooking oil collection pilot project conducted in food markets of a Mexico City region; and the exhaust emissions performance of biodiesel blends measured in buses of the Mexico City public bus transportation network (RTP). Results from the waste cooking oil collection pilot project show that oil quantities disposed depend upon the type of food served and the operational practices in a cuisine establishment. Food markets' waste cooking oil disposal rate from fresh oil is around 10%, but with a very high standard deviation. Emission tests were conducted using the Ride-Along-Vehicle-Emissions-Measuring System in two different types of buses while travelling a regular route. Results shows that the use of biodiesel blends reduces emissions only for buses that have exhaust gas recirculation systems, as analysed by repeated measure analysis of variance. The potential use in Mexico City of waste cooking oil for biodiesel is estimated to cover 2175 buses using a B10 blend. © The Author(s) 2015.

  13. KARAKTERISTIK BIODIESEL HASIL TRANSESTERIFIKASI MINYAK JELANTAH MENGGUNAKAN TEKNIK KAVITASI HIDRODINAMIK

    Directory of Open Access Journals (Sweden)

    Satriana Satriana

    2012-06-01

    Full Text Available This study undertakes the transesterification process of used cooking oils that have undergone a process of esterification. The transesterification process carried out by reacting methanol and esterified used cooking oil using KOH as catalyst. Stirring technique used is based on hydrodynamic cavitation. This research aims to study the characteristics of biodiesel that made from transesterified used cooking oil with different concentrations of methanol. The concentration of methanol used consists of 5 (five level are: 99.9%, 95%, 90%, 80%, and 70%. The transesterification process using hydrodynamic cavitation technique with a 99.9% concentration of methanol result in biodiesel with characteristics consistent by Indonesian National Standard (SNI. In this condition, biodiesel produced 92.93% of the yield which has characteristics of acid number 0.80 mg KOH / g, total glycerol 0.045%, alkyl ester 99.45%, iodine number 14.92 g I2/100 g,  viscosity 2,35 mm2 / s , density 0.87745 g/cm3  and pH value 4.885. Based on research, the concentration of methanol lower than 99.9% not yet can produce biodiesel from used cooking oil that have characteristics according to Indonesian National Standard (SNI.

  14. Low-Cost feedstock conversion to biodiesel via ultrasound technology

    CSIR Research Space (South Africa)

    Babajide, O

    2010-10-01

    Full Text Available Biodiesel has attracted increasing interest and has proved to be a good substitute for fossil-based fuels due to its environmental advantages and availability from renewable resources such as refined and waste vegetable oils. Several studies have...

  15. Biodiesel Synthesis and Evaluation: An Organic Chemistry Experiment

    Science.gov (United States)

    Bucholtz, Ehren C.

    2007-01-01

    A new lab esterification reaction based on biodiesel preparation and viscosity, which provides a model experience of industrial process to understand oxidation of vicinal alcohols by periodic acid, is presented. This new desertification experiment and periodate analysis of glycerol for the introductory organic chemistry laboratory provides an…

  16. Stability of biodiesel and its blends: A review

    Energy Technology Data Exchange (ETDEWEB)

    Jain, Siddharth; Sharma, M.P. [Alternate Hydro Energy Centre, Indian Institute of Technology Roorkee, Roorkee, Uttarakhand 247667 (India)

    2010-02-15

    Biodiesel consists of long chain fatty acid esters derived from feed stocks such as vegetable oils, animal fats and used frying oil, etc. which may contain more or less unsaturated fatty acids which are prone to oxidation accelerated by exposure to air during storage and at high temperature may yield polymerized compounds. Auto oxidation of biodiesel can cause degradation of fuel quality by affecting the stability parameters. Biodiesel stability includes oxidation, storage and thermal stability. Oxidation instability can led to the formation of oxidation products like aldehydes, alcohols, shorter chain carboxylic acids, insolubles, gum and sediment in the biodiesel. Thermal instability is concerned with the increased rate of oxidation at higher temperature which in turn, increases the weight of oil and fat due to the formation of insolubles. Storage stability is the ability of liquid fuel to resist change in its physical and chemical characteristics brought about by its interaction with its environment and may be affected by interaction with contaminants, light, factors causing sediment formation, changes in color and other changes that reduce the clarity of the fuel. These fuel instabilities give rise to formation of undesirable substances in biodiesel and its blends beyond acceptable quantities as per specifications and when such fuel is used in engine, it impairs the engine performance due to fuel filter plugging, injector fouling, deposit formation in engine combustion chamber and various components of the fuel system. The present review attempts to cover the different types of fuel stabilities, mechanism of occurrence and correlations/equations developed to investigate the impact of various stability parameters on the stability of the fuel. A review of the use of different types of natural and synthetic antioxidants has also been presented which indicates that natural antioxidants, being very sensitive to biodiesel production techniques and the distillation

  17. Biodiesel de babaçu (Orbignya sp. obtido por via etanólica Biodiesel from babassu (Orbignya sp. synthesized via ethanolic route

    Directory of Open Access Journals (Sweden)

    José Renato de Oliveira Lima

    2007-06-01

    Full Text Available Biodiesel was obtained by transesterification of babassu oil in anhydrous ethanol and methanol, employing NaOH as catalyst. The products obtained were characterized by physico-chemical and thermogravimetric analysis. It could be concluded that the properties of the two types of biodiesel (ethanolic and methanolic are very similar when compared with diesel oil.

  18. Evaluación del desempeño de un motor Yuchai trabajando con biodiesel cubano; Performance evaluation of Yuchai Engine working with Biodiesel.

    Directory of Open Access Journals (Sweden)

    Ramón Piloto Rodríguez

    2011-05-01

    Full Text Available En el presente trabajo se realiza una característica exterior de velocidad para un motor trabajando con Biodiesel y sus mezclas, así como se analiza la composición en NOx de los gases contaminantes producto de la combustión. Se comprueba la perdida en prestaciones del motor y aumento del consumo especifico de combustible a medida que aumentamos la cantidad de Biodiesel en la mezcla. Esto se debe al menor poder calórico del Biodiesel. Se observa como la carga contaminante disminuye en mas de un 40% cuando se utiliza Biodiesel y se hace un análisis de la posibles causas de este comportamiento. Finalmente se hace una proposición de la mezcla carburante mas recomendable para su utilización.  At the present work, the authors obtain the engine outer velocity characterization working with Biodiesel and its mixtures, and show the chemical composition of the exhaust gases respect to NOx. Is observed a decrease in the engine performance when the Biodiesel per cent is growing. This behaviour must be due to the lower heat power for Biodiesel respect to Diesel. They obtain a 40% decrease in the NOx formation respect to Diesel and it is developed an analysis of the reasons of that. Finally they propose the optimized mixture for the use in an internal combustion engine, about the 20% of Biodiesel, because this is the equilibrium between contamination and engine performance.

  19. International biodiesel markets. Developments in production and trade

    Energy Technology Data Exchange (ETDEWEB)

    Lamers, P. [Ecofys Germany, Berlin (Germany)

    2012-01-15

    The global biodiesel market has shown an exponential growth in production and trade across the past decade. Nowadays, more biodiesel than ever before is sourced from abroad and procurement areas - especially of large scale producers and traders - span the globe. While this trend is bound to continue, markets and trade developments are still strongly linked to support and trade policies. Furthermore, the biodiesel industry is strongly linked to other sectors (agriculture and mineral oil industry in particular) and faces significant market disturbances some of which have led to various inefficiencies in the past. Due to the pace of this market development, a methodological assessment and understanding of the numerous influencing factors was needed to reduce uncertainties and risks for those involved. A recently published analysis by Ecofys and the Copernicus Institute, Utrecht University, provided such an analysis. It evaluates how the interaction of domestic policies steered global trade streams towards different markets, in particular in connection to underlying trade policies and additional market forces, over the past decade. It provides robust data on international production and trade volumes which have already served as input to the recently published Special Report on Renewable Energy (SRREN) by the Intergovernmental Panel on Climate Change (IPCC). This market brochure was commissioned by UFOP to build upon the methodologies and findings of Lamers et al. and to provide a picture of the global biodiesel market in 2010/2011. It is structured in six sections: an overview of global production volumes (Section 2); developments of EU (Section 3) and other world (Section 4) markets and (trade) policies; global net trade volumes (Section 5); vegetable oil trade patterns and their link to biodiesel trade (Section 6); Conclusions and Outlook (Section 7)

  20. Waste cooking oil as an alternate feedstock for biodiesel production

    Energy Technology Data Exchange (ETDEWEB)

    Chhetri, A. B.; Rafiqul Islam, M. [Civil and Resources Engineering Dalhousie University, Room D510, 1360 Barrington St., Box 1000, Halifax, N.S. B3J 2X4 (Canada); Watts, K. Ch. [Process Engineering, Dalhousie University, Halifax, NS, Box 1000, Halifax, N.S. B3J 2X4 (Canada)

    2008-07-01

    As crude oil price reach a new high, the need for developing alternate fuels has become acute. Alternate fuels should be economically attractive in order to compete with currently used fossil fuels. In this work, biodiesel (ethyl ester) was prepared from waste cooking oil collected from a local restaurant in Halifax, Nova Scotia, Canada. Ethyl alcohol with sodium hydroxide as a catalyst was used for the transesterification process. The fatty acid composition of the final biodiesel esters was determined by gas chromatography. The biodiesel was characterized by its physical and fuel properties including density, viscosity, acid value, flash point, cloud point, pour point, cetane index, water and sediment content, total and free glycerin content, diglycerides and monoglycerides, phosphorus content and sulfur content according to ASTM standards. The viscosity of the biodiesel ethyl ester was found to be 5.03 mm{sup 2}/sec at 40 {sup o}C. The viscosity of waste cooking oil measured in room temperature (at 21 {sup o}C) was 72 mm{sup 2}/sec. From the tests, the flash point was found to be 164 {sup o}C, the phosphorous content was 2 ppm, those of calcium and magnesium were 1 ppm combined, water and sediment was 0 %, sulfur content was 2 ppm, total acid number was 0.29 mg KOH/g, cetane index was 61, cloud point was -1 {sup o}C and pour point was -16 {sup o}C. Production of biodiesel from waste cooking oils for diesel substitute is particularly important because of the decreasing trend of economical oil reserves, environmental problems caused due to fossil fuel use and the high price of petroleum products in the international market. (author)