Aprovechamiento de residuos agroindustriales. Biocombustibles

Uno de los grandes desafíos que afronta la humanidad, hoy en día, es disminuir la gran cantidad de residuos que se generan a partir de la actividad de diversos sectores de la producción, la manufactura y la vivienda (residuos urbanos). Esta alarmante cantidad de residuos podría provocar en un futuro...

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Autores:: Grande Tovar, Carlos David

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Fecha de publicación:: 2014

Institución:: Universidad de San Buenaventura

Repositorio:: Repositorio USB

Idioma:: spa

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dc.title.spa.fl_str_mv	Aprovechamiento de residuos agroindustriales. Biocombustibles
title	Aprovechamiento de residuos agroindustriales. Biocombustibles
spellingShingle	Aprovechamiento de residuos agroindustriales. Biocombustibles Biocombustibles Biodiésel Bioenergía Biogás Etanol Aprovechamiento de residuos Combustibles Combustible-Colombia Modelos de combustión Alcohol como combustible-Colombia
title_short	Aprovechamiento de residuos agroindustriales. Biocombustibles
title_full	Aprovechamiento de residuos agroindustriales. Biocombustibles
title_fullStr	Aprovechamiento de residuos agroindustriales. Biocombustibles
title_full_unstemmed	Aprovechamiento de residuos agroindustriales. Biocombustibles
title_sort	Aprovechamiento de residuos agroindustriales. Biocombustibles
dc.creator.fl_str_mv	Grande Tovar, Carlos David
dc.contributor.author.none.fl_str_mv	Grande Tovar, Carlos David
dc.subject.spa.fl_str_mv	Biocombustibles Biodiésel Bioenergía Biogás
topic	Biocombustibles Biodiésel Bioenergía Biogás Etanol Aprovechamiento de residuos Combustibles Combustible-Colombia Modelos de combustión Alcohol como combustible-Colombia
dc.subject.lemb.spa.fl_str_mv	Etanol Aprovechamiento de residuos Combustibles Combustible-Colombia Modelos de combustión Alcohol como combustible-Colombia
description	Uno de los grandes desafíos que afronta la humanidad, hoy en día, es disminuir la gran cantidad de residuos que se generan a partir de la actividad de diversos sectores de la producción, la manufactura y la vivienda (residuos urbanos). Esta alarmante cantidad de residuos podría provocar en un futuro cercano un efecto ambiental devastador que traería hambruna y muerte a todas las formas de vida. Se pretende que el estudiante tome consciencia de la importancia de disminuir este efecto resultado de procesos productivos y de manufactura, pero sin dejar de lado el significado de mantener un rendimiento elevado en la producción y la valoración de los subproductos dentro del mismo proceso productivo o en procesos alternativos, generando así valor agregado para las empresas, la asociación y el productor.
publishDate	2014
dc.date.issued.none.fl_str_mv	2014
dc.date.accessioned.none.fl_str_mv	2017-09-27T15:45:54Z
dc.date.available.none.fl_str_mv	2017-09-27T15:45:54Z
dc.date.submitted.none.fl_str_mv	2017-09-27
dc.type.spa.fl_str_mv	Libro
dc.type.coar.fl_str_mv	http://purl.org/coar/resource_type/c_2f33
dc.type.spa.spa.fl_str_mv	Libro
dc.type.driver.spa.fl_str_mv	info:eu-repo/semantics/book
dc.type.hasVersion.spa.fl_str_mv	info:eu-repo/semantics/published
dc.identifier.isbn.none.fl_str_mv	978-958-8785-33-2
dc.identifier.uri.none.fl_str_mv	http://hdl.handle.net/10819/4441
identifier_str_mv	978-958-8785-33-2
url	http://hdl.handle.net/10819/4441
dc.language.iso.spa.fl_str_mv	spa
language	spa
dc.rights.coar.fl_str_mv	http://purl.org/coar/access_right/c_abf2
dc.rights.cc.spa.fl_str_mv	Atribución-NoComercial-SinDerivadas 2.5 Colombia
dc.rights.uri.spa.fl_str_mv	http://creativecommons.org/licenses/by-nc-nd/2.5/co/
rights_invalid_str_mv	Atribución-NoComercial-SinDerivadas 2.5 Colombia http://creativecommons.org/licenses/by-nc-nd/2.5/co/ http://purl.org/coar/access_right/c_abf2
dc.format.spa.fl_str_mv	pdf
dc.format.extent.spa.fl_str_mv	86 páginas
dc.format.medium.spa.fl_str_mv	Recurso en linea
dc.format.mimetype.spa.fl_str_mv	application/pdf
dc.publisher.spa.fl_str_mv	Universidad de San Buenaventura - Cali
dc.publisher.faculty.spa.fl_str_mv	Ingenierias
dc.publisher.sede.spa.fl_str_mv	Cali
institution	Universidad de San Buenaventura
dc.source.bibliographicCitation.spa.fl_str_mv	A review on novel processes of biodiésel production from waste cooking oil. (2013). Applied Energy, 104, 683-710. A.E. Atabani, A. H. (2013). Non-edible vegetable oils:A critica levaluation of oil extraction, fatty acid compositions,biodiésel production, characteristics, engine performance and emissions production. Renewable and Sustainable Energy Reviews, 18, 211-245. Akpan UG, K. A. (2005). The production of ethanol from maize cobs and groundnut shells. AU J Technol, 9, 106-110. AP., D. (1948). Furfural formation and behaviour. Ind Eng Chem, 40, 204-209. Azcárate Gordillo, F. J.; Botero S., A.; Maldonado T., G. D., y Villegas , C. M. (2013). Informe de laboratorio: Obtención de biodiésel de aceites de fritura. Cali: Universidad de San Buenaventura. Balat M, B. H. (2008). Progress in bioethanol processing. Progress in Energy and Combustion Science, 34, 551-573. Balat, M. (2011). "Production of bioethanol from lignocellulosic materials via the biochemical pathway". In: Energy Conversion and Management, 52, 858-875. Banerjee S, M. S. (2010). "Commercializing lignocellulosic bioethanol: technology bottlenecks and possible remedies". In: Biofuels, Bioproducts and Biorefining, 4, 77-93. Benjumea, P.; Agudelo, J., y Ríos, L. (2009). Biodiésel: Producción, calidad y caracterización. Medellín: Editoria Universidad de Antioquia. Berg. (2001). World bioethanol production, the distillery and bioethanol network. Retrieved Junio 19, 2013, from http://www.distill.com/worldethanolproduction. htm Brown, M.; Levine, M.; Romm, J. y Koomey, J. (1998). Engineeringeconomic studies of energy technologies to reduce greenhouse gas emissions: opportunites and challenges. Annual review of energy environment, 23, 31-39. Cadoche L, L. G. (1989). Assessment of size reduction as a preliminary step in the production of ethanol from lignocellulosic wastes. Biology of Wastes, 30, 153-157. Campos, E. (2012). "Procesos biológicos: la digestión anaeróbica y el compostaje". En: Tratamiento y valorzación energética de residuos (pp. 2-97). Madrid: Ediciones Díaz de Santos. Camps, M., y Marcos, F. (2008). Energías renovables: los biocombustibles (segunda edición ed.). Madrid: Ediciones Mundi-Prensa. Camps , M., y Marcos , F. (2008). Los biocombustibles (Segunda ed.). Madrid: Mundi-Prensa. Cardona CA, Q. J. (2009). Production of bioethanol from sugarcane bagasse: status and perspectives. Bioresource Technology, 101(13), 4754-4766. Carere, C.; Sparling , R.; Cicek, N. y Levin, D. (2008). Third Generation Biofuels via Direct Cellulose Fermentation. International Journal of Moleculas Sciences, 9, 1342-1360. Chen Y, S.-S. R. (2007). Ensiling agricultural residues for bioethanol production. Applied Biochemistry and Biotechnology, 143, 80-92. Das P, G. A. (2004). Influence of pretreatment for deashing of sugarcane bagasse on pyrolysis products. Biomass and Bioenergy, 27, 445-457. De Oliveria MED, V. B. (2005). Ethanol as fuel: energy, carbon dioxide balances, and ecological footprint. BioScience, 55, 593–602. DE., G. (2003). Effect of catalyst on yield of liquid products from biomass via pyrolysis. Energy Source, 25, 753-765. Demirbas, A. (2005). Bioethanol from cellulosic materials: a renewable motor fuel from biomass. Energy Sources, 27, 327-333. Demirbas, A. (2005). Bioethanol from cellulosic materials: a renewable motor fuel from biomass. Energy Source, 27, 327-337. Devanesan MG, V. T. (2007). "Transesterification of jatropha oil using immobilized pseudomonas fluorescens". In: Afr J Biotechnol, 6, 2497-2501. Duff SJB, M. W. (1996). "Bioconversion of forest products industry waste celullosics to fuel ethanol". In: Bioresource Technology, 55, 1-33. Eevera T, R. K. (2009). "Biodiesel production process optimization and characterization to assess the suitability of the product for varied environmental conditions". In: Renew Energy, 34, 762-765. Federación Nacional de Biocombustibles de Colombia. (2013). FedeBiocombustibles. Retrieved ,junio 13, 2013, from Cifras Informativas del sector biocombustibles. Etanol de caña anhidro: http://www.fedebiocombustibles. com/v3/noticias-fedebiocombustibles-sub-16.htm Freedman B, P. E. (1984). "Variables affecting the yields of fatty esters from transesterified vegetable oils". In: J Am Oil Chem Soc, 61, 1638-1643. Glassner D, H. J. (1999). Corn stover potential: recasting the corn sweetner industry. In e. Janick J (Ed.). In: Perspectives on new crops and new uses. (pp. 74-82). Alexandria: ASHS Press. Govindaswamy S, V. L. (2007). "Kinetics of growth and ethanol production on different carbon substrates using genetically engineered xylosefermenting yeast". In: Bioresource Technol, 98, 677–85. Grande, C. D. (2013). Manual de prácticas de química orgánica. Cali, Colombia: Editorial Bonaventuriana. Hamelinck CN, H. G. (2005). "Ethanol from lignocellulosic biomass: techno-economic performance in short-, middle- and long-term". In: Biomass and bioenergy, 28, 384-410. Herrrera, J. y Vélez, J. (2008). Caracterización y aprovechamiento del aceite residual de frituras para la obtención de un biocombustible (biodiésel). Pereira: Universidad Tecnológica de Pereira. istc. (2006). Feasibility report, small scale biodiésel production. Waste Management and Research Center. J. Bu´lock, B. K. (1987). Basic Biotechnology. Londres: Academic Press Inc. J., L. (1997). "Biological conversion of lignocellulosic biomass to ethanol". In: Journal of Biotechnology, 56, 1-24. J., S. (2007). Agricultural Marketing Policy. Retrieved Junio 17, 2013, from Small Scale Biodiesel Production: An Overview.: :http://www.ampc.montana. edu/policypaper/policy22.pdf. J.F. Costa, M. A.-F. (2013). "Biodiesel production using oil from fish canning industry wastes". In: Energy Conversion and Management, 74, 17-23. Karimi K, K. S. (2006). "Conversion of rice straw to sugars by dilute acid hydrolysis". In: Biomass and Bioenergy, 30, 247-253. Kim S, D. B. (2004). "Global potential bioethanol production from wasted crops and crop residues". In: Biomass and Bioenergy, 26, 361-375. Knothe , G. (2005). "The history of vegetable oil-based fuels. In G. Knothe, J. Gerpen, y J. Krahl". In: The Biodiésel Handboo (pp. 4-16). Champaign (Illinois): AOCS Press. Leung , D., y Guo, Y. (2006). "Transesterification of neat and used frying oil: optimization for biodiesel production". In: Fuel Process Technol, 87, 883-890. Leung, D., Wu, X., y Leun, M. (2010). "A review on biodiesel production using catalyzed transesterification". In: Applied Energy, 87, 1083-1095. Levidow, L. (2013). "EU criteria for sustainable biofuels: Accounting for carbon, depoliticising plunder". In: Geoforum, 44, 211-223. Liu GR, H. Y. (2008). "Study on the degumming process of acidic oil. In Z. X (Ed.). In: International conference on biomass energy technologies. Guangzhou. M., B. (2005). "Current alternative engine fuels". In: Energy Sources, 27, 569-577. Ma F, H. M. (1999). "Biodiesel production: a review". In: Bioresour Technol, 70, 1-15. Matsumoto T, T. S. (2001). "Yeast whole-cell biocatalyst constructed by intracellular overproduction of Rhizopus oryzae lipase is applicable to biodiesel fuel production". In: Appl Microbiol Biotechnol, 57, 515-520. Meher, L. V. (2006). "Technical aspects of biodiesel production by transesterification. A review". In: Renewable and sustainable energy reviews, 10, 248-268. Miguel, I. d. (2008). Biocarburante. Retrieved. Junio 19, 2013, from Biocombustibles transgénicos: www.biocarburante.com Mittelbach M, K. M. (1998). Patent No. United States Patent 5849939. Estados Unidos. Mittelbach , M. R. (2004). Biodiesel. The comprehensive Handbook. Viena: Boersedruck Ges. m.b.H. Mohibbe Azam, M. W. (2005). "Prospects and potential of fatty acid methyl esters of some non-traditional seed oils for use as biodiesel in India". In: Biomass and Bioenergy, 29, 293-302. Moreno C., J. y. (2007). Compostaje. Madrid: Mundi-Prensa. Mosier N, H. R. (2005). "Optimization of pH controlled liquid hot water pretreatment of corn stover". In: Bioresource Technology, 96, 1986-1993. Mosier N, W. C. (2005). "Features of promising technologies for pretreatment of lignocellulosic biomass". In: Bioresource technology, 96, 673-686. N. Sarkar, S. K. (2012). "Bioethanol production from agricultural wastes: An overview". In: Renewable Energy, 37, 19-27. Neves MA, K. T. (2007). "State of the art and future trends of bioethanol production, dynamic biochemistry, process biotechnology and molecular biology". In: Global Science Books, 1-13. Nibedita Sarkar, S. K. (2012). "Bioethanol production from agricultural wastes: An overview". In: Renewable Energy, 37, 19-27. Nimcevic , D. P. (2000). "Preparation of rapseed oil esters of lower aliphatic alcohols". In: JAOCS, 77, 275-280. ofd. (1999). Review of the research strategy for biomass- derived transportation fuels. In Committee to review the R and D strategy for biomass- derived ethanol and biodeisel transportation fuels. National Academy. Washington D.C.: National Academy. Ogawa M, Y. N. (2005). "Nitrous oxide emission from the burning of agricultural residue". In: Atmospheric Environment, 39(19), 3421-3429. Osorio, F., y Torres, J. (2009). "Biogas purification from anaerobic digestion in a wastewater treatment plant for biofuel production. In: Renawable Energy, 34, 2164-2171. Pandey A, S. C. (2000). "Biotechnological potential of agroindustrial residues. I: sugarcane baggase". In: Bioresource technology, 74, 69-80. Peiji G, Y. Q. (1997). "Screening microbial strain for improving the nutritional value of wheat and corn straws as animal feed". In: Enzyme and Microbial Technology, 20, 581-584. Qiang Li, J. X. (2013). "Ethanol as the acyl acceptor for biodiesel production". In: Renewableand Sustainable Energy Reviews, 25, 742-748. Renewable energy: biofuels gaining momentum in the EU. (2006). Focus on Catalysts, 2006(9), 2. Saha BC, C. M. (2006). "Ethanol production from alkaline peroxide pretreated enzymatically saccharified wheat straw". In: Biotechnology Progress, 22, 449-453. Saka S, K. D. (2001). Biodiesel fuel from rapeseed oil as prepared in supercritical methanol. Fuel, 80, 225-231. Sánchez ÓJ, C. C. (2008). "Trends in biotechnological production of fuel ethanol from different feedstocks". In: Bioresource Technology, 99, 5270-5299. Saval , S. (2012). "Aprovechamiento de residuos agroindustriales: pasado, presente y futuro". En: Biotecnología, 16(2), 14-37. Sheng M, T. D. (2008). "Production of biodiesel fuel from wast edible oil". In: China Academic J, 26. Singh P, S. A. (2008). "Biological pretreatment of sugarcane trash for its conversion to fermentable sugars". In: World Journal of Microbiology and Biotechnology, 24, 667-673. Soriano Jr NU, V. R. (2009). "Biodiesel synthesis via homogeneous Lewis acid-catalyzed transesterification". In: Fuel, 88, 560-565. Suh, M., Park, H., Prasad, T., y Lim, D.-W. (2012). "Hydrogen Storage in Metal–Organic Frameworks". In: Chemical Reviews, 112(2), 782-835. Sun Y, C. J. (2002). "Hydrolysis of lignocellulosic material for ethanol production: a review". In: Bioresource Technology, 96, 673-686. Taherzadeh MJ, K. K. (2007). "Acid based hydrolysis processes for ethanol from lignocellulosic materials: a review". In: Bioresources, 2(3), 472-499. Taherzadeh MJ, K. K. (2008). "Pretreatment of lignocellulosic wastes to improve ethanol and biogas production: a review". In: International Journal of Molecular Sciences, 9, 1621-1651. Talebnia F, K. D. (2010). "Production of bioethanol from wheat straw: an overview on pretreatment, hydrolysis and fermentation". In: Bioresource Technology, 101(13), 4744-4753. Turkay S, C. H. (1991). "Deacidification of sulfur olive oil. I. Single-stage liquid–liquid extraction of miscella with ethyl alcohol". In: J Am Oil Chem Soc, 68, 83-86. Ulbricht RJ, S. J. (1984). "A review of 5-hydroxymethylfurfura HMF in parental solutions". In: Fundam Appl Toxicol, 4, 843-853. Van Gerpen J, S. B. (2004). Biodiesel production technology. 1617 Coulen boulevard, Golden: National Renewable Energy Laboratory. Van Gerpen JH, D. B. (2002). The effect of phosphorus level on the total glycerol and reaction yield of biodiésel bioenergy. The 10th Biennial Bioenergy Conference. Boise: The 10th Biennial Bioenergy Conference. Vlasenko EY, D. H. (1997). "Enzymatic hydrolysis of pretreated rice straw". In: Bioresource Technology, 59, 109-119. Wati L, K. S. (2007). "Paddy straw as substrate for ethanol production". Indian Journal of Microbiology, 47, 26-29. Wikipedia. (2013, Agosto 8). Lignina. Retrieved Agosto 11, 2013, from http:// commons.wikimedia.org/wiki/File:Lignin_structure.svg Yepes, S. M., Montoya N., L. J. y Sánchez O., F. (2008). "Valorización de residuos agroindustriales - Frutas- en Medellín y el sur del Valle del Aburrá, Colombia". En: Rev.Fac.Nal.Agr.Medellín, 61(1), 4422-4431. Zhang Y, L. X. (2008). "Study on the coupling process of catalytic esterification and extraction of high acid value waste oil with methanol. In Z. X (Ed.)". En: International conference on biomass energy technol Zhao X, C. K. (2009). "Organosolv pretreatment of lignocellulosic biomass for enzymatic hydrolysis". In: Applied Microbiology and Biotechnology, 82, 815-827.
dc.source.instname.spa.fl_str_mv	Universidad de San Buenaventura - Cali
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spelling	Comunidad Científica y AcadémicaGrande Tovar, Carlos Davida87410a9-9ec6-4b1e-a1b8-a305f9c125de-12017-09-27T15:45:54Z2017-09-27T15:45:54Z20142017-09-27Uno de los grandes desafíos que afronta la humanidad, hoy en día, es disminuir la gran cantidad de residuos que se generan a partir de la actividad de diversos sectores de la producción, la manufactura y la vivienda (residuos urbanos). Esta alarmante cantidad de residuos podría provocar en un futuro cercano un efecto ambiental devastador que traería hambruna y muerte a todas las formas de vida. Se pretende que el estudiante tome consciencia de la importancia de disminuir este efecto resultado de procesos productivos y de manufactura, pero sin dejar de lado el significado de mantener un rendimiento elevado en la producción y la valoración de los subproductos dentro del mismo proceso productivo o en procesos alternativos, generando así valor agregado para las empresas, la asociación y el productor.Universidad de San Buenaventura - Calipdf86 páginasRecurso en lineaapplication/pdf978-958-8785-33-2http://hdl.handle.net/10819/4441spaUniversidad de San Buenaventura - CaliIngenieriasCaliAtribución-NoComercial-SinDerivadas 2.5 ColombiaPor medio de este formato manifiesto mi voluntad de AUTORIZAR a la Universidad de San Buenaventura, Sede Bogotá, Seccionales Medellín, Cali y Cartagena, la difusión en texto completo de manera gratuita y por tiempo indefinido en la Biblioteca Digital Universidad de San Buenaventura, el documento académico-investigativo objeto de la presente autorización, con fines estrictamente educativos, científicos y culturales, en los términos establecidos en la Ley 23 de 1982, Ley 44 de 1993, Decisión Andina 351 de 1993, Decreto 460 de 1995 y demás normas generales sobre derechos de autor. Como autor manifiesto que el presente documento académico-investigativo es original y se realiza sin violar o usurpar derechos de autor de terceros, por lo tanto, la obra es de mi exclusiva autora y poseo la titularidad sobre la misma. La Universidad de San Buenaventura no será responsable de ninguna utilización indebida del documento por parte de terceros y será exclusivamente mi responsabilidad atender personalmente cualquier reclamación que pueda presentarse a la Universidad. Autorizo a la Biblioteca Digital de la Universidad de San Buenaventura convertir el documento al formato que el repositorio lo requiera (impreso, digital, electrónico o cualquier otro conocido o por conocer) o con fines de preservación digital. Esta autorización no implica renuncia a la facultad que tengo de publicar posteriormente la obra, en forma total o parcial, por lo cual podrá, dando aviso por escrito con no menos de un mes de antelación, solicitar que el documento deje de estar disponible para el público en la Biblioteca Digital de la Universidad de San Buenaventura, así mismo, cuando se requiera por razones legales y/o reglas del editor de una revista.http://creativecommons.org/licenses/by-nc-nd/2.5/co/http://purl.org/coar/access_right/c_abf2A review on novel processes of biodiésel production from waste cooking oil. (2013). Applied Energy, 104, 683-710.A.E. Atabani, A. H. (2013). Non-edible vegetable oils:A critica levaluation of oil extraction, fatty acid compositions,biodiésel production, characteristics, engine performance and emissions production. Renewable and Sustainable Energy Reviews, 18, 211-245.Akpan UG, K. A. (2005). The production of ethanol from maize cobs and groundnut shells. AU J Technol, 9, 106-110.AP., D. (1948). Furfural formation and behaviour. Ind Eng Chem, 40, 204-209.Azcárate Gordillo, F. J.; Botero S., A.; Maldonado T., G. D., y Villegas , C. M. (2013). Informe de laboratorio: Obtención de biodiésel de aceites de fritura. Cali: Universidad de San Buenaventura.Balat M, B. H. (2008). Progress in bioethanol processing. Progress in Energy and Combustion Science, 34, 551-573.Balat, M. (2011). "Production of bioethanol from lignocellulosic materials via the biochemical pathway". In: Energy Conversion and Management, 52, 858-875.Banerjee S, M. S. (2010). "Commercializing lignocellulosic bioethanol: technology bottlenecks and possible remedies". In: Biofuels, Bioproducts and Biorefining, 4, 77-93.Benjumea, P.; Agudelo, J., y Ríos, L. (2009). Biodiésel: Producción, calidad y caracterización. Medellín: Editoria Universidad de Antioquia.Berg. (2001). World bioethanol production, the distillery and bioethanol network. Retrieved Junio 19, 2013, from http://www.distill.com/worldethanolproduction. htmBrown, M.; Levine, M.; Romm, J. y Koomey, J. (1998). Engineeringeconomic studies of energy technologies to reduce greenhouse gas emissions: opportunites and challenges. Annual review of energy environment, 23, 31-39.Cadoche L, L. G. (1989). Assessment of size reduction as a preliminary step in the production of ethanol from lignocellulosic wastes. Biology of Wastes, 30, 153-157.Campos, E. (2012). "Procesos biológicos: la digestión anaeróbica y el compostaje". En: Tratamiento y valorzación energética de residuos (pp. 2-97). Madrid: Ediciones Díaz de Santos.Camps, M., y Marcos, F. (2008). Energías renovables: los biocombustibles (segunda edición ed.). Madrid: Ediciones Mundi-Prensa.Camps , M., y Marcos , F. (2008). Los biocombustibles (Segunda ed.). Madrid: Mundi-Prensa.Cardona CA, Q. J. (2009). Production of bioethanol from sugarcane bagasse: status and perspectives. Bioresource Technology, 101(13), 4754-4766.Carere, C.; Sparling , R.; Cicek, N. y Levin, D. (2008). Third Generation Biofuels via Direct Cellulose Fermentation. International Journal of Moleculas Sciences, 9, 1342-1360.Chen Y, S.-S. R. (2007). Ensiling agricultural residues for bioethanol production. Applied Biochemistry and Biotechnology, 143, 80-92.Das P, G. A. (2004). Influence of pretreatment for deashing of sugarcane bagasse on pyrolysis products. Biomass and Bioenergy, 27, 445-457.De Oliveria MED, V. B. (2005). Ethanol as fuel: energy, carbon dioxide balances, and ecological footprint. BioScience, 55, 593–602.DE., G. (2003). Effect of catalyst on yield of liquid products from biomass via pyrolysis. Energy Source, 25, 753-765.Demirbas, A. (2005). Bioethanol from cellulosic materials: a renewable motor fuel from biomass. Energy Sources, 27, 327-333.Demirbas, A. (2005). Bioethanol from cellulosic materials: a renewable motor fuel from biomass. 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Aprovechamiento de residuos agroindustriales. Biocombustibles

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