Mostrar el registro sencillo del ítem

Estudio técnico-económico de dos tecnologías de producción de biodiesel a partir de aceite de soya empleando el simulador superpro designer

dc.creatorCampos-Ramírez, Leonardo
dc.creatorPérez-Sánchez, Amaury
dc.creatorBenítez-Legrá , Aylín
dc.creatorBenítez, Isnel
dc.date2020-05-15
dc.identifierhttps://revistas.itm.edu.co/index.php/tecnologicas/article/view/1568
dc.identifier10.22430/22565337.1568
dc.descriptionIn this work, a preliminary technical-economic study of two technological proposals of biodiesel production was carried out employing soybean oil as the main raw material and under the current economic conditions of Brazil. For that the simulator SuperPro Designer® v.8.5 is used. In the first technology (Base Case) refined biodiesel and crude glycerol are obtained, while in the second (Variant) refined biodiesel is also produced, and the crude glycerol is purified to a final purity of 99.75 %. A sensitivity study consisting of 12 runs was carried out, through which the influence of five input variables on three economic indicators was evaluated: Net Present Value (NPV), Internal Rate of Return (IRR) and Payback Time (PT). usd $ 18.5 million and usd $ 21.4 million must be invested to erect the Base Case and the Variant, respectively. The results of the NPV, IRR and PT for the Base Case were usd $ 17,444,000, 33.83 % and 2.54 years respectively, while the values obtained from these 3 indicators for the Variant were usd $ 22,577,000 , 38.05 % and 2.26 years respectively, which indicate that the Variant is the most cost-effective technology. The introduction of glycerol purification operations increases the economic and profitability indicators of the biodiesel production plant. The sensitivity study allowed obtaining equations that establish the statistical correlation between five input variables and three output parameters. Statgraphics Centurion® software version XVI was used for the statistical processing of the results obtained.en-US
dc.descriptionEn el presente trabajo se efectuó un estudio técnico-económico preliminar de dos propuestas tecnológicas de producción de biodiesel empleando aceite de soya como materia prima principal y bajo las condiciones económicas actuales de Brasil. Para eso se utiliza el simulador SuperPro Designer® v.8.5. En la primera tecnología propuesta (Caso Base) se obtiene biodiesel refinado y glicerol crudo, mientras que en la segunda (Variante) también se produce biodiesel refinado, y el glicerol crudo es purificado hasta una pureza final de 99,75 %. Se efectuó un estudio de sensibilidad consistente en 12 corridas mediante el cual se evaluó la influencia de cinco variables de entrada sobre tres indicadores económicos: Valor Actual Neto (van), Tasa Interna de Retorno (tir) y Periodo de Recuperación de la Inversión (pri). Se deben invertir usd $ 18,5 millones y usd $ 21,4 millones para construir el Caso Base y la Variante, respectivamente. Los resultados del van, tir y pri para el Caso Base fueron de usd $ 17 444 000, 33,83 % y 2,54 años respectivamente, mientras que los valores obtenidos de estos 3 indicadores para la Variante fueron de usd $ 22 577 000, 38,05 % y 2,26 años respectivamente, cosa que indica que la Variante constituye la propuesta tecnológica más rentable. La introducción de operaciones de purificación de glicerol incrementa los indicadores económicos y de rentabilidad de la planta de producción de biodiesel. El estudio de sensibilidad permitió obtener ecuaciones que establecen la correlación estadística existente entre cinco variables de entrada y tres de salida. Se empleó el software Statgraphics Centurion® versión XVI para el procesamiento estadístico de los resultados obtenidos.es-ES
dc.formatapplication/pdf
dc.formattext/xml
dc.formattext/html
dc.languagespa
dc.languageeng
dc.publisherInstituto Tecnológico Metropolitano (ITM)en-US
dc.relationhttps://revistas.itm.edu.co/index.php/tecnologicas/article/view/1568/1633
dc.relationhttps://revistas.itm.edu.co/index.php/tecnologicas/article/view/1568/1668
dc.relationhttps://revistas.itm.edu.co/index.php/tecnologicas/article/view/1568/1723
dc.relation/*ref*/L. D. Fernández Betancurt, “Energías alternativas”, TecnoLógicas, no. 14, pp. 105-126, Jun. 2005. https://doi.org/10.22430/22565337.538
dc.relation/*ref*/S. D. Romano y P. A. Sorichetti, Dielectric Spectroscopy in Biodiesel Production and Characterization. London, United Kingdom: Springer-Verlag London Limited, 2011.Disponible en: https://www.bookdepository.com/es/Dielectric-Spectroscopy-Biodiesel-Production-Characterization-Silvia-Daniela-Romano/9781447158721
dc.relation/*ref*/J. I. Torregrosa, Conceptos básicos de simulación de procesos. Valencia, España: Departamento de Ingeniería Química y Nuclear, Universitat Politècnica de València, 2013. Disponible en: https://riunet.upv.es/handle/10251/29929
dc.relation/*ref*/N. A. Auli, M. Sakinah, A. M. M. A. Bakri, H. Kamarudin, and M. N. Norazian, “Simulation Of Xylitol Production: A Review”, Australian Journal of Basic and Applied Sciences, vol. 7, no. 5, pp. 366-372, 2013. Disponible en: http://www.ajbasweb.com/old/ajbas/2013/Special,%20issue2%202013/366-372.pdf
dc.relation/*ref*/S. Mani, J. Sundaram y K. C. Das, “Process simulation and modeling: Anaerobic digestion of complex organic matter”, Biomass and Bioenergy, vol. 93, pp. 158-167, Oct 2016. https://dx.doi.org/10.1016/j.biombioe.2016.07.018
dc.relation/*ref*/A. Csighy, A. Koris y G. Vatai, “Modelling the Partial Demineralization Process of Cow Milk by Superpro Designer”, Hungarian Journal of Industry and Chemistry, vol. 45, n.° 2, pp. 9-12, 2017. https://doi.org/10.1515/hjic-2017-0013
dc.relation/*ref*/A. C Aguiar, J. F. Osorio-Tobón, L. P. Sales Silva, G. Fernandez Barbero y J. Martínez, “Economic analysis of oleoresin production from malagueta peppers (Capsicum frutescens) by supercritical fluid extraction”, The Journal of Supercritical Fluids, vol. 133, pp. 86–93, Mar. 2018. https://doi.org/10.1016/j.supflu.2017.09.031
dc.relation/*ref*/P. Somavat, D. Kumar y V. Singh, “Techno-economic feasibility analysis of blue and purple corn processing for anthocyanin extraction and ethanol production using modified dry grind process”, Industrial Crops & Products, vol. 115, pp. 78–87, May. 2018 https://doi.org/10.1016/j.indcrop.2018.02.015
dc.relation/*ref*/D. K. Govindarajan, Y. Meganathan, G. P. Udayakumar y R. Kothandan, “Techno-Economic Analysis for the Production of Ethanol from Ipomoea batatas (sweet potato)”, American International Journal of Research in Science, Technology, Engineering & Mathematics, pp. 13-24, 2019. Disponible en: https://www.researchgate.net/publication/331224874_TechnoEconomic_Analysis_for_the_Production_of_Ethanol_from_Ipomoea_batatas_sweet_potato
dc.relation/*ref*/SuperPro Designer, “Biodiesel production from degummed soybean oil”, Intelligen, Inc., & Massachusetts Institute of Technology, 2005. Disponible en: https://www.intelligen.com/superpro_overview.html
dc.relation/*ref*/C. M. García, “Simulación de una planta de producción y purificación de biodiesel a partir de aceite de palma y etanol usando el simulador comercial HYSYS Plant 3.2”, (Tesis de grado), Facultad de Ingenierías Fisicoquímicas, Universidad Industrial de Santander, Bucaramanga, Colombia, 2007. Disponible en: https://docplayer.es/11464026-Simulacion-de-una-planta-de-produccion-y-purificacion-de-biodiesel-a-partir-de-aceite-de-palma-y-etanol-usando-el-simulador-comercial-hysys-plant-3.html
dc.relation/*ref*/S. Lee, D. Posarac y N. Ellis, “Process simulation and economic analysis of biodiesel production processes using fresh and waste vegetable oil and supercritical methanol”, Chemical Engineering Research and Design, vol. 89, no. 12. pp. 2626–2642, Dec. 2011. https://doi.org/10.1016/j.cherd.2011.05.011
dc.relation/*ref*/V. F. Marulanda, “Biodiesel production by supercritical methanol transesterification: Process simulation and potential environmental impact assessment”, Journal of Cleaner Production, vol. 33, pp. 109-116, Sep. 2012. https://doi.org/10.1016/j.jclepro.2012.04.022
dc.relation/*ref*/M. Franco, “Simulación del proceso de producción de biodiesel a partir de aceites vegetales en condiciones súper-críticas”, (Tesis de Maestría), Universitat Politecnica de Catalunya, Barcelona, 2013. Disponibe en: https://core.ac.uk/download/pdf/41810657.pdf
dc.relation/*ref*/A. F. Young, F. L. P. Pessoa y E. M. Queiroz, “Comparison between Biodiesel Production from Soybean Oil and Palm Oil with Ethanol: Design and Economic Evaluation”, Chemical Engineering Transactions, vol. 43, pp. 325-330, May. 2015. https://doi.org/10.3303/CET1543055
dc.relation/*ref*/L. R. D. la Rosa, E. Henríquez Montero, E. Sánchez Tuirán y K. A. Ojeda Delgado, “Diseño y simulación de una planta para la producción de biodiésel a partir de Jatropha curcas L. en el departamento de Bolívar”, rev.ion, vol. 28, no. 1, pp. 73-85. Jul. 2015. Disponible en: https://revistas.uis.edu.co/index.php/revistaion/article/view/4956
dc.relation/*ref*/Okullo y N. Tibasiima, “Process Simulation of Biodiesel Production from Jatropha Curcas Seed Oil”, American Journal of Chemical Engineering, vol. 5, n.° 4, pp. 56-63, Jul. 2017. https://doi.org/10.11648/j.ajche.20170504.12
dc.relation/*ref*/M. I. M. Hamid y K. M. Wagialla, “Simulation of Jatropha Biodiesel production using SuperPro Designer”, Journal of Basic and Applied Science, vol. 2, no. 1, pp. 115-142, Mar. 2017. Disponible en: https://pdfs.semanticscholar.org/1e4c/1783d2cc7c06b7fd4bdf69d5c2c64e034f5b.pdf
dc.relation/*ref*/Y. B. Abdurakhman, Z. A. Putra y M. R. Bilad, “Aspen HYSYS Simulation for Biodiesel Production from Waste Cooking Oil using Membrane Reactor”, en IOP Conf. Series: Materials Science and Engineering, vol. 180, pp. 1-6, Bandung. 2017. https://doi.org/10.1088/1757899X/180/1/012273
dc.relation/*ref*/S. P. Souza, J. E. A. Seabra y L. A. Horta Nogueira, “Feedstocks for biodiesel production: Brazilian and global perspectives”, Biofuels, pp. 1-24, vol. p, no. 4, Jan. 2017. https://dx.doi.org/10.1080/17597269.2017.1278931
dc.relation/*ref*/F. P. Nascimento, A. R. G. Oliveira, M. L. L. Paredes, A. L. H. Costa y F. L. P. Pessoa, “Biodiesel Production from Supercritical Ethanolysis of Soybean Oil”, Chemical Engineering Transactions, vol. 32, pp. 829-834, 2013. Disponible en: https://doi.org/10.3303/CET1332139
dc.relation/*ref*/M. Rahimi, B. Aghel, M. Alitabar, A. Sepahvand y H. R. Ghasempour, “Optimization of biodiesel production from soybean oil in a microreactor”, Energy Conversion and Management, vol. 79, pp. 599–605, Mar. 2014. https://doi.org/10.1016/j.enconman.2013.12.065
dc.relation/*ref*/S. Joshi, P. R. Gogate, P. F. Moreira y R. Giudici, “Intensification of biodiesel production from soybean oil and waste cooking oil in the presence of heterogeneous catalyst using high speed homogenizer”. Ultrasonics-Sonochemistry, vol. 39, pp. 645–653, 2017. https://doi.org/10.1016/j.ultsonch.2017.05.029
dc.relation/*ref*/P. Adewale, M. J. Dumont y M. Ngadi, “Enzyme-catalyzed synthesis and kinetics of ultrasonic-assisted biodiesel production from waste tallow”, Ultrasonics - Sonochemistry, vol. 27, pp. 1-9. Nov. 2015. https://doi.org/10.1016/j.ultsonch.2015.04.032
dc.relation/*ref*/V. F. De Almeida, P. J. García-Moreno, A. Guadix, y E. M. Guadix, “Biodiesel production from mixtures of waste fish oil, palm oil and waste frying oil: Optimization of fuel properties”, Fuel Processing Technology, vol. 133, pp. 152–160, May. 2015. http://dx.doi.org/10.1016/j.fuproc.2015.01.041
dc.relation/*ref*/E. Alptekin, M. Canakci y H. Sanli, “Biodiesel production from vegetable oil and waste animal fats in a pilot plant”, Waste Management, vol. 34, no. 11, pp. 2146–2154, Nov. 2014. https://doi.org/10.1016/j.wasman.2014.07.019
dc.relation/*ref*/P. J. García-Moreno, M. Khanum, A. Guadix y E. M. Guadix, “Optimization of biodiesel production from waste fish oil”, Renewable Energy, vol. 68, pp. 618-624, Aug. 2014. https://doi.org/10.1016/j.renene.2014.03.014
dc.relation/*ref*/A. E. da Costa, C. A. Klimeck Gouvea, B. B. Lobo, J. K. Andreazza, K. S. Fadhil Al-Rubaie “Optimization for producing biodiesel from ethanol and waste frying oil with a high concentration of ester”, Revista Facultad de Ingeniería, Universidad de Antioquia n.° 79, pp. 185-191, Jun. 2016. http://dx.doi.org/10.17533/udea.redin.n79a17
dc.relation/*ref*/R. D. Micic, M. D. Tomic, F. E. Kiss, E. B. Nikolic-Djoric y M. Ð. Simikic, “Influence of reaction conditions and type of alcohol on biodiesel yields and process economics of supercritical transesterification”, Energy Conversion and Management, vol. 86, pp. 717–726, Oct. 2014. https://doi.org/10.1016/j.enconman.2014.06.052
dc.relation/*ref*/N. A. Negm, G. H. Sayed, O. I. Habib, F. Z. Yehia y E. A. Mohamed, “Heterogeneous catalytic transformation of vegetable oils into biodiesel in one-step reaction using super acidic sulfonated modified mica catalyst”, Journal of Molecular Liquids, vol. 237, pp. 38–45, Jul. 2017. https://doi.org/10.1016/j.molliq.2017.04.076
dc.relation/*ref*/T. Wang. “Leading biodiesel producers worldwide in 2018, by country (in billion liters)”, Disponible en: https://www.statista.com/statistics/271472/biodiesel-production-in-selected-countries/
dc.relation/*ref*/S. Barros. Biofuels Annual. Sao Paulo, Brasil: Global Agricultural Information Network (GAIN), No. BR18017. Oct. 2018. Disponible en: https://apps.fas.usda.gov/newgainapi/api/report/downloadreportbyfilename?filename=Biofuels%20Annual_Sao%20Paulo%20ATO_Brazil_8-10-2018.pdf
dc.relation/*ref*/ChemicaLogic Corporation, “Thermodynamic and Transport Properties of Water and Steam for Windows application available at no cost.”, ChemicaLogic Steam Tab Companion, Version 2.0, 2003. Disponible en: http://www.chemicalogic.com/Pages/DownloadSteamTabCompanion.html
dc.relation/*ref*/M. Ahmad, M. A. Khan, M. Zafar y S. Sultana, Practical Handbook on Biodiesel Production and Properties, 2nd ed., Boca Raton, USA: CRC Press, 2012. Disponible en: https://www.routledge.com/Practical-Handbook-on-Biodiesel-Production-and-Properties/Ahmad/p/book/9781466507432?utm_source=crcpress.com&utm_medium=referral
dc.relation/*ref*/G. Knothe, J. Krahl y J. V. Gerpen, The Biodiesel Handbook, 2nd ed., Urbana, USA: AOCS Press, 2010. Disponible en: https://www.sciencedirect.com/book/9781893997622/the-biodiesel-handbook
dc.relation/*ref*/A. B. Koc, M. Abdullah y M. Fereidouni, Soybeans Processing for Biodiesel Production. En T.-B. Ng (Ed.), Soybean-Applications and Technology. Rijeka, Croatia: InTech, pp. 19-32. 2011. Disponible en: https://books.google.com.co/books?hl=es&lr=&id=fjCaDwAAQBAJ&oi=fnd&pg=PA19&dq=Soybeans+Processing+for+Biodiesel+Production&ots=vMaRDWdbTI&sig=UaQDjg_uOGvt53vV4a1sATcf6Sw#v=onepage&q=Soybeans%20Processing%20for%20Biodiesel%20Production&f=false
dc.relation/*ref*/J. McFarlane, Processing of Soybean Oil into Fuels. In D. Krezhova (Ed.), Recent Trends for Enhancing the Diversity and Quality of Soybean Products. Rijeka, Croatia: InTech, 2011. Disponible en: https://pdfs.semanticscholar.org/8914/c1d67c46dea693d0f8addf19f03f41741439.pdf?_ga=2.252011338.21485239.1584022131-1051413113.1557239246
dc.relation/*ref*/M. Stoytcheva y G. Montero, Biodiesel – Feedstocks and Processing Technologies. Rijeka, Croatia: InTech, 2011. Disponible en: https://books.google.com.co/books?hl=es&lr=&id=moqfDwAAQBAJ&oi=fnd&pg=PR11&dq=Biodiesel+%E2%80%93+Feedstocks+and+Processing+Technologies.+Rijeka,+Croatia:+InTech,&ots=JipWN4rVFv&sig=Y_yAghBlSwxEXfF8pUxCLyKM7_k#v=onepage&q=Biodiesel%20%E2%80%93%20Feedstocks%20and%20Processing%20Technologies.%20Rijeka%2C%20Croatia%3A%20InTech%2C&f=false
dc.relation/*ref*/M. J. Haas, A. J. McAloon, W. C. Yee, and T. A. Foglia, “A process model to estimate biodiesel production costs,” Bioresour. Technol., vol. 97, no. 4, pp. 671–678, Mar. 2006. https://doi.org/10.1016/j.biortech.2005.03.039
dc.relation/*ref*/Oleofinos. “Especificación técnica Aceite de Soya R.B.D”. 2019. Disponible en: https://oleofinos.com.mx/fichas/aceite%20de%20soya.pdf
dc.relation/*ref*/Agencia Nacional do Petróleo, Gas Natural e Biocombustíveis . “Anuário Estatístico Brasileiro do Petróleo, Gás Natural e Biocombustíveis 2019”. Recuperado el 16 de mayo, 2019. Disponible en: http://www.anp.gov.br/publicacoes/anuario-estatistico/5237-anuario-estatistico-2019
dc.relation/*ref*/CEPEA. Center for Advanced Studies in Applied Economics, 2018. Disponible en: https://www.cepea.esalq.usp.br/en/indicator/soja.aspx
dc.relation/*ref*/Matche. “Chemical Equipment Cost”, 2014. Recuperado el 20 de junio de 2019, de Disponible en: http://www.matche.com/
dc.relation/*ref*/R. H. Perry y D. Green, Perry's Chemical Engineers' Handbook, 8th ed. New York, USA: McGraw-Hill, 2008. Disponible en: https://b-ok.cc/book/633882/24d119
dc.relation/*ref*/M. S. Peters, K. D. Timmerhaus y R. E. West, Plant Design and Economics for Chemical Engineers, 4th ed. New York, USA: McGraw-Hill, 2003.
dc.relation/*ref*/R. K. Sinnott, Chemical Engineering Design, 4th ed., vol. 6, Oxford, United Kingdom: Elsevier Butterworth-Heinemann, 2005. Disponible en: https://b-ok.cc/book/600898/84860e
dc.relation/*ref*/G. Towler y R. Sinnott, Chemical Engineering Design, 2nd ed. Oxford, United Kingdom: Butterworth-Heinemann, 2013. Disponible en: https://www.elsevier.com/books/chemical-engineering-design/towler/978-0-08-096659-5
dc.relation/*ref*/S. Jenkins, “Facts At your Fingertips, Fermentation Considerations and Economics”, Chemical Engineering, vol. 126, n.° 6, pp. 72, June 2019. Disponible en: https://view.imirus.com/515/document/13160/page/1
dc.relation/*ref*/G. Baca Urbina, Evaluación de proyectos. 6ta ed., México, D. F., México: McGraw-Hill/Interamericana Editores, S.A. de C.V., 2010. Disponible en: https://b-ok.cc/book/2476652/dcd5cc
dc.rightsCopyright (c) 2020 TecnoLógicasen-US
dc.rightshttp://creativecommons.org/licenses/by-nc-sa/4.0en-US
dc.sourceTecnoLógicas; Vol. 23 No. 48 (2020); 119-141en-US
dc.sourceTecnoLógicas; Vol. 23 Núm. 48 (2020); 119-141es-ES
dc.source2256-5337
dc.source0123-7799
dc.subjectSoybean oilen-US
dc.subjectsensitivity analysisen-US
dc.subjectbiodieselen-US
dc.subjectglycerolen-US
dc.subjectSuperPro Designeren-US
dc.subjectAceite de soyaes-ES
dc.subjectanálisis de sensibilidades-ES
dc.subjectbiodieseles-ES
dc.subjectgliceroles-ES
dc.subjectSuperPro Designeres-ES
dc.titleTechno-Economic Study of Two Biodiesel Production Technologies from Soybean Oil Using Superpro Designer Simulatoren-US
dc.titleEstudio técnico-económico de dos tecnologías de producción de biodiesel a partir de aceite de soya empleando el simulador superpro designeres-ES
dc.typeinfo:eu-repo/semantics/article
dc.typeinfo:eu-repo/semantics/publishedVersion
dc.typeResearch Papersen-US
dc.typeArtículos de investigaciónes-ES


Ficheros en el ítem

FicherosTamañoFormatoVer

No hay ficheros asociados a este ítem.

Este ítem aparece en la(s) siguiente(s) colección(ones)

Mostrar el registro sencillo del ítem