Evaluación experimental de la torrefacción parcialmente oxidativa de cáscara de coco con fines energéticos

Este trabajo se enfoca en evaluar experimentalmente la torrefacción de mesocarpio y epicarpio de coco como una estrategia de caracterización energética. Se realizaron ensayos de torrefacción a escala de laboratorio, para las muestras utilizadas se definió una geometría estándar (20mm x 20 mm x 20 mm...

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Autores:: Yanez Quiroz, Rafael Anyel
Doria Genes, Maria Eugenia

Tipo de recurso:: Trabajo de grado de pregrado

Fecha de publicación:: 2024

Institución:: Universidad de Córdoba

Repositorio:: Repositorio Institucional Unicórdoba

Idioma:: spa

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dc.title.spa.fl_str_mv	Evaluación experimental de la torrefacción parcialmente oxidativa de cáscara de coco con fines energéticos
title	Evaluación experimental de la torrefacción parcialmente oxidativa de cáscara de coco con fines energéticos
spellingShingle	Evaluación experimental de la torrefacción parcialmente oxidativa de cáscara de coco con fines energéticos Torrefacción Biomasa Temperatura Cascara de coco Potencial energético Torrefaction Biomass Temperature Coconut shell Energy potential
title_short	Evaluación experimental de la torrefacción parcialmente oxidativa de cáscara de coco con fines energéticos
title_full	Evaluación experimental de la torrefacción parcialmente oxidativa de cáscara de coco con fines energéticos
title_fullStr	Evaluación experimental de la torrefacción parcialmente oxidativa de cáscara de coco con fines energéticos
title_full_unstemmed	Evaluación experimental de la torrefacción parcialmente oxidativa de cáscara de coco con fines energéticos
title_sort	Evaluación experimental de la torrefacción parcialmente oxidativa de cáscara de coco con fines energéticos
dc.creator.fl_str_mv	Yanez Quiroz, Rafael Anyel Doria Genes, Maria Eugenia
dc.contributor.advisor.none.fl_str_mv	Rhenals Julio, Jesús David
dc.contributor.author.none.fl_str_mv	Yanez Quiroz, Rafael Anyel Doria Genes, Maria Eugenia
dc.subject.proposal.none.fl_str_mv	Torrefacción Biomasa Temperatura Cascara de coco Potencial energético
topic	Torrefacción Biomasa Temperatura Cascara de coco Potencial energético Torrefaction Biomass Temperature Coconut shell Energy potential
dc.subject.keywords.none.fl_str_mv	Torrefaction Biomass Temperature Coconut shell Energy potential
description	Este trabajo se enfoca en evaluar experimentalmente la torrefacción de mesocarpio y epicarpio de coco como una estrategia de caracterización energética. Se realizaron ensayos de torrefacción a escala de laboratorio, para las muestras utilizadas se definió una geometría estándar (20mm x 20 mm x 20 mm) aproximadamente, en un set de seis experimentos se modificaron variables como la temperatura de trabajo, tiempo de precalentamiento, profundidad de la muestra y tiempo de torrefacción. Los resultados obtenidos fueron comparados entre sí para determinar combinación de variables que brinde el material torrefacto de mejores propiedades energéticas, también se comparan los resultados con investigaciones recientes sobre el procesamiento de biomasas para definir la calidad del material obtenido y en función de un análisis cuantitativo de las propiedades energéticas definir la calidad del material torrefacto obtenido de la materia prima disponible en la región de Córdoba.
publishDate	2024
dc.date.accessioned.none.fl_str_mv	2024-10-25T10:55:48Z
dc.date.available.none.fl_str_mv	2024-10-25T10:55:48Z
dc.date.issued.none.fl_str_mv	2024-10-20
dc.type.none.fl_str_mv	Trabajo de grado - Pregrado
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dc.language.iso.none.fl_str_mv	spa
language	spa
dc.relation.references.none.fl_str_mv	Aguiar, S., Enríquez Estrella, M., & Uvidia Cabadiana, H. (2022). Residuos agroindustriales: su impacto, manejo y aprovechamiento. In Axioma (Vol. 1, Issue 27, pp. 5–11). https://doi.org/10.26621/ra.v1i27.803 Alfonso, A., Padilla, F., Javier, L., Martínez, F., Mendoza, J. M., David, J., & Julio, R. (n.d.). DISEÑO DE LA CÁMARA DE COMBUSTIÓN DE UNA COCINA ECOEFICIENTE A BIOMASA TIPO ROCKET CON MESOCARPIO DE COCO Alex. 77. Arteaga Ramos, J. P., Rhenals Julio, J. D., Ferreira Rodrigues, C. H., Arce Ferrufino, G. L. A., & Romero Luna, C. M. (2022). Experimental Study of Oxidative Torrefaction of Eucalyptus Wood Chip Using a Mineral Layer of Silica Sand. https://doi.org/10.26678/abcm.encit2022.cit22-0620 Charles Perrie, Chase K. Glenn, Gregory Reed, Tret C. Burdette, Khairallah Atwi, Omar El Hajj, Zezhen Cheng, Kruthika V. Kumar, Amanda A. Frossard, Sudhagar Mani, and R. S. (2022). Effect of Torrefaction on Aerosol Emissions at Combustion Temperatures Relevant for Domestic Burning and Power Generation. ACS Earth and Space Chemistry, 6(11), 2722–2731. https://doi.org/10.1021/acsearthspacechem.2c00251 Chen, W. H., Peng, J., & Bi, X. T. (2015). A state-of-the-art review of biomass torrefaction, densification and applications. In Renewable and Sustainable Energy Reviews (Vol. 44, pp. 847– 866). Elsevier. https://doi.org/10.1016/j.rser.2014.12.039 Conag, A. T., Villahermosa, J. E. R., Cabatingan, L. K., & Go, A. W. (2018). Energy densification of sugarcane leaves through torrefaction under minimized oxidative atmosphere. Energy for Sustainable Development, 42, 160–169. https://doi.org/10.1016/j.esd.2017.11.004 Dorde Medic, Matthew Darr, Benjamin Potter, A. S. (2010). Effect of Torrefaction Process Parameters on Biomass Feedstock Upgrading. Merican Society of Agricultural and Biological Engineers. https://doi.org/10.13031/2013.29898 Gautam, C. Anupam, S. Aditya, S. Pawan, S. S. (2024). Experimental Investigation and Thermodynamic Analysis of Coconut-Shell-Derived Activated Carbon for CO2-Based Advanced Adsorption Cooling Systems. Industrial & Engineering Chemistry Research, 63(5), 2395. https://doi.org/10.1021/acs.iecr.3c03789 Herrera Yatacué, G. V., Cuartas Quintero, J. C., Alzate Mejía, S., & saraalzate19@gmail.com. (2023). Residuos agroindustriales como sustratos para la producción de biomasa fúngica: enfoque en bagazo de caña. https://hdl.handle.net/10901/28094 Howari, H., Parvez, M., Khan, O., Alhodaib, A., Mallah, A., & Yahya, Z. (2023). Multi-Objective Optimization for Ranking Waste Biomass Materials Based on Performance and Emission Parameters in a Pyrolysis Process—An AHP–TOPSIS Approach. Sustainability (Switzerland), 15(4). https://doi.org/10.3390/su15043690 International Energy Agency. (2023). World Energy Outlook 2023 \| Enhanced Reader. 23–28. https://www.iea.org/news/the-energy-world-is-set-to-change-significantly-by-2030-based-ontoday-s-policy-settings-alone Mendoza, J. M., Bula, A. J., Gómez, R. D., & Corredor, L. A. (2012). Análisis exergético de la gasificación de biomasa. Informacion Tecnologica, 23(5), 85–96. https://doi.org/10.4067/S0718- 07642012000500009 Nhuchhen, D., Basu, P., & Acharya, B. (2014). A Comprehensive Review on Biomass Torrefaction. International Journal of Renewable Energy & Biofuels, 2014, 1–56. https://doi.org/10.5171/2014.506376 Park, S. Y., Kim, S. J., Oh, K. C., Cho, L. H., Jeon, Y. K., & Kim, D. H. (2023). Evaluation of the Optimal Conditions for Oxygen-Rich and Oxygen-Lean Torrefaction of Forestry Byproduct as a Fuel. Energies, 16(12). https://doi.org/10.3390/en16124763 Phanphanich, M., & Mani, S. (2011). Impact of torrefaction on the grindability and fuel characteristics of forest biomass. Bioresource Technology, 102(2), 1246–1253. https://doi.org/10.1016/j.biortech.2010.08.028 Puente-Urbina, A. (2022). Caracterización de biomasas lignocelulósicas y su procesamiento térmico: Estado y oportunidades en el Instituto Tecnológico de Costa Rica. Revista Tecnología En Marcha, 35, 119–128. https://doi.org/10.18845/tm.v35i7.6343 Rago, Y. P., Collard, F. X., Görgens, J. F., Surroop, D., & Mohee, R. (2020). Torrefaction of biomass and plastic from municipal solid waste streams and their blends: Evaluation of interactive effects. Fuel, 277(May), 118089. https://doi.org/10.1016/j.fuel.2020.118089 Riaz, S., Al-Abdeli, Y. M., & Oluwoye, I. (2023). Partially Oxidative Torrefaction of Woody Biomass Pellets: Burning Behaviour and Emission Analysis. Bioenergy Research, 16(4), 2331–2341. https://doi.org/10.1007/s12155-023-10572-z Sikarwar, V. S., Zhao, M., Clough, P., Yao, J., Zhong, X., Memon, M. Z., Shah, N., Anthony, E. J., & Fennell, P. S. (2016). An overview of advances in biomass gasification. Energy and Environmental Science, 9(10), 2939–2977. https://doi.org/10.1039/c6ee00935b Simonic, M., Goricanec, D., & Urbancl, D. (2020). Impact of torrefaction on biomass properties depending on temperature and operation time. Science of the Total Environment, 740, 140086. https://doi.org/10.1016/j.scitotenv.2020.140086 Soria-Verdugo, A., Cano-Pleite, E., Panahi, A., & Ghoniem, A. F. (2022). Kinetics mechanism of inert and oxidative torrefaction of biomass. Energy Conversion and Management, 267(April), 115892. https://doi.org/10.1016/j.enconman.2022.115892 Tripathi, M., Sahu, J. N., & Ganesan, P. (2016). Effect of process parameters on production of biochar from biomass waste through pyrolysis: A review. Renewable and Sustainable Energy Reviews, 55, 467–481. https://doi.org/10.1016/j.rser.2015.10.122 Uddin Monir, M., Muntasir Shovon, S., Ahamed Akash, F., Habib, M. A., Techato, K., Abd Aziz, A., Chowdhury, S., & Eka Prasetya, T. A. (2024). Comprehensive characterization and kinetic analysis of coconut shell thermal degradation: Energy potential evaluated via the Coats-Redfern method. Case Studies in Thermal Engineering, 55(January), 104186. https://doi.org/10.1016/j.csite.2024.104186 Zhang, L., Wang, Z., Ma, J., Kong, W., Yuan, P., Sun, R., & Shen, B. (2022). Analysis of functionality distribution and microstructural characteristics of upgraded rice husk after undergoing nonoxidative and oxidative torrefaction. Fuel, 310(PC), 122477. https://doi.org/10.1016/j.fuel.2021.122477
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spelling	Rhenals Julio, Jesús Davidc6172e8f-8d1f-4a11-a859-07156ae93b58-1Yanez Quiroz, Rafael Anyel37a42874-8a5b-42bf-958d-141e1a416184-1Doria Genes, Maria Eugenia72e5b70a-f319-4ab8-a828-3aa8ce0168da-12024-10-25T10:55:48Z2024-10-25T10:55:48Z2024-10-20https://repositorio.unicordoba.edu.co/handle/ucordoba/8681Universidad de CórdobaRepositorio Institucional Unicórdobahttps://repositorio.unicordoba.edu.coEste trabajo se enfoca en evaluar experimentalmente la torrefacción de mesocarpio y epicarpio de coco como una estrategia de caracterización energética. Se realizaron ensayos de torrefacción a escala de laboratorio, para las muestras utilizadas se definió una geometría estándar (20mm x 20 mm x 20 mm) aproximadamente, en un set de seis experimentos se modificaron variables como la temperatura de trabajo, tiempo de precalentamiento, profundidad de la muestra y tiempo de torrefacción. Los resultados obtenidos fueron comparados entre sí para determinar combinación de variables que brinde el material torrefacto de mejores propiedades energéticas, también se comparan los resultados con investigaciones recientes sobre el procesamiento de biomasas para definir la calidad del material obtenido y en función de un análisis cuantitativo de las propiedades energéticas definir la calidad del material torrefacto obtenido de la materia prima disponible en la región de Córdoba.PregradoIngeniero(a) Mecánico(a)Artículoapplication/pdfspaUniversidad de CórdobaFacultad de IngenieríaMontería, Córdoba, ColombiaIngeniería MecánicaCopyright Universidad de Córdoba, 2024https://creativecommons.org/licenses/by-nc-nd/4.0/Atribución-NoComercial-SinDerivadas 4.0 Internacional (CC BY-NC-ND 4.0)info:eu-repo/semantics/openAccesshttp://purl.org/coar/access_right/c_abf2Evaluación experimental de la torrefacción parcialmente oxidativa de cáscara de coco con fines energéticosTrabajo de grado - Pregradoinfo:eu-repo/semantics/bachelorThesishttp://purl.org/coar/resource_type/c_7a1finfo:eu-repo/semantics/acceptedVersionTextAguiar, S., Enríquez Estrella, M., & Uvidia Cabadiana, H. (2022). Residuos agroindustriales: su impacto, manejo y aprovechamiento. In Axioma (Vol. 1, Issue 27, pp. 5–11). https://doi.org/10.26621/ra.v1i27.803Alfonso, A., Padilla, F., Javier, L., Martínez, F., Mendoza, J. M., David, J., & Julio, R. (n.d.). DISEÑO DE LA CÁMARA DE COMBUSTIÓN DE UNA COCINA ECOEFICIENTE A BIOMASA TIPO ROCKET CON MESOCARPIO DE COCO Alex. 77.Arteaga Ramos, J. P., Rhenals Julio, J. D., Ferreira Rodrigues, C. H., Arce Ferrufino, G. L. A., & Romero Luna, C. M. (2022). Experimental Study of Oxidative Torrefaction of Eucalyptus Wood Chip Using a Mineral Layer of Silica Sand. https://doi.org/10.26678/abcm.encit2022.cit22-0620Charles Perrie, Chase K. Glenn, Gregory Reed, Tret C. Burdette, Khairallah Atwi, Omar El Hajj, Zezhen Cheng, Kruthika V. Kumar, Amanda A. Frossard, Sudhagar Mani, and R. S. (2022). Effect of Torrefaction on Aerosol Emissions at Combustion Temperatures Relevant for Domestic Burning and Power Generation. ACS Earth and Space Chemistry, 6(11), 2722–2731. https://doi.org/10.1021/acsearthspacechem.2c00251Chen, W. H., Peng, J., & Bi, X. T. (2015). A state-of-the-art review of biomass torrefaction, densification and applications. In Renewable and Sustainable Energy Reviews (Vol. 44, pp. 847– 866). Elsevier. https://doi.org/10.1016/j.rser.2014.12.039Conag, A. T., Villahermosa, J. E. R., Cabatingan, L. K., & Go, A. W. (2018). Energy densification of sugarcane leaves through torrefaction under minimized oxidative atmosphere. Energy for Sustainable Development, 42, 160–169. https://doi.org/10.1016/j.esd.2017.11.004Dorde Medic, Matthew Darr, Benjamin Potter, A. S. (2010). Effect of Torrefaction Process Parameters on Biomass Feedstock Upgrading. Merican Society of Agricultural and Biological Engineers. https://doi.org/10.13031/2013.29898Gautam, C. Anupam, S. Aditya, S. Pawan, S. S. (2024). Experimental Investigation and Thermodynamic Analysis of Coconut-Shell-Derived Activated Carbon for CO2-Based Advanced Adsorption Cooling Systems. Industrial & Engineering Chemistry Research, 63(5), 2395. https://doi.org/10.1021/acs.iecr.3c03789Herrera Yatacué, G. V., Cuartas Quintero, J. C., Alzate Mejía, S., & saraalzate19@gmail.com. (2023). Residuos agroindustriales como sustratos para la producción de biomasa fúngica: enfoque en bagazo de caña. https://hdl.handle.net/10901/28094Howari, H., Parvez, M., Khan, O., Alhodaib, A., Mallah, A., & Yahya, Z. (2023). Multi-Objective Optimization for Ranking Waste Biomass Materials Based on Performance and Emission Parameters in a Pyrolysis Process—An AHP–TOPSIS Approach. Sustainability (Switzerland), 15(4). https://doi.org/10.3390/su15043690International Energy Agency. (2023). World Energy Outlook 2023 \| Enhanced Reader. 23–28. https://www.iea.org/news/the-energy-world-is-set-to-change-significantly-by-2030-based-ontoday-s-policy-settings-aloneMendoza, J. M., Bula, A. J., Gómez, R. D., & Corredor, L. A. (2012). Análisis exergético de la gasificación de biomasa. Informacion Tecnologica, 23(5), 85–96. https://doi.org/10.4067/S0718- 07642012000500009Nhuchhen, D., Basu, P., & Acharya, B. (2014). A Comprehensive Review on Biomass Torrefaction. International Journal of Renewable Energy & Biofuels, 2014, 1–56. https://doi.org/10.5171/2014.506376Park, S. Y., Kim, S. J., Oh, K. C., Cho, L. H., Jeon, Y. K., & Kim, D. H. (2023). Evaluation of the Optimal Conditions for Oxygen-Rich and Oxygen-Lean Torrefaction of Forestry Byproduct as a Fuel. Energies, 16(12). https://doi.org/10.3390/en16124763Phanphanich, M., & Mani, S. (2011). Impact of torrefaction on the grindability and fuel characteristics of forest biomass. Bioresource Technology, 102(2), 1246–1253. https://doi.org/10.1016/j.biortech.2010.08.028Puente-Urbina, A. (2022). Caracterización de biomasas lignocelulósicas y su procesamiento térmico: Estado y oportunidades en el Instituto Tecnológico de Costa Rica. Revista Tecnología En Marcha, 35, 119–128. https://doi.org/10.18845/tm.v35i7.6343Rago, Y. P., Collard, F. X., Görgens, J. F., Surroop, D., & Mohee, R. (2020). Torrefaction of biomass and plastic from municipal solid waste streams and their blends: Evaluation of interactive effects. Fuel, 277(May), 118089. https://doi.org/10.1016/j.fuel.2020.118089Riaz, S., Al-Abdeli, Y. M., & Oluwoye, I. (2023). Partially Oxidative Torrefaction of Woody Biomass Pellets: Burning Behaviour and Emission Analysis. Bioenergy Research, 16(4), 2331–2341. https://doi.org/10.1007/s12155-023-10572-zSikarwar, V. S., Zhao, M., Clough, P., Yao, J., Zhong, X., Memon, M. Z., Shah, N., Anthony, E. J., & Fennell, P. S. (2016). An overview of advances in biomass gasification. Energy and Environmental Science, 9(10), 2939–2977. https://doi.org/10.1039/c6ee00935bSimonic, M., Goricanec, D., & Urbancl, D. (2020). Impact of torrefaction on biomass properties depending on temperature and operation time. Science of the Total Environment, 740, 140086. https://doi.org/10.1016/j.scitotenv.2020.140086Soria-Verdugo, A., Cano-Pleite, E., Panahi, A., & Ghoniem, A. F. (2022). Kinetics mechanism of inert and oxidative torrefaction of biomass. Energy Conversion and Management, 267(April), 115892. https://doi.org/10.1016/j.enconman.2022.115892Tripathi, M., Sahu, J. N., & Ganesan, P. (2016). Effect of process parameters on production of biochar from biomass waste through pyrolysis: A review. Renewable and Sustainable Energy Reviews, 55, 467–481. https://doi.org/10.1016/j.rser.2015.10.122Uddin Monir, M., Muntasir Shovon, S., Ahamed Akash, F., Habib, M. A., Techato, K., Abd Aziz, A., Chowdhury, S., & Eka Prasetya, T. A. (2024). Comprehensive characterization and kinetic analysis of coconut shell thermal degradation: Energy potential evaluated via the Coats-Redfern method. Case Studies in Thermal Engineering, 55(January), 104186. https://doi.org/10.1016/j.csite.2024.104186Zhang, L., Wang, Z., Ma, J., Kong, W., Yuan, P., Sun, R., & Shen, B. (2022). Analysis of functionality distribution and microstructural characteristics of upgraded rice husk after undergoing nonoxidative and oxidative torrefaction. Fuel, 310(PC), 122477. https://doi.org/10.1016/j.fuel.2021.122477TorrefacciónBiomasaTemperaturaCascara de cocoPotencial energéticoTorrefactionBiomassTemperatureCoconut shellEnergy potentialPublicationORIGINALYanezQuirozRafaelAnyel-DoriaGenesMariaEugenia.pdfYanezQuirozRafaelAnyel-DoriaGenesMariaEugenia.pdfapplication/pdf933591https://repositorio.unicordoba.edu.co/bitstreams/1a675cd5-8e97-4d1e-be1d-d177c382121f/downloadae8137b47a39ad88af9ee9e4571d44f4MD52Formato de Autorización.pdfFormato de Autorización.pdfapplication/pdf259727https://repositorio.unicordoba.edu.co/bitstreams/520b42ed-42e5-436e-a9bf-b6c6399b0456/downloadfd275dc220ed939422c33b13dd82d70dMD51LICENSElicense.txtlicense.txttext/plain; charset=utf-815543https://repositorio.unicordoba.edu.co/bitstreams/802746b9-58ac-4913-9534-4246e48c7be0/download73a5432e0b76442b22b026844140d683MD53TEXTFormato de Autorización.pdf.txtFormato de Autorización.pdf.txtExtracted 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

Evaluación experimental de la torrefacción parcialmente oxidativa de cáscara de coco con fines energéticos

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