dc.contributor.author | Prada Botia, Gaudy Carolina | |
dc.contributor.author | Duarte Forero, Jorge | |
dc.contributor.author | Valencia, Guillermo | |
dc.date.accessioned | 2021-11-17T01:35:53Z | |
dc.date.available | 2021-11-17T01:35:53Z | |
dc.date.issued | 2020-03 | |
dc.identifier.issn | 2281-5295 | |
dc.identifier.uri | http://repositorio.ufps.edu.co/handle/ufps/1039 | |
dc.description.abstract | This study investigates the influence of biodiesel blends produced from agro-industrial residues of palm oil (Elaeis guineensis), on the performance and emission characteristics of a small diameter single-cylinder diesel engine. The engine tests have been performed at three different loads with a constant speed of 3600 rpm. Experimental results have showed that the blends of biodiesel PB5 and PB10 cause a consumption of 1.12% and 2.45% higher than diesel. The addition of biodiesel from palm oil residues has allowed the reduction of CO, CO2, and HC emissions by 28.6%, 12.6%, and 14.3%. However, biodiesel has caused an increase in NOx emissions and smoke density. The evaluation of the thermal efficiency of the brake has showed a difference of 2.4% and 3.7% for PB5 and PB10 compared to conventional diesel. Similar efficiency compared to diesel and significant reductions in CO, CO2, and HC emissions, show that biodiesel blends produced from palm oil agro-industrial wastes have the potential to replace partially the diesel content in the fuel, thus contributing to the reduction of engine emissions and reducing the environmental pollution caused by this type of waste. | eng |
dc.format.extent | 08 páginas | spa |
dc.format.mimetype | application/pdf | spa |
dc.language.iso | eng | spa |
dc.publisher | International Journal on Energy Conversion | spa |
dc.relation.ispartof | International Journal on Energy Conversion | |
dc.rights | © 2020 Praise Worthy Prize S.r.l. - All rights reserved | eng |
dc.source | https://www.praiseworthyprize.org/jsm/index.php?journal=irecon&page=article&op=view&path[]=24447 | spa |
dc.title | Characterization of Emissions in a Diesel Engine Using Biodiesel Blends Produced from Agro-Industrial Residues of Elaeis Guineensis | eng |
dc.type | Artículo de revista | spa |
dcterms.references | Bozza, F., Teodosio, L., De Bellis, V., Cacciatore, D., Minarelli, F., Aliperti, A., A Modelling Study to Analyse the Compression Ratio Effects on Combustion and Knock Phenomena in a High-Performance Spark-Ignition GDI Engine, (2018) International Review on Modelling and Simulations (IREMOS), 11 (3), pp. 187-197. | spa |
dcterms.references | Omojola, A., Inambao, F., Onuh, E., Prediction of Properties, Engine Performance and Emissions of Compression Ignition Engines Fuelled with Waste Cooking Oil Methyl Ester - A Review of Numerical Approaches, (2019) International Review of Mechanical Engineering (IREME), 13 (2), pp. 97-110. | spa |
dcterms.references | Orozco, W., Acuña, N., Duarte Forero, J., Characterization of Emissions in Low Displacement Diesel Engines Using Biodiesel and Energy Recovery System, (2019) International Review of Mechanical Engineering (IREME), 13 (7), pp. 420-426. | spa |
dcterms.references | S. E. Hosseini, M. A. Wahid, Necessity of biodiesel utilization as a source of renewable energy in Malaysia, Renewable and Sustainable Energy Reviews, vol. 16, pp. 5732–5740, 2012. | spa |
dcterms.references | H. Kapadia, H. Brahmbhatt, Y. Dabhi, S. Chourasia, Investigation of emulsion and effect on emission in CI engine by using diesel and bio-diesel fuel: A review, Egyptian Journal of Petroleum, vol. 28, pp. 323–337, 2019. | spa |
dcterms.references | B. H. H. Goh, H. C. Ong, M. Y. Cheah, W.-H. Chen, K. L. Yu, T. M. I. Mahlia, Sustainability of direct biodiesel synthesis from microalgae biomass: A critical review, Renewable and Sustainable Energy Reviews, vol. 107, pp. 59–74, 2019. | spa |
dcterms.references | M. A. Fazal, S. Rubaiee, A. Al-Zahrani, Overview of the interactions between automotive materials and biodiesel obtained from different feedstocks, Fuel Processing Technology, vol. 196, p. 106178, 2019. | spa |
dcterms.references | D. Chandran, Compatibility of diesel engine materials with biodiesel fuel, Renewable Energy, vol. 147, pp. 89–99, 2020. | spa |
dcterms.references | Lawrence, The Effect of Prickly Poppy Methyl Ester Blends on Ci Engine Performance and Emission Characteristics, American Journal of Environmental Sciences, vol. 7, pp. 145–149, 2011. | spa |
dcterms.references | S. A. Basha, K. R. Gopal, S. Jebaraj, A review on biodiesel production, combustion, emissions and performance, Renewable and Sustainable Energy Reviews, vol. 13, pp. 1628–1634, 2016. | spa |
dcterms.references | B. Sajjadi, A. A. A. Raman, H. Arandiyan, A comprehensive review on properties of edible and non-edible vegetable oil-based biodiesel: Composition, specifications and prediction models, Renewable and Sustainable Energy Reviews, vol. 63, pp. 62–92, 2016. | spa |
dcterms.references | Calabrone, Martelli, Mazzanti, Vitalone, Genomic Study, Phytochemical Characterization,and Antiproliferative Activity of Two Different Genotypes of Jatropha curcas L. Obtained by a Breeding Program, Applied Sciences, vol. 9, pp. 4373, 2019. | spa |
dcterms.references | M. Kamil, K. Ramadan, C. Ghenai, A. G. Olabi, I. T. Nazzal, Emissions from Combustion of Second-Generation Biodiesel Produced from Seeds of Date Palm Fruit (Phoenix dactylifera L.), Applied Sciences, vol. 9, pp. 3720, 2019. | spa |
dcterms.references | Gaikwad, P., Balan, K., Ramesh Bapu, B., Performance Analysis of Neem and Palm Bio-Diesel Blend on Diesel Engine - a Review, (2017) International Review of Mechanical Engineering (IREME), 11 (9), pp. 709-715. | spa |
dcterms.references | S. Saravanan, G. Nagarajan, G. L. N. Rao, S. Sampath, Feasibility study of crude rice bran oil as a diesel substitute in a DI-CI engine without modifications, Energy for Sustainable Development, vol. 11, pp. 83–92, 2007. | spa |
dcterms.references | B. Deepanraj, P. Lawrence, R. Sivashankar, V. Sivasubramanian, Analysis of pre-heated crude palm oil, palm oil methyl ester and its blends as fuel in a diesel engine, International Journal of Ambient Energy, vol. 37, pp. 495–500, 2016. | spa |
dcterms.references | C. S. N. Prasad, K. V. K. Reddy, Performance and emission characteristics of a diesel engine with castor oil, Indian Journal of Science and Technology, vol. 2, pp. 25-31, 2009. | spa |
dcterms.references | H. J. Berchmans, S. Hirata, Biodiesel production from crude Jatropha curcas L. seed oil with a high content of free fatty acids, Bioresource Technology, vol. 99, pp. 1716–1721, 2008. | spa |
dcterms.references | N. A. M. Jamaluddin et al., Techno-Economic Analysis and Physicochemical Properties of Ceiba pentandra as Second-Generation Biodiesel Based on ASTM D6751 and EN 14214, Processes, vol. 7, pp. 636, 2019. | spa |
dcterms.references | Damanik et al., The Performance and Exhaust Emissions of a Diesel Engine Fuelled with Calophyllum inophyllum—Palm Biodiesel, Processes, vol. 7, pp. 597, 2019. | spa |
dcterms.references | F. Guo, Z. Fang, X.-F. Tian, Y.-D. Long, L.-Q. Jiang, One-step production of biodiesel from Jatropha oil with high-acid value in ionic liquids, Bioresource Technology, vol. 102, pp. 6469–6472, 2011. | spa |
dcterms.references | Basri et al., A Sugarcane-Bagasse-Based Adsorbent Employed for Mitigating Eutrophication Threats and Producing Biodiesel Simultaneously, Processes, vol. 7, pp. 572, 2019. | spa |
dcterms.references | M. S. Gad, R. El-Araby, K. A. Abed, N. N. El-Ibiari, A. K. El Morsi, G. I. El-Diwani, Performance and emissions characteristics of CI engine fueled with palm oil/palm oil methyl ester blended with diesel fuel, Egyptian Journal of Petroleum, vol. 27, pp. 215–219, 2018. | spa |
dcterms.references | S. Ahmed, M. H. Hassan, M. A. Kalam, S. M. Ashrafur Rahman, M. J. Abedin, A. Shahir, An experimental investigation of biodiesel production, characterization, engine performance, emission and noise of Brassica juncea methyl ester and its blends, Journal of Cleaner Production, vol. 79, pp. 74–81, 2014. | spa |
dcterms.references | H. C. Ong, H. H. Masjuki, T. M. I. Mahlia, A. S. Silitonga, W. T. Chong, T. Yusaf, Engine performance and emissions using Jatropha curcas, Ceiba pentandra and Calophyllum inophyllum biodiesel in a CI diesel engine, Energy, vol. 69, pp. 427–445, 2014. | spa |
dcterms.references | L. A. Raman, B. Deepanraj, S. Rajakumar, V. Sivasubramanian, Experimental investigation on performance, combustion and emission analysis of a direct injection diesel engine fuelled with rapeseed oil biodiesel, Fuel, vol. 246, pp. 69–74, 2019. | spa |
dcterms.references | M. M. Musthafa, T. A. Kumar, T. Mohanraj, R. Chandramouli, A comparative study on performance, combustion and emission characteristics of diesel engine fuelled by biodiesel blends with and without an additive, Fuel, vol. 225, pp. 343–348, 2018. | spa |
dcterms.references | O. Özener, L. Yüksek, A. T. Ergenç, M. Özkan, Effects of soybean biodiesel on a DI diesel engine performance, emission and combustion characteristics, Fuel, vol. 115, pp. 875–883, 2014. | spa |
dcterms.references | A. O. Emiroğlu, M. Şen, Combustion, performance and emission characteristics of various alcohol blends in a single cylinder diesel engine, Fuel, vol. 212, pp. 34–40, 2018. | spa |
dcterms.references | M. Canakci, Combustion characteristics of a turbocharged DI compression ignition engine fueled with petroleum diesel fuels and biodiesel, Bioresource Technology, vol. 98, pp. 1167–1175, 2007. | spa |
dcterms.references | S. Murillo, J. L. Míguez, J. Porteiro, E. Granada, J. C. Morán, Performance and exhaust emissions in the use of biodiesel in outboard diesel engines, Fuel, vol. 86, pp. 1765–1771, 2007. | spa |
dcterms.references | M. M. Hasan, M. M. Rahman, K. Kadirgama, A review on homogeneous charge compression ignition engine performance using biodiesel-diesel blend as a fuel, International Journal of Automotive and Mechanical Engineering, vol. 11, pp. 2199–2211, 2015. | spa |
dcterms.references | E. A. Abed, M. S. Gad, A. K. El Morsi, M. M. Sayed, S. A. Elyazeed, Effect of biodiesel fuels on diesel engine emissions, Egyptian Journal of Petroleum, vol. 28, pp. 183–188, 2019. | spa |
dcterms.references | M. A. Asokan, S. Senthur Prabu, P. K. K. Bade, V. M. Nekkanti, S. S. G. Gutta, Performance, combustion and emission characteristics of juliflora biodiesel fuelled DI diesel engine, Energy, vol. 173, pp. 883–892, 2019. | spa |
dc.identifier.doi | https://doi.org/10.15866/irecon.v8i2.18583 | |
dc.publisher.place | Italia | spa |
dc.relation.citationedition | Vol.8 No.2.(2020) | spa |
dc.relation.citationendpage | 52 | spa |
dc.relation.citationissue | 2(2020) | spa |
dc.relation.citationstartpage | 45 | spa |
dc.relation.citationvolume | 8 | spa |
dc.relation.cites | Prada, G., Valencia, G., Duarte Forero, J., Characterization of Emissions in a Diesel Engine Using Biodiesel Blends Produced from Agro-Industrial Residues of Elaeis Guineensis, (2020) International Journal on Energy Conversion (IRECON), 8 (2), pp. 45-52. doi:https://doi.org/10.15866/irecon.v8i2.18583 | |
dc.relation.ispartofjournal | International Journal on Energy Conversion | spa |
dc.rights.accessrights | info:eu-repo/semantics/openAccess | spa |
dc.rights.creativecommons | Atribución-NoComercial-SinDerivadas 4.0 Internacional (CC BY-NC-ND 4.0) | spa |
dc.subject.proposal | Blends | eng |
dc.subject.proposal | Emissions | eng |
dc.subject.proposal | Low Displacement Engines | eng |
dc.subject.proposal | Residues of Oil Palm | eng |
dc.subject.proposal | Stationary Engine | eng |
dc.type.coar | http://purl.org/coar/resource_type/c_6501 | spa |
dc.type.content | Text | spa |
dc.type.driver | info:eu-repo/semantics/article | spa |
dc.type.redcol | http://purl.org/redcol/resource_type/ART | spa |
oaire.accessrights | http://purl.org/coar/access_right/c_abf2 | spa |
oaire.version | http://purl.org/coar/version/c_970fb48d4fbd8a85 | spa |
dc.type.version | info:eu-repo/semantics/publishedVersion | spa |