Comprehensive Assessment from Optimum Biodiesel Yield to Combustion Characteristics of Light Duty Diesel Engine Fueled with Palm Kernel Oil Biodiesel and Fuel Additives

Biodiesel is considered as a key prospective renewable energy source in India. Hence, a study was carried out for the improvement of palm kernel oil biodiesel production using a transesterification process at different molar ratios. This study comprehensively examined all aspects of biodiesel from o...

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Autores principales: Sabapathy, Senthur Prabu, Ammasi, Asokan Morappur, Khalife, Esmail, Kaveh, Mohammad, Szymanek, Mariusz, Kuruvakkattu Reghu, Gokul, Sabapathy, Prathiba
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8347002/
https://www.ncbi.nlm.nih.gov/pubmed/34361471
http://dx.doi.org/10.3390/ma14154274
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author Sabapathy, Senthur Prabu
Ammasi, Asokan Morappur
Khalife, Esmail
Kaveh, Mohammad
Szymanek, Mariusz
Kuruvakkattu Reghu, Gokul
Sabapathy, Prathiba
author_facet Sabapathy, Senthur Prabu
Ammasi, Asokan Morappur
Khalife, Esmail
Kaveh, Mohammad
Szymanek, Mariusz
Kuruvakkattu Reghu, Gokul
Sabapathy, Prathiba
author_sort Sabapathy, Senthur Prabu
collection PubMed
description Biodiesel is considered as a key prospective renewable energy source in India. Hence, a study was carried out for the improvement of palm kernel oil biodiesel production using a transesterification process at different molar ratios. This study comprehensively examined all aspects of biodiesel from optimum production to the effect of additives on its combustion behavior. The optimum yield condition was validated with the MINITAB-17 software and analyzed using the Taguchi method. Two different additives, 5% diethyl ether (DEE) and 2000 ppm Butylated hydroxyltoluene (BHT), were also experimented. Engine experiments were conducted at constant speed (1500 rpm) and five different engine loads (0, 25, 50, 75 and 100%) on a single-cylinder direct injection diesel engine. Heat release rate, brake specific fuel consumption, brake thermal efficiency, engine emissions, such as CO, HC, NOx, and smoke opacity were analyzed. The maximum palm kernel oil (PKO) biodiesel yields, obtained at 55 °C, for the KOH and NaOH catalysts were 86.69% and 75.21% at the molar ratio of 6:1. B20BHT combustion showed 4.6% higher brake thermal efficiency (BTE). NOx emission was reduced by 19.4%, compared to the diesel fuel values. DEE resulted in higher CO and HC emissions compared to diesel fuel values by 39.2% and 7.6%, respectively, whereas smoke emission was improved by 11.5%.
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spelling pubmed-83470022021-08-08 Comprehensive Assessment from Optimum Biodiesel Yield to Combustion Characteristics of Light Duty Diesel Engine Fueled with Palm Kernel Oil Biodiesel and Fuel Additives Sabapathy, Senthur Prabu Ammasi, Asokan Morappur Khalife, Esmail Kaveh, Mohammad Szymanek, Mariusz Kuruvakkattu Reghu, Gokul Sabapathy, Prathiba Materials (Basel) Article Biodiesel is considered as a key prospective renewable energy source in India. Hence, a study was carried out for the improvement of palm kernel oil biodiesel production using a transesterification process at different molar ratios. This study comprehensively examined all aspects of biodiesel from optimum production to the effect of additives on its combustion behavior. The optimum yield condition was validated with the MINITAB-17 software and analyzed using the Taguchi method. Two different additives, 5% diethyl ether (DEE) and 2000 ppm Butylated hydroxyltoluene (BHT), were also experimented. Engine experiments were conducted at constant speed (1500 rpm) and five different engine loads (0, 25, 50, 75 and 100%) on a single-cylinder direct injection diesel engine. Heat release rate, brake specific fuel consumption, brake thermal efficiency, engine emissions, such as CO, HC, NOx, and smoke opacity were analyzed. The maximum palm kernel oil (PKO) biodiesel yields, obtained at 55 °C, for the KOH and NaOH catalysts were 86.69% and 75.21% at the molar ratio of 6:1. B20BHT combustion showed 4.6% higher brake thermal efficiency (BTE). NOx emission was reduced by 19.4%, compared to the diesel fuel values. DEE resulted in higher CO and HC emissions compared to diesel fuel values by 39.2% and 7.6%, respectively, whereas smoke emission was improved by 11.5%. MDPI 2021-07-30 /pmc/articles/PMC8347002/ /pubmed/34361471 http://dx.doi.org/10.3390/ma14154274 Text en © 2021 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Sabapathy, Senthur Prabu
Ammasi, Asokan Morappur
Khalife, Esmail
Kaveh, Mohammad
Szymanek, Mariusz
Kuruvakkattu Reghu, Gokul
Sabapathy, Prathiba
Comprehensive Assessment from Optimum Biodiesel Yield to Combustion Characteristics of Light Duty Diesel Engine Fueled with Palm Kernel Oil Biodiesel and Fuel Additives
title Comprehensive Assessment from Optimum Biodiesel Yield to Combustion Characteristics of Light Duty Diesel Engine Fueled with Palm Kernel Oil Biodiesel and Fuel Additives
title_full Comprehensive Assessment from Optimum Biodiesel Yield to Combustion Characteristics of Light Duty Diesel Engine Fueled with Palm Kernel Oil Biodiesel and Fuel Additives
title_fullStr Comprehensive Assessment from Optimum Biodiesel Yield to Combustion Characteristics of Light Duty Diesel Engine Fueled with Palm Kernel Oil Biodiesel and Fuel Additives
title_full_unstemmed Comprehensive Assessment from Optimum Biodiesel Yield to Combustion Characteristics of Light Duty Diesel Engine Fueled with Palm Kernel Oil Biodiesel and Fuel Additives
title_short Comprehensive Assessment from Optimum Biodiesel Yield to Combustion Characteristics of Light Duty Diesel Engine Fueled with Palm Kernel Oil Biodiesel and Fuel Additives
title_sort comprehensive assessment from optimum biodiesel yield to combustion characteristics of light duty diesel engine fueled with palm kernel oil biodiesel and fuel additives
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8347002/
https://www.ncbi.nlm.nih.gov/pubmed/34361471
http://dx.doi.org/10.3390/ma14154274
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