Effect of Diesel–Palm Fatty Acid Distillate Ethyl Ester–Hydrous Ethanol Blend on the Performance, Emissions, and Long-Term Endurance Test on an Unmodified DI Diesel Engine

[Image: see text] In this research, the diesel–palm fatty acid distillate ethyl ester–hydrous ethanol, palm fatty acid distillate ethyl ester, and diesel were studied to investigate the gas emissions and performances of the direct injection diesel engine at different engine loads and engine speeds....

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Autores principales: Thawornprasert, Jarernporn, Sopajarn, Arrisa, Niseng, Suhdee, Suybangdum, Panumas, Duangsuwan, Wiriya, Somnuk, Krit
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Chemical Society 2022
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8867801/
https://www.ncbi.nlm.nih.gov/pubmed/35224350
http://dx.doi.org/10.1021/acsomega.1c06082
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author Thawornprasert, Jarernporn
Sopajarn, Arrisa
Niseng, Suhdee
Suybangdum, Panumas
Duangsuwan, Wiriya
Somnuk, Krit
author_facet Thawornprasert, Jarernporn
Sopajarn, Arrisa
Niseng, Suhdee
Suybangdum, Panumas
Duangsuwan, Wiriya
Somnuk, Krit
author_sort Thawornprasert, Jarernporn
collection PubMed
description [Image: see text] In this research, the diesel–palm fatty acid distillate ethyl ester–hydrous ethanol, palm fatty acid distillate ethyl ester, and diesel were studied to investigate the gas emissions and performances of the direct injection diesel engine at different engine loads and engine speeds. At all engine speeds and loads, nitrogen oxide emissions from all fuel blends (D50PE40E10, D40PE50E10, and D30PE60E10) were significantly lower than the baseline diesel. At all engine speeds and engine loads, the fuel blends released less carbon dioxide than the baseline diesel, with the exception of the D30PE60E10 blend. Furthermore, D30PE60E10 diesel was used to test wear for 500 h long-term endurance of diesel engine components. The results indicated that biodiesel in fuel blends may reduce engine component wear by forming a thin coating on the metal surface of the engine component. However, after 100 h of continuous operation with D30PE60E10 blend, the engine cannot be restarted because only a part of the fuel pump had many pores on the surface of the plunger, barrel, delivery valve, and valve holder. However, these components may have to be considered to prevent corrosion when this fuel blend was employed.
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spelling pubmed-88678012022-02-25 Effect of Diesel–Palm Fatty Acid Distillate Ethyl Ester–Hydrous Ethanol Blend on the Performance, Emissions, and Long-Term Endurance Test on an Unmodified DI Diesel Engine Thawornprasert, Jarernporn Sopajarn, Arrisa Niseng, Suhdee Suybangdum, Panumas Duangsuwan, Wiriya Somnuk, Krit ACS Omega [Image: see text] In this research, the diesel–palm fatty acid distillate ethyl ester–hydrous ethanol, palm fatty acid distillate ethyl ester, and diesel were studied to investigate the gas emissions and performances of the direct injection diesel engine at different engine loads and engine speeds. At all engine speeds and loads, nitrogen oxide emissions from all fuel blends (D50PE40E10, D40PE50E10, and D30PE60E10) were significantly lower than the baseline diesel. At all engine speeds and engine loads, the fuel blends released less carbon dioxide than the baseline diesel, with the exception of the D30PE60E10 blend. Furthermore, D30PE60E10 diesel was used to test wear for 500 h long-term endurance of diesel engine components. The results indicated that biodiesel in fuel blends may reduce engine component wear by forming a thin coating on the metal surface of the engine component. However, after 100 h of continuous operation with D30PE60E10 blend, the engine cannot be restarted because only a part of the fuel pump had many pores on the surface of the plunger, barrel, delivery valve, and valve holder. However, these components may have to be considered to prevent corrosion when this fuel blend was employed. American Chemical Society 2022-02-11 /pmc/articles/PMC8867801/ /pubmed/35224350 http://dx.doi.org/10.1021/acsomega.1c06082 Text en © 2022 The Authors. Published by American Chemical Society https://creativecommons.org/licenses/by-nc-nd/4.0/Permits non-commercial access and re-use, provided that author attribution and integrity are maintained; but does not permit creation of adaptations or other derivative works (https://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Thawornprasert, Jarernporn
Sopajarn, Arrisa
Niseng, Suhdee
Suybangdum, Panumas
Duangsuwan, Wiriya
Somnuk, Krit
Effect of Diesel–Palm Fatty Acid Distillate Ethyl Ester–Hydrous Ethanol Blend on the Performance, Emissions, and Long-Term Endurance Test on an Unmodified DI Diesel Engine
title Effect of Diesel–Palm Fatty Acid Distillate Ethyl Ester–Hydrous Ethanol Blend on the Performance, Emissions, and Long-Term Endurance Test on an Unmodified DI Diesel Engine
title_full Effect of Diesel–Palm Fatty Acid Distillate Ethyl Ester–Hydrous Ethanol Blend on the Performance, Emissions, and Long-Term Endurance Test on an Unmodified DI Diesel Engine
title_fullStr Effect of Diesel–Palm Fatty Acid Distillate Ethyl Ester–Hydrous Ethanol Blend on the Performance, Emissions, and Long-Term Endurance Test on an Unmodified DI Diesel Engine
title_full_unstemmed Effect of Diesel–Palm Fatty Acid Distillate Ethyl Ester–Hydrous Ethanol Blend on the Performance, Emissions, and Long-Term Endurance Test on an Unmodified DI Diesel Engine
title_short Effect of Diesel–Palm Fatty Acid Distillate Ethyl Ester–Hydrous Ethanol Blend on the Performance, Emissions, and Long-Term Endurance Test on an Unmodified DI Diesel Engine
title_sort effect of diesel–palm fatty acid distillate ethyl ester–hydrous ethanol blend on the performance, emissions, and long-term endurance test on an unmodified di diesel engine
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8867801/
https://www.ncbi.nlm.nih.gov/pubmed/35224350
http://dx.doi.org/10.1021/acsomega.1c06082
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