Prediction of the Engine Performance and Emission Characteristics of Glycine Max Biodiesel Blends With Nanoadditives and Hydrogen

This study investigates the Glycine max (soybean oil) biodiesel with hydrogen along with MgO nanoadditives on compression ignition engines. A series of tests were conducted at various loading conditions in a water-cooled, single-cylinder, constant-speed engine. The biodiesel-blended soya oil was use...

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Main Authors: Prabhu, L., Shenbagaraman, S., Anbarasu, A., Muniappan, A., Suthan, R., Veza, I.
Format: Article
Published: American Society of Mechanical Engineers (ASME) 2023
Online Access:http://scholars.utp.edu.my/id/eprint/37300/
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85167872775&doi=10.1115%2f1.4062380&partnerID=40&md5=7a78d20cacaf256ccd13ce09cdc2844f
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spelling oai:scholars.utp.edu.my:373002023-10-04T08:37:27Z http://scholars.utp.edu.my/id/eprint/37300/ Prediction of the Engine Performance and Emission Characteristics of Glycine Max Biodiesel Blends With Nanoadditives and Hydrogen Prabhu, L. Shenbagaraman, S. Anbarasu, A. Muniappan, A. Suthan, R. Veza, I. This study investigates the Glycine max (soybean oil) biodiesel with hydrogen along with MgO nanoadditives on compression ignition engines. A series of tests were conducted at various loading conditions in a water-cooled, single-cylinder, constant-speed engine. The biodiesel-blended soya oil was used as the primary fuel, and hydrogen was added at a constant volume of 25 LPM. Additionally, MgO nanoparticles were dispersed to the blends at concentrations of 50 ppm. In this study, it was found that the addition of hydrogen to the compression ignition (CI) engine resulted in an increase in combustion performance. In addition, hydrogen and oxygen molecules significantly reduced the exhaust gas temperature and brake-specific fuel consumption of biodiesel samples. An increase in nanoparticle concentration resulted in a reduction in emissions of pollutants such CO2, CO, and HC. Inclusion of the hydrogen in the combustion chamber reduces the carbon content burned. Further, the availability of extra molecules in the MgO aids the fuel to reach higher combustion rates. At higher load conditions, biodiesel blends showed a slight decrease in NOx emissions. Overall, from the findings, it is clear that hydrogen addition and nanoparticles enhanced emission and combustion process, which is attributed due to the increase in hydrogen content in the fuel. Copyright © 2023 by ASME. American Society of Mechanical Engineers (ASME) 2023 Article NonPeerReviewed Prabhu, L. and Shenbagaraman, S. and Anbarasu, A. and Muniappan, A. and Suthan, R. and Veza, I. (2023) Prediction of the Engine Performance and Emission Characteristics of Glycine Max Biodiesel Blends With Nanoadditives and Hydrogen. Journal of Energy Resources Technology, Transactions of the ASME, 145 (11). ISSN 01950738 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85167872775&doi=10.1115%2f1.4062380&partnerID=40&md5=7a78d20cacaf256ccd13ce09cdc2844f 10.1115/1.4062380 10.1115/1.4062380 10.1115/1.4062380
institution Universiti Teknologi Petronas
building UTP Resource Centre
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Petronas
content_source UTP Institutional Repository
url_provider http://eprints.utp.edu.my/
description This study investigates the Glycine max (soybean oil) biodiesel with hydrogen along with MgO nanoadditives on compression ignition engines. A series of tests were conducted at various loading conditions in a water-cooled, single-cylinder, constant-speed engine. The biodiesel-blended soya oil was used as the primary fuel, and hydrogen was added at a constant volume of 25 LPM. Additionally, MgO nanoparticles were dispersed to the blends at concentrations of 50 ppm. In this study, it was found that the addition of hydrogen to the compression ignition (CI) engine resulted in an increase in combustion performance. In addition, hydrogen and oxygen molecules significantly reduced the exhaust gas temperature and brake-specific fuel consumption of biodiesel samples. An increase in nanoparticle concentration resulted in a reduction in emissions of pollutants such CO2, CO, and HC. Inclusion of the hydrogen in the combustion chamber reduces the carbon content burned. Further, the availability of extra molecules in the MgO aids the fuel to reach higher combustion rates. At higher load conditions, biodiesel blends showed a slight decrease in NOx emissions. Overall, from the findings, it is clear that hydrogen addition and nanoparticles enhanced emission and combustion process, which is attributed due to the increase in hydrogen content in the fuel. Copyright © 2023 by ASME.
format Article
author Prabhu, L.
Shenbagaraman, S.
Anbarasu, A.
Muniappan, A.
Suthan, R.
Veza, I.
spellingShingle Prabhu, L.
Shenbagaraman, S.
Anbarasu, A.
Muniappan, A.
Suthan, R.
Veza, I.
Prediction of the Engine Performance and Emission Characteristics of Glycine Max Biodiesel Blends With Nanoadditives and Hydrogen
author_facet Prabhu, L.
Shenbagaraman, S.
Anbarasu, A.
Muniappan, A.
Suthan, R.
Veza, I.
author_sort Prabhu, L.
title Prediction of the Engine Performance and Emission Characteristics of Glycine Max Biodiesel Blends With Nanoadditives and Hydrogen
title_short Prediction of the Engine Performance and Emission Characteristics of Glycine Max Biodiesel Blends With Nanoadditives and Hydrogen
title_full Prediction of the Engine Performance and Emission Characteristics of Glycine Max Biodiesel Blends With Nanoadditives and Hydrogen
title_fullStr Prediction of the Engine Performance and Emission Characteristics of Glycine Max Biodiesel Blends With Nanoadditives and Hydrogen
title_full_unstemmed Prediction of the Engine Performance and Emission Characteristics of Glycine Max Biodiesel Blends With Nanoadditives and Hydrogen
title_sort prediction of the engine performance and emission characteristics of glycine max biodiesel blends with nanoadditives and hydrogen
publisher American Society of Mechanical Engineers (ASME)
publishDate 2023
url http://scholars.utp.edu.my/id/eprint/37300/
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85167872775&doi=10.1115%2f1.4062380&partnerID=40&md5=7a78d20cacaf256ccd13ce09cdc2844f
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score 13.214268