Evaluation of the engine performance and exhaust emissions of biodiesel-bioethanol-diesel blends using kernel-based extreme learning machine

Air engines; Alternative fuels; Biodiesel; Bioethanol; Brakes; Carbon monoxide; Efficiency; Electron emission; Engine cylinders; Ethanol; Fuel consumption; Knowledge acquisition; Learning systems; Microemulsions; Nitrogen oxides; Opacity; Smoke; Bioethanol-diesel blends; Engine performance; Exhaust...

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Main Authors: Silitonga A.S., Masjuki H.H., Ong H.C., Sebayang A.H., Dharma S., Kusumo F., Siswantoro J., Milano J., Daud K., Mahlia T.M.I., Chen W.-H., Sugiyanto B.
Other Authors: 39262559400
Format: Article
Published: Elsevier Ltd 2023
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spelling my.uniten.dspace-237022023-05-29T14:51:06Z Evaluation of the engine performance and exhaust emissions of biodiesel-bioethanol-diesel blends using kernel-based extreme learning machine Silitonga A.S. Masjuki H.H. Ong H.C. Sebayang A.H. Dharma S. Kusumo F. Siswantoro J. Milano J. Daud K. Mahlia T.M.I. Chen W.-H. Sugiyanto B. 39262559400 57175108000 55310784800 39262519300 57217370281 56611974900 56192714800 57052617200 57203823077 56997615100 57200873137 57024129700 Air engines; Alternative fuels; Biodiesel; Bioethanol; Brakes; Carbon monoxide; Efficiency; Electron emission; Engine cylinders; Ethanol; Fuel consumption; Knowledge acquisition; Learning systems; Microemulsions; Nitrogen oxides; Opacity; Smoke; Bioethanol-diesel blends; Engine performance; Exhaust emission; Extreme learning machine; Property; Diesel engines; biofuel; carbon monoxide; compression; diesel engine; efficiency measurement; exhaust emission; experimental study; fuel consumption; machine learning; parameter estimation; performance assessment It is known that biodiesel and bioethanol are viable alternative fuels to replace diesel for compression ignition engines. In this study, an experimental investigation is carried out to evaluate the performance and exhaust emissions of a single cylinder diesel engine fuelled with biodiesel-bioethanol-diesel blends. The engine performance parameters evaluated are the brake speci?c fuel consumption and brake thermal ef?ciency whereas the exhaust emission parameters evaluated are carbon monoxide, nitrogen oxide, and smoke opacity. Kernel-based extreme learning machine is used to predict the engine performance and exhaust emission parameters of the fuel blends at full throttle conditions. Based on the experimental results, the brake specific fuel consumption is lower while the brake thermal efficiency is higher for the biodiesel-bioethanol-diesel blends. The carbon monoxide emissions and smoke opacity are also lower for these fuel blends. The mean absolute percentage error of the brake specific fuel consumption, brake thermal efficiency, carbon monoxide, nitrogen oxide, and smoke opacity is 1.363, 1.482, 4.597, 2.224, and 2.090%, respectively. Thus, it can be concluded that K-ELM is a reliable method to estimate the engine performance and exhaust emission parameters of a single cylinder compression ignition engine fuelled with biodiesel-bioethanol-diesel blends to reduce fuel consumption and exhaust emissions. � 2018 Elsevier Ltd Final 2023-05-29T06:51:06Z 2023-05-29T06:51:06Z 2018 Article 10.1016/j.energy.2018.06.202 2-s2.0-85053081434 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85053081434&doi=10.1016%2fj.energy.2018.06.202&partnerID=40&md5=07c3329c00bef663ca623b9f31677c4c https://irepository.uniten.edu.my/handle/123456789/23702 159 1075 1087 Elsevier Ltd Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
description Air engines; Alternative fuels; Biodiesel; Bioethanol; Brakes; Carbon monoxide; Efficiency; Electron emission; Engine cylinders; Ethanol; Fuel consumption; Knowledge acquisition; Learning systems; Microemulsions; Nitrogen oxides; Opacity; Smoke; Bioethanol-diesel blends; Engine performance; Exhaust emission; Extreme learning machine; Property; Diesel engines; biofuel; carbon monoxide; compression; diesel engine; efficiency measurement; exhaust emission; experimental study; fuel consumption; machine learning; parameter estimation; performance assessment
author2 39262559400
author_facet 39262559400
Silitonga A.S.
Masjuki H.H.
Ong H.C.
Sebayang A.H.
Dharma S.
Kusumo F.
Siswantoro J.
Milano J.
Daud K.
Mahlia T.M.I.
Chen W.-H.
Sugiyanto B.
format Article
author Silitonga A.S.
Masjuki H.H.
Ong H.C.
Sebayang A.H.
Dharma S.
Kusumo F.
Siswantoro J.
Milano J.
Daud K.
Mahlia T.M.I.
Chen W.-H.
Sugiyanto B.
spellingShingle Silitonga A.S.
Masjuki H.H.
Ong H.C.
Sebayang A.H.
Dharma S.
Kusumo F.
Siswantoro J.
Milano J.
Daud K.
Mahlia T.M.I.
Chen W.-H.
Sugiyanto B.
Evaluation of the engine performance and exhaust emissions of biodiesel-bioethanol-diesel blends using kernel-based extreme learning machine
author_sort Silitonga A.S.
title Evaluation of the engine performance and exhaust emissions of biodiesel-bioethanol-diesel blends using kernel-based extreme learning machine
title_short Evaluation of the engine performance and exhaust emissions of biodiesel-bioethanol-diesel blends using kernel-based extreme learning machine
title_full Evaluation of the engine performance and exhaust emissions of biodiesel-bioethanol-diesel blends using kernel-based extreme learning machine
title_fullStr Evaluation of the engine performance and exhaust emissions of biodiesel-bioethanol-diesel blends using kernel-based extreme learning machine
title_full_unstemmed Evaluation of the engine performance and exhaust emissions of biodiesel-bioethanol-diesel blends using kernel-based extreme learning machine
title_sort evaluation of the engine performance and exhaust emissions of biodiesel-bioethanol-diesel blends using kernel-based extreme learning machine
publisher Elsevier Ltd
publishDate 2023
_version_ 1806424454553665536
score 13.222552