A comprehensive look at the aluminum oxide nano-additive effects on engine performance and emissions

This review paper summarises the findings a number of studies on Aluminium Oxide nanoadditive, Biodiesel production, and a relative study on the engine Diesel engines performance and emission parameters. Aluminium Oxide nanoparticles have the advantage of being chemically stable and mechanically str...

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Hauptverfasser:	Pawar, Chetan, Balekumeri, Shreeprakash, Motgi, Nitin, Patil, Pravin P., Seeniappan, Kaliappan, Manuel, Joseph
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Additives Aluminum oxide Biodiesel fuels Calorific value Diesel engines Emission analysis Fire point Flash point Fuel consumption Nanoparticles Nitrogen oxides
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creator	Pawar, Chetan Balekumeri, Shreeprakash Motgi, Nitin Patil, Pravin P. Seeniappan, Kaliappan Manuel, Joseph
description	This review paper summarises the findings a number of studies on Aluminium Oxide nanoadditive, Biodiesel production, and a relative study on the engine Diesel engines performance and emission parameters. Aluminium Oxide nanoparticles have the advantage of being chemically stable and mechanically strong. The incorporation of nanoparticles into biodiesel raises its flash point and calorific value. Biodiesel has a high density, a high fire point, high fuel consumption, and a high amount of nitrogen oxides. To avoid these drawbacks, additives are used to maintain international fuel standards.
doi_str_mv	10.1063/5.0163475
format	Conference Proceeding
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source	American Institute of Physics (AIP) Journals
subjects	Additives Aluminum oxide Biodiesel fuels Calorific value Diesel engines Emission analysis Fire point Flash point Fuel consumption Nanoparticles Nitrogen oxides
title	A comprehensive look at the aluminum oxide nano-additive effects on engine performance and emissions
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