Oxidation stability and risk evaluation of biodiesel

This review describes oxidation and thermal stability and hazardous possibility of biodiesel by auto-oxidation. As it can be distributed using today?s infrastructure biodisel production has increased especially in the European Union. Biodiesel has many surpassing properties as an automotive fuel. Bi...

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Veröffentlicht in:	Thermal science 2007, Vol.11 (2), p.87-100
Hauptverfasser:	Hoshino, Takashi, Iwata, Yusaku, Koseki, Hiroshi
Format:	Artikel
Sprache:	eng
Schlagworte:	Automotive fuels Biodiesel fuels Diesel fuels Esters Fatty acids Flash point Oxidation Peroxides Risk assessment Stability analysis Thermal stability
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creator	Hoshino, Takashi Iwata, Yusaku Koseki, Hiroshi
description	This review describes oxidation and thermal stability and hazardous possibility of biodiesel by auto-oxidation. As it can be distributed using today?s infrastructure biodisel production has increased especially in the European Union. Biodiesel has many surpassing properties as an automotive fuel. Biodiesel is considered safer than diesel fuel because of the high flash point, but it has oxygen and double bond(s). Fatty acid methyl esters are more sensitive to oxidative degradation than fossil diesel fuel. The ability of producing peroxides is rather high, therefore we should care of handling of biodiesel.
doi_str_mv	10.2298/TSCI0702087H
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subjects	Automotive fuels Biodiesel fuels Diesel fuels Esters Fatty acids Flash point Oxidation Peroxides Risk assessment Stability analysis Thermal stability
title	Oxidation stability and risk evaluation of biodiesel
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