Influence of fuel volatility on particulate matter emissions from a production DISI engine

•Statistically significant differences in PM emissions on basis of fuel volatility.•Effect of ethanol match blending differs dependent on base fuel volatility.•Flash-boiling indicators correlate with PM emissions.•Significant climbs in PN emissions over time noted for low volatility fuels.•Injector...

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Veröffentlicht in:	Fuel (Guildford) 2021-11, Vol.303, p.121206, Article 121206
Hauptverfasser:	Hutchison, Brian R.M., Wallace, James S.
Format:	Artikel
Sprache:	eng
Schlagworte:	Blending effects DISI Distillation Curve Ethanol Flash-Boiling Fuel injection Fuels Gasoline/Ethanol Blends Injector Deposits Injectors Investigations Particulate emissions Particulate matter PM Emissions Roadsides Seasonal variations Volatility Wetting
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description	•Statistically significant differences in PM emissions on basis of fuel volatility.•Effect of ethanol match blending differs dependent on base fuel volatility.•Flash-boiling indicators correlate with PM emissions.•Significant climbs in PN emissions over time noted for low volatility fuels.•Injector tip wetting augmented by fuel flashing drives diffusion flame activity. An investigation into the influence of fuel volatility on the resultant particulate matter (PM) emissions from a DISI engine is reported. Testing was performed at a steady-state highway cruise condition to investigate phenomena leading to seasonal changes in PM emissions observed in published roadside studies. Fuel volatility, which varies with season was the prime focus of the investigation, with a secondary goal of investigating the influence of ethanol blended fuels at the varied volatility levels. In tests with both surrogate and commercial fuels, high volatility fuels presented elevated emissions of both particle number (PN) and gravimetric mass emissions. Furthermore, the effect of 10% ethanol match-blending was investigated at both the high and low volatility conditions. Inclusion of ethanol in match-blended high volatility fuels was found to result in no significant change in PM emissions versus the neat fuel complement, while a considerable enhancement of PM emissions resulted from ethanol match-blending in low volatility fuels. Evidence from the literature, changes in the measured PN concentrations & size distributions over the length of a test, and post-run imaging of the fuel injector face, all suggest that an increase in intensity of flash-boiling conditions & fuel wetting of the injector tip drive the observed changes for the test conditions and engine architecture used in this study.
doi_str_mv	10.1016/j.fuel.2021.121206
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subjects	Blending effects DISI Distillation Curve Ethanol Flash-Boiling Fuel injection Fuels Gasoline/Ethanol Blends Injector Deposits Injectors Investigations Particulate emissions Particulate matter PM Emissions Roadsides Seasonal variations Volatility Wetting
title	Influence of fuel volatility on particulate matter emissions from a production DISI engine
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