The impact of various ethanol-gasoline blends on particulates and unregulated gaseous emissions characteristics from a spark ignition direct injection (SIDI) passenger vehicle

•Emissions from various ethanol-gasoline blends were investigated in SIDI vehicle.•Fuel economy and CO2 were related to heating value and ethanol content of the fuels.•Ethanol blending of 30–85% showed strong PN reduction relative to low-ethanol fuels.•Individual HCs, alcohols, and aldehydes emissio...

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Bibliographic Details
Published in:Fuel (Guildford) 2017-12, Vol.209, p.702-712
Main Authors: Jin, Dongyoung, Choi, Kwanhee, Myung, Cha-Lee, Lim, Yunsung, Lee, Jongtae, Park, Simsoo
Format: Article
Language:English
Subjects:
Air pollution
Aldehyde
Aromatic compounds
Blending
Carbon content
Carbonyl compounds
Carbonyls
Chassis
Emissions
Engine control
Ethanol
Formulations
Fuel economy
Fuel injection
Fuels
Gasoline
Gasoline direct injection
Injection
Iron
Mixtures
Nano-particle
Particulate matter
Particulates
Passengers
Pollutants
Spark ignition
Vehicle emissions
VOCs
Volatile organic compound
Volatile organic compounds
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Summary:•Emissions from various ethanol-gasoline blends were investigated in SIDI vehicle.•Fuel economy and CO2 were related to heating value and ethanol content of the fuels.•Ethanol blending of 30–85% showed strong PN reduction relative to low-ethanol fuels.•Individual HCs, alcohols, and aldehydes emissions strongly increased with E85 fuel.•Aromatic HCs showed much lower emission characteristic as ethanol contents increased. This study investigated the effects of various ethanol-gasoline blends on the hazardous air pollutants (HAPs) emissions from a wall-guided direct injection passenger vehicle. The fuel economy (FE) as well as regulated and unregulated gaseous emissions was evaluated on a chassis dynamometer using the federal test procedure (FTP-75) mode. Five fuels with varying ethanol contents of E0, E10, E30, E50, and E85 were prepared by blending ethanol into commercial gasoline on a volumetric basis and were analyzed each fuel specification. The engine control schemes of fuel injection quantity for various ethanol blends were adjusted to optimize the engine starting capability, vehicle drivability and emissions performance. The FE of the E85 fueled vehicle decreased by 29% relative to gasoline fuel due to the low energy content of ethanol. Blending ethanol into gasoline produced a dramatic decrease of particulate emission, because pure ethanol has no aromatic compounds and carbon content lower than that of gasoline. As a result, nano-particles were rarely emitted in the vehicle tests of fuels with more than 30% ethanol. Carbonyl compounds emissions, which originate from partial oxidization or incomplete combustion of ethanol, also rose sharply as the ethanol content increased, while volatile organic compound (VOC) emissions were reduced considerably with medium- and high-ethanol formulations due to the lower proportion of aromatic components in these fuels.
ISSN:0016-2361
1873-7153
DOI:10.1016/j.fuel.2017.08.063