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Title The impacts of mid-level biofuel content in gasoline on SIDI engine-out and tailpipe particulate matter emissions [electronic resource] : preprint / Xin He ... [et al.].

Imprint

[Golden, CO] : National Renewable Energy Laboratory, [2011]

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Connect to https://www.nrel.gov/docs/fy11osti/49311.pdf

Copies

Location	Call No.	OPAC Message	Status
Axe Federal Documents Online	E 9.17:NREL/CP-5400-49311	---	Available

Description	1 online resource (20 p.) : col. ill.
Series	NREL/CP ; 5400-49311
	Conference paper (National Renewable Energy Laboratory (U.S.)) ; NREL/CP-5400-49311.
System Details	Full text available via Internet in .pdf format. Adobe Acrobat Reader required.
Note	Title from title screen (viewed February 28, 2011).
	"Presented at the SAE 2010 Powertrains, Fuels and Lubricants Meeting, San Diego, California, October 25-27, 2010."
	"February 2011."
Summary	The influences of ethanol and iso-butanol blended with gasoline on engine-out and post three-way catalyst (TWC) particle size distribution and number concentration were studied using a turbocharged spark-ignition direct-injection engine. Particle size distribution in the range of 5.6 to 560 nm was measured. U.S. federal certification gasoline (E0), two ethanol-blended fuels (E10 and E20), and 11.7% iso-butanol blended fuel (BU12) were tested at 10 selected steady-state engine operation conditions. Bi-modal particle size distributions were observed for all operating conditions with peak values at particle sizes of 10 nm and 70 nm. Idle and low-speed/low-load conditions emitted higher total particle numbers than other operating conditions. At idle, the engine-out particulate matter emissions were dominated by nucleation mode particles. The TWC reduced these nucleation mode particles by more than 50%; the accumulation mode particle distribution was unchanged. At an engine load higher than 6 bar net mean effective pressure, accumulation mode particles dominated the engine-out particle emissions, and the TWC had little effect. Compared to E0, E10 did not significantly change PM emissions, while E20 and BU12 reduced PM emissions. Isobutanol was observed to impact PM emissions more than ethanol, with up to 50% reductions at some conditions.
Bibliography	Includes bibliographical references (p. 17-19).
Funding	DE-AC36-08GO28308 FC08.8000
Subject	Alcohol as fuel -- Research.
	Motor vehicles -- Fuel.
	Automobiles -- Motors -- Exhaust gas.
Added Author	He, Xin.
	National Renewable Energy Laboratory (U.S.)
	SAE Powertrains, Fuels and Lubricants Meeting (2010 : San Diego, Calif.)
Gpo Item No.	0430-P-04 (online)
Sudoc No.	E 9.17:NREL/CP-5400-49311