N. Pelz scite author profile

A method for the quantitative analysis of individual hydrocarbons in the C1-C8 range emitted in engine exhaust gases is described. The procedure provides base-line or near base-line resolution of C4 components including 1,3-butadiene. With a run time of less than 50 min, the light aromatics (benzene, toluene, ethyl benzene, p- and m-xylene, and o-xylene) are resolved during the same analysis as aliphatic hydrocarbons in the C1-C8 range. It is shown that typical 1,3-butadiene levels in engine exhaust are about 5 ppm at each of two engine conditions. Aromatic hydrocarbon levels show a dependence on engine operating conditions, benzene being about 20 ppm at high speed and about 40 ppm at idle.

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Emissions Performance of GTL Diesel Fuel and Blends with Optimized Engine Calibrations

Schaberg¹,

Botha²,

Schnell³

et al. 2005

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Lube Formulation Effects on Transfer of Elements to Exhaust After-Treatment System Components

Givens¹,

Buck²,

Jackson³

et al. 2003

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Trace and minor element characterization of diesel soot

Dočekal

Kriváň²,

Pelz³

1992

Fresenius J Anal Chem

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The Composition of Gasoline Engine Hydrocarbon Emissions - An Evaluation of Catalyst and Fuel Effects

Pelz¹,

Dempster²,

Hundleby³

et al. 1990

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N. Pelz

Analysis of Low Molecular Weight Hydrocarbons Including 1,3-Butadiene in Engine Exhaust Gases Using an Aluminum Oxide Porous-Layer Open-Tubular Fused-Silica Column

Emissions Performance of GTL Diesel Fuel and Blends with Optimized Engine Calibrations

Lube Formulation Effects on Transfer of Elements to Exhaust After-Treatment System Components

Trace and minor element characterization of diesel soot

The Composition of Gasoline Engine Hydrocarbon Emissions - An Evaluation of Catalyst and Fuel Effects

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