Ansis Upatnieks scite author profile

The effect of oxygenate molecular structure on soot emissions from a DI diesel engine was examined using carbon-14 (14 C) isotope tracing. Carbon atoms in three distinct chemical structures within the diesel oxygenate dibutyl maleate (DBM) were labeled with 14 C. The 14 C from the labeled DBM was then detected in engine-out particulate matter (PM), in-cylinder deposits, and CO 2 emissions using accelerator mass spectrometry (AMS). The results indicate that molecular structure plays an important role in determining whether a specific carbon atom either does or does not form soot. Chemical-kinetic modeling results indicate that structures that produce CO 2 directly from the fuel are less effective at reducing soot than structures that produce CO before producing CO 2. Because they can follow individual carbon atoms through a real combustion process, 14 C isotope tracing studies help strengthen the connection between actual engine emissions and chemical-kinetic models of combustion and soot formation/oxidation processes.

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Clean, Controlled DI Diesel Combustion Using Dilute, Cool Charge Gas and a Short-Ignition-Delay, Oxygenated Fuel

Upatnieks

Mueller

2005

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The Influence of Charge-Gas Dilution and Temperature on DI Diesel Combustion Processes Using a Short-Ignition-Delay, Oxygenated Fuel

Upatnieks

Mueller

Martin

2005

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Cinema particle imaging velocimetry time history of the propagation velocity of the base of a lifted turbulent jet flame

Upatnieks

Driscoll²,

Ceccio³

2002

Proceedings of the Combustion Institute

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Ansis Upatnieks

Liftoff of turbulent jet flames—assessment of edge flame and other concepts using cinema-PIV

Using Carbon-14 Isotope Tracing to Investigate Molecular Structure Effects of the Oxygenate Dibutyl Maleate on Soot Emissions from a DI Diesel Engine

Clean, Controlled DI Diesel Combustion Using Dilute, Cool Charge Gas and a Short-Ignition-Delay, Oxygenated Fuel

The Influence of Charge-Gas Dilution and Temperature on DI Diesel Combustion Processes Using a Short-Ignition-Delay, Oxygenated Fuel

Cinema particle imaging velocimetry time history of the propagation velocity of the base of a lifted turbulent jet flame

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