Non Intrusive Chemical Species Measurements during Preignition Reaction Processes

Abstract

This ASSERT program involved development and application of laser diagnostic techniques as part of a research program at Drexel University to study the oxidation and ignition characteristics of hydrocarbon fuels and their mixtures. The research program entailed mechanistic studies examining the overall ignition of pure single component fuels and fuel blends. Gas chromatography, gas chromatography/mass spectrometry, and gas chromatography/Fourier Transform Infrared Spectrometry (FTIR) analyses were used to determine the stable reaction intermediates and products associated with the preignition oxidation of these fuels. Development and application of spectroscopic diagnostics to permit in situ measurement of selected table and radical species also was successful. Associated in-house and collaborative modeling efforts were used to model and predict relevant ignition and emission characteristics. We have investigated the oxidation of pure hydrocarbons and hydrocarbon blends in our various combustion systems, with emphasis on the effects of elevated pressure using our pressurized flow reactor (PFR) facility. Detailed experimental data were generated from the PFR for use in associated kinetic modeling work. We continued to develop and extend both detailed and reduced chemical kinetic models. Also, we collaborated with other laboratories to develop the in situ measurement capabilities using degenerate four wave mixing DFWM and cavity ringdown laser absorption spectroscopy (CRLAS).

Document Details

Document Type

Technical Report

Publication Date

May 01, 2000

Accession Number

ADA377506

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