$Raman line imaging for spatially and temporally resolved mole fraction measurements in internal combustion engines$

Raman line imaging for spatially and temporally resolved mole fraction measurements in internal combustion engines

An optical diagnostic system based on line imaging of Raman-scattered light has been developed to study the mixing processes in internal combustion engines. The system permits multipoint, single laser-shot measurements of CO(2), O(2), N(2), C(3)H(8), and H(2)O mole fractions with submillimeter spati...

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Veröffentlicht in:	Applied Optics 1999-03, Vol.38 (9), p.1714-1732
1. Verfasser:	Miles, P C
Format:	Artikel
Sprache:	eng
Schlagworte:	40 CHEMISTRY CARBON DIOXIDE CHEMICAL ANALYSIS COMBUSTION CONCENTRATION RATIO FLAMES INTERNAL COMBUSTION ENGINES NOISE OXYGEN RAMAN SPECTROSCOPY SIGNAL-TO-NOISE RATIO VISIBLE SPECTRA WATER
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container_issue	9
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container_title	Applied Optics
container_volume	38
creator	Miles, P C
description	An optical diagnostic system based on line imaging of Raman-scattered light has been developed to study the mixing processes in internal combustion engines. The system permits multipoint, single laser-shot measurements of CO(2), O(2), N(2), C(3)H(8), and H(2)O mole fractions with submillimeter spatial resolution. Selection of appropriate system hardware is discussed, as are subsequent data reduction and analysis procedures. Results are reported for data obtained at multiple crank angles and in two different engine flow fields. Measurements are made at 12 locations simultaneously, each location having measurement volume dimensions of 0.5 mm x 0.5 mm x 0.9 mm. The data are analyzed to obtain statistics of species mole fractions: mean, rms, histograms, and both spatial and cross-species covariance functions. The covariance functions are used to quantify the accuracy of the measured rms mole fraction fluctuations, to determine the integral length scales of the mixture inhomogeneities, and to quantify the cycle-to-cycle fluctuations in bulk mixture composition under well-mixed conditions.
doi_str_mv	10.1364/AO.38.001714
format	Article
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The system permits multipoint, single laser-shot measurements of CO(2), O(2), N(2), C(3)H(8), and H(2)O mole fractions with submillimeter spatial resolution. Selection of appropriate system hardware is discussed, as are subsequent data reduction and analysis procedures. Results are reported for data obtained at multiple crank angles and in two different engine flow fields. Measurements are made at 12 locations simultaneously, each location having measurement volume dimensions of 0.5 mm x 0.5 mm x 0.9 mm. The data are analyzed to obtain statistics of species mole fractions: mean, rms, histograms, and both spatial and cross-species covariance functions. 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The system permits multipoint, single laser-shot measurements of CO(2), O(2), N(2), C(3)H(8), and H(2)O mole fractions with submillimeter spatial resolution. Selection of appropriate system hardware is discussed, as are subsequent data reduction and analysis procedures. Results are reported for data obtained at multiple crank angles and in two different engine flow fields. Measurements are made at 12 locations simultaneously, each location having measurement volume dimensions of 0.5 mm x 0.5 mm x 0.9 mm. The data are analyzed to obtain statistics of species mole fractions: mean, rms, histograms, and both spatial and cross-species covariance functions. 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source	Alma/SFX Local Collection; Optica Publishing Group Journals
subjects	40 CHEMISTRY CARBON DIOXIDE CHEMICAL ANALYSIS COMBUSTION CONCENTRATION RATIO FLAMES INTERNAL COMBUSTION ENGINES NOISE OXYGEN RAMAN SPECTROSCOPY SIGNAL-TO-NOISE RATIO VISIBLE SPECTRA WATER
title	Raman line imaging for spatially and temporally resolved mole fraction measurements in internal combustion engines
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