1931
DOI: 10.1021/ie50259a010
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Spectroscopic Studies of Engine Combustion

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Cited by 39 publications
(23 citation statements)
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“…8). The afterglow emission has been detected by numerous authors, firstly by Withrow and Rassweiler in the 1931 [11] and confirmed by other works [55][56][57].…”
Section: Comparison Of Burning Velocities With Other Authors' Resultssupporting
confidence: 61%
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“…8). The afterglow emission has been detected by numerous authors, firstly by Withrow and Rassweiler in the 1931 [11] and confirmed by other works [55][56][57].…”
Section: Comparison Of Burning Velocities With Other Authors' Resultssupporting
confidence: 61%
“…The resulting OH* and CH* radicals in an electronically excited state lose their energy through either spontaneous fluorescence (chemiluminescence) or by physical collisions The chemiluminescence emitted during a combustion process has two contributions: the flame front contribution, basically formed by discrete emissions from OH*, CH* and C 2 * radicals, and the continuous emission originated by the hot gases during the postcombustion period, usually called afterglow emissions, [11].…”
Section: The Reaction Of C 2 H With Atomic Oxygenmentioning
confidence: 99%
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“…Photographs of C0 -0 2 explosions by Bone, Fraser and W inter (1927) and others show a very marked increase in luminosity in the centre of the vessel as the pressure wave travels back after the explosion, and Prof. Egerton has suggested th a t this is probably connected with the internal energy of the C0 2 molecules. Withrow and Rassweiler (1931) and Rassweiler and Withrow (1932) have studied the afterburning in the internal combustion engine and have obtained good spectrograms showing th a t the emission spectrum is identical with th a t of the carbon monoxide flame, and therefore presumably due to molecules of C0 2. David (1936David ( , 1937a and Pugh (1937, 1940) from comparison of measured and calculated flame temperatures have concluded th a t there is a considerable amount of latent energy which is not immediately released by the combus tion and which is attributed to long-lived metastable molecules formed in the flame front.…”
Section: The Afterburning and Latent Energy Of Combustion Of Carbon Monoxidementioning
confidence: 99%
“…In the 1930s, a spectroscopic study was performed on both normal combustion and knocking combustion by Withrow and Rassweiler [17,18]. They showed that the flame front under normal conditions exhibited the band spectra of CH, C 2 , and OH, while the spectrum of knocking combustion showed a strong continuum in the red.…”
Section: Introductionmentioning
confidence: 99%