2018
DOI: 10.1016/j.ijhydene.2018.09.005
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Effect of hydrogen addition on the OH* and CH* chemiluminescence emissions of premixed combustion of methane-air mixtures

Abstract: Chemiluminescence emissions measurements of OH* and CH* are used to characterize the combustion of blends of methane and hydrogen in air in a constant volume combustion bomb, with two sets of initial conditions. The combined results of combustion development cover from 0.1 to 2.5 MPa. Burning velocity, heat release and unburned/burned gas temperatures are obtained from the pressure by using a two-zone thermodynamic combustion diagnostic model. Intensity of OH* and CH* increases with the initial temperature and… Show more

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Cited by 23 publications
(12 citation statements)
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“…Excited hydroxyl radicals (OH*) are good tracers of high temperature combustion regions in a flame [28]; therefore, visualization of OH* chemiluminescence at the base of the flame allows to quantifying the lift-off length (LOL). Moreover, if an intensified high-speed camera is used, the ID can be measured too.…”
Section: High-speed Oh* Chemiluminescence (Oh*) Imagingmentioning
confidence: 99%
“…Excited hydroxyl radicals (OH*) are good tracers of high temperature combustion regions in a flame [28]; therefore, visualization of OH* chemiluminescence at the base of the flame allows to quantifying the lift-off length (LOL). Moreover, if an intensified high-speed camera is used, the ID can be measured too.…”
Section: High-speed Oh* Chemiluminescence (Oh*) Imagingmentioning
confidence: 99%
“…The image range intensity was not the same for G222 and G20, most probably due to the slight differences in thermal input rates (see Table 3). In addition, since the G222 fuel has relevant hydrogen content, the mean intensity difference between the OH * and CH * or C 2 * radicals is higher in the case of G222 than in G20 for all PAP [54].…”
Section: Emccd Image Resultsmentioning
confidence: 95%
“…OH* radicals are known to be a good tracer of high temperature combustion regions in a flame [29], so that visualization of OH * -chemiluminescence at the base of the flame makes it possible to quantify the Lift-Off Length (LOL). Additionally, if an intensified high speed camera is used, ignition delay can be measured, too.…”
Section: Oh* Chemiluminescencementioning
confidence: 99%