2000
DOI: 10.1016/s0082-0784(00)80581-0
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Morphology and burning rates of expanding spherical flames in H2/O2/inert mixtures up to 60 atmospheres

Abstract: Recognizing that previous experimental studies on constant-pressure, outwardly propagating, spherical flames with imaging capability were limited to pressures less than about 5 atm, and that pressures within internal combustion engines are substantially higher, a novel experimental apparatus was designed to extend the environmental pressure to 60 atm. Results substantiate previous observations of the propensity of cell formation over the flame surface due to hydrodynamic and diffusive-thermal instabilities and… Show more

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Cited by 324 publications
(156 citation statements)
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“…Given that the H 2 kinetic models investigated here were all validated against a wide range of (and frequently the same) data from numerous experimental apparatuses including the high pressure flame speeds of Tse et al [25], the disparities noted amongst the predictions and with the present experimental results are noteworthy.…”
Section: Pressure Dependence Of Mass Burning Rates Of H 2 Flamesmentioning
confidence: 79%
See 2 more Smart Citations
“…Given that the H 2 kinetic models investigated here were all validated against a wide range of (and frequently the same) data from numerous experimental apparatuses including the high pressure flame speeds of Tse et al [25], the disparities noted amongst the predictions and with the present experimental results are noteworthy.…”
Section: Pressure Dependence Of Mass Burning Rates Of H 2 Flamesmentioning
confidence: 79%
“…Compared to Ardiluted flames, however, the temperature dependence is considerably stronger -for example, E a = 80 kcal/mol for CO 2 -diluted flames at 20 atm compared to E a = 53 kcal/mol for Ar-diluted flames at 20 atm over the temperature range from 1500 to 1700K using Eq. (25). Reasons for the stronger temperature and pressure dependence for CO 2 -diluted flames compared to Ar-diluted flames are discussed in the next section.…”
Section: Effect Of Co 2 Dilution On the Pressure And Flame Temperaturmentioning
confidence: 96%
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“…This may be seen most clearly in Fig. 1, where the predictions of the San Diego mechanism are compared with the most recent accurate experiments [3][4][5][6]. Although the computations, described previously [2], are based on one particular chemical-kinetic mechanism, with other mechanisms the direction of the discrepancies is the same, and the magnitudes of the discrepancies are comparable or larger.…”
Section: Introductionmentioning
confidence: 81%
“…[13,14], as useful reviews [15,16] describe in greater detail. The papers reporting the burning-velocity measurements specifically comment on observed cell formation for spherical flames at sufficiently lean conditions [3,5,6], but the flames in the steady counterflow experiment were said to be very flat [4] and yet produced velocities in agreement with the other measurements. Although the strain in the counterflow is known to suppress visible cells, it nevertheless may not be sufficient to eliminate transverse preferential diffusion that may result in similar burning velocities.…”
Section: Introductionmentioning
confidence: 99%