To evaluate the effects of inlet pressure on the ignition process of spray combustion, the images of the ignition process were\nrecorded and the outlet temperatures were measured under inlet pressure of 0.04ââ?¬â??0.16 MPa. The initial flame formation and\nflame propagation and the effects of the inlet pressure on the initial flame formation were observed. A variation of outlet\ntemperature, flame propagation, initial time of outlet temperature rise, time of maximum temperature rise, and temperature rise\nrate was investigated. With increasing inlet pressure, the time of initial flame formation and time of maximum area growth rate\nof flame decrease and the centroid location move radially. The radial distances of the initial flame centroid gradually increased\nby about 13%, 5%, 6%, 12%, 57%, and 24%. The trace of flame centroid is determined from the distribution of fuel and is related\nto the initial SMD of the atomizer. The maximum temperature rise and temperature rise rate are determined by the rate of\nflame chemical reaction, rate of large drop evaporation, and fuel/air ratio. With increasing inlet pressure, the maximum\ntemperature rise increased by 50%, 58%, 12%, 11%, and âË?â??9%, respectively. Meanwhile, the rate of the temperature rise increased\nby about 47%, 54%, 11%, 11%, and âË?â??7%, respectively.
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