Sentence examples for maximum soot yield from inspiring English sources

The maximum soot yield seems to reach a plateau asymptotically as the pressure exceeds the critical pressure of the fuel.

The maximum soot yield of the methane oxygen flames reaches a peak near 40 atm and then starts decreasing as the pressure further increased.

The maximum soot yield of the methane air flames plateaus at about 40 atm and does not change much with further increases in pressure.

The maximum soot yield of the Fischer Tropsch distillation cut studied was not significantly different from that of a diesel fuel surrogate previously studied (Mathieu et al., Combust. Flame 156 (2009) 1576 1586).

The zero-gravity flames displayed a stronger dependence of the maximum soot yield on pressure from 0.5 to 2 atm and a weaker dependence from 2 to 5 atm as compared to the normal-gravity flames.

Maximum soot yields, on the other hand, are almost the same for both flames at 2 bar, but at 4 and 6 bar pressures ethanol-doped methane flames give higher maximum soot yields than neat methane flames.

A similarly higher pressure dependence was observed when the maximum soot yields of ethylene and other gaseous fuels were compared.

Soot measurements made in these flames indicated that the maximum soot yields of methane air flames are consistently higher than methane oxygen flames at all pressures.

Maximum soot yields from the current study and the previous measurements in similar flames with methane, ethane, and propane flames were shown to display a unified behaviour.

Maximum soot yields, when scaled properly, were represented by an empirical exponential function in terms of the reduced pressure, actual pressure divided by the critical pressure of the fuel.

It was shown that this second growth appears only at temperatures higher than the temperature at which the soot yield is maximum.