Add to ORKGA study of name propagation at elevated temperatures, using the burning velocity as the characteristic of the phenomenon, has been made. Extensive measurements of burning velocity of propane air mixtures over the range of initial temperatures of 0 to 640 °C have been made with burners of several lengths and diameters. Prediction of relative burning velocity values on the basis of the simplified thermal and diffusion theories was made
The mechanism of flame propagation has been qualitatively formulated. In accordance with this formul...
The laminar-flame-velocity data previously reported by the Lewis laboratory are surveyed with respec...
The combustion characteristics of n-decane+air mixtures are experimentally investigated through lami...
In this research, an experimental setup was built based on using K-type thermocouples inserted in a ...
The laminar burning velocity of pure and diluted high-temperature propane air mixtures is extracted ...
The present work reports the measurement of the laminar burning velocity of liquefied petroleum gas ...
The measurements of the adiabatic burning velocity in a flat flame were presented. The burner provid...
The present work reports the measurement of the laminar burning velocity for n-propanol and air mixt...
The flammable propane–air mixtures raise specific safety and environmental issues in the industry, s...
Laminar burning velocities of fuel mixtures of methane/ethane/propane with the compositions 100/0/0,...
The heat flux method for stabilizing flat adiabatic flames and measuring adiabatic burning velocitie...
Laminar burning velocities of methylcyclohexane + air flames were determined using the heat flux met...
Laminar burning velocities, SL, of benzene + air flames were determined at atmospheric pressure and ...
Effects of positive flame stretch on the laminar burning velocities of hydrocarbon/air mixtures were...
Flame speeds based on the outer edge of the shadow cast by the laminar Bunsen cone were determined a...
The mechanism of flame propagation has been qualitatively formulated. In accordance with this formul...
The laminar-flame-velocity data previously reported by the Lewis laboratory are surveyed with respec...
The combustion characteristics of n-decane+air mixtures are experimentally investigated through lami...
In this research, an experimental setup was built based on using K-type thermocouples inserted in a ...
The laminar burning velocity of pure and diluted high-temperature propane air mixtures is extracted ...
The present work reports the measurement of the laminar burning velocity of liquefied petroleum gas ...
The measurements of the adiabatic burning velocity in a flat flame were presented. The burner provid...
The present work reports the measurement of the laminar burning velocity for n-propanol and air mixt...
The flammable propane–air mixtures raise specific safety and environmental issues in the industry, s...
Laminar burning velocities of fuel mixtures of methane/ethane/propane with the compositions 100/0/0,...
The heat flux method for stabilizing flat adiabatic flames and measuring adiabatic burning velocitie...
Laminar burning velocities of methylcyclohexane + air flames were determined using the heat flux met...
Laminar burning velocities, SL, of benzene + air flames were determined at atmospheric pressure and ...
Effects of positive flame stretch on the laminar burning velocities of hydrocarbon/air mixtures were...
Flame speeds based on the outer edge of the shadow cast by the laminar Bunsen cone were determined a...
The mechanism of flame propagation has been qualitatively formulated. In accordance with this formul...
The laminar-flame-velocity data previously reported by the Lewis laboratory are surveyed with respec...
The combustion characteristics of n-decane+air mixtures are experimentally investigated through lami...