Common definitions for ignition delay time are often hard to determine due to the issue of bifurcation and other non-idealities that result from high levels of CO2 addition. Using high-speed camera imagery in comparison with more standard methods (e.g., pressure, emission, and laser absorption spectroscopy) to measure the ignition delay time, the effect of bifurcation has been examined in this study. Experiments were performed at pressures between 0.6 and 1.2 atm for temperatures between 1650 and 2040 K. The equivalence ratio for all experiments was kept at a constant value of 1 with methane as the fuel. The CO2 mole fraction was varied between a value of XCO2=0.00 to 0.895. The ignition delay time was determined from three different measur...
In this study, ignition delay times and high-speed images were taken behind reflected shockwaves dur...
Shock-tube experiments were performed for synthesis gas mixtures at engine pressures, a region where...
In this study, new ignition delay times and high-speed images were taken behind reflected shockwaves...
Experiments were performed behind reflected shockwaves to understand the effect of bifurcation of th...
Understanding the experimental data from shock tubes can be complicated when non-idealities such as ...
In this study, syngas combustion was investigated behind reflected shock waves in order to gain insi...
Ignition delay times and methane species time-histories were measured for methane/O2 mixtures in a h...
Ignition delay times and methane species time-histories were measured for methane/O2 mixtures in a h...
This paper presents ignition delay times of methane oxidation diluted with carbon dioxide and argon....
The combustion of methane in air results in large amounts of CO2 and NOX emissions. In order to redu...
In this study, syngas combustion was investigated behind reflected shock waves in CO2 bath gas to me...
Carbon monoxide time-histories were measured for two common fuels behind reflected shockwaves using ...
In this study, syngas ignition studies were conducted in a shock tube with high CO2 dilution. Syngas...
In this work, the effects of pre-ignition energy releases on H2–O2 mixtures were explored in a shock...
Ignition delay data were recorded for three methane-oxygen-argon mixtures (phi = 0.5, 1.0, 2.0) for ...
In this study, ignition delay times and high-speed images were taken behind reflected shockwaves dur...
Shock-tube experiments were performed for synthesis gas mixtures at engine pressures, a region where...
In this study, new ignition delay times and high-speed images were taken behind reflected shockwaves...
Experiments were performed behind reflected shockwaves to understand the effect of bifurcation of th...
Understanding the experimental data from shock tubes can be complicated when non-idealities such as ...
In this study, syngas combustion was investigated behind reflected shock waves in order to gain insi...
Ignition delay times and methane species time-histories were measured for methane/O2 mixtures in a h...
Ignition delay times and methane species time-histories were measured for methane/O2 mixtures in a h...
This paper presents ignition delay times of methane oxidation diluted with carbon dioxide and argon....
The combustion of methane in air results in large amounts of CO2 and NOX emissions. In order to redu...
In this study, syngas combustion was investigated behind reflected shock waves in CO2 bath gas to me...
Carbon monoxide time-histories were measured for two common fuels behind reflected shockwaves using ...
In this study, syngas ignition studies were conducted in a shock tube with high CO2 dilution. Syngas...
In this work, the effects of pre-ignition energy releases on H2–O2 mixtures were explored in a shock...
Ignition delay data were recorded for three methane-oxygen-argon mixtures (phi = 0.5, 1.0, 2.0) for ...
In this study, ignition delay times and high-speed images were taken behind reflected shockwaves dur...
Shock-tube experiments were performed for synthesis gas mixtures at engine pressures, a region where...
In this study, new ignition delay times and high-speed images were taken behind reflected shockwaves...