Add to ORKGRapid compression machine (RCM) and shock-tube facilities have been employed to study the oxidation of natural gas blends at high pressure and intermediate- to high-temperatures. The use of both types of facilities allows a broad temperature envelope to be investigated and therefore encompasses the complete range applicable to gas turbines. A detailed chemical kinetic mechanism has been developed to simulate these results and will be used to approximat
The oxidation of methane/propane Mixtures in air has been Studied for blends containing 90% CH(4)/...
A chemical kinetics mechanism designed for the oxidation of methane-hydrocarbon blends at elevated p...
In order to study the knock threshold gaseous fuels, a rapid compression machine (RCM) has been used...
Rapid compression machine (RCM) and shock-tube facilities have been employed to study the oxidation ...
Rapid compression machine (RCM) and shock-tube facilities have been employed to study the oxidation ...
Rapid compression machine (RCM) and shock-tube facilities have been employed to study the oxidation ...
The ignition delay times of CH4/C2H6/C3H8 mixtures representative of an average natural gas composit...
The use of natural gas (NG) for transportation and heavy-duty power generation applications has led ...
The oxidation of CH4 and CH4/C2H6 mixtures were studied at pressures relevant to knocking in large b...
Shock-tube data and chemical kinetics simulations have been used to optimize a combustion mechanism ...
Shock tube experiments and chemical kinetic modeling were performed to further understand the igniti...
Shock tube experiments and chemical kinetic modeling were performed to further understand the igniti...
Rapid compression machines (RCMs) are widely used to acquire experimental insights into fuel autoign...
Ignition delay time measurements for multi-component natural gas mixtures were carried out using a r...
The oxidation of methane/propane mixtures in air has been studied for blends containing 90% CH4/10...
The oxidation of methane/propane Mixtures in air has been Studied for blends containing 90% CH(4)/...
A chemical kinetics mechanism designed for the oxidation of methane-hydrocarbon blends at elevated p...
In order to study the knock threshold gaseous fuels, a rapid compression machine (RCM) has been used...
Rapid compression machine (RCM) and shock-tube facilities have been employed to study the oxidation ...
Rapid compression machine (RCM) and shock-tube facilities have been employed to study the oxidation ...
Rapid compression machine (RCM) and shock-tube facilities have been employed to study the oxidation ...
The ignition delay times of CH4/C2H6/C3H8 mixtures representative of an average natural gas composit...
The use of natural gas (NG) for transportation and heavy-duty power generation applications has led ...
The oxidation of CH4 and CH4/C2H6 mixtures were studied at pressures relevant to knocking in large b...
Shock-tube data and chemical kinetics simulations have been used to optimize a combustion mechanism ...
Shock tube experiments and chemical kinetic modeling were performed to further understand the igniti...
Shock tube experiments and chemical kinetic modeling were performed to further understand the igniti...
Rapid compression machines (RCMs) are widely used to acquire experimental insights into fuel autoign...
Ignition delay time measurements for multi-component natural gas mixtures were carried out using a r...
The oxidation of methane/propane mixtures in air has been studied for blends containing 90% CH4/10...
The oxidation of methane/propane Mixtures in air has been Studied for blends containing 90% CH(4)/...
A chemical kinetics mechanism designed for the oxidation of methane-hydrocarbon blends at elevated p...
In order to study the knock threshold gaseous fuels, a rapid compression machine (RCM) has been used...