Add to ORKGThe combustion behavior of methane and ethane is important to the study of natural gas and other alternative fuels that are comprised primarily of these two basic hydrocarbons. Understanding the transition from methane-dominated ignition kinetics to ethane-dominated kinetics for increasing levels of ethane is also of fundamental interest toward the understanding of hydrocarbon chemical kinetics. Much research has been conducted on the two fuels individually, but experimental data of the combustion of blends of methane and ethane is limited to ratios that recreate typical natural gas compositions (up to ~20% ethane molar concentration). The goal of this study was to provide a comprehensive data set of ignition delay times of the combustion o...
A comprehensive experimental and kinetic modeling study of the ignition delay time (IDT) characteris...
The oxidation of methane/ethane/propane mixtures, for blends containing 90/6.6/3.3 70/15/15 and 70/2...
This thesis reports methane (CH4) and a syngas mixture (H2/CO=95:5) autoignition delay measurements ...
Shock-tube experiments and chemical kinetics modeling were performed to characterize the chemistry f...
Autoignition and oxidation of two Methane (CH4) and Dimethyl Ether (CH3OCH3 or DME) mixtures in air ...
The ignition delay time (IDT) characteristics of new ternary and quaternary blended C1 – C3 gaseous ...
In this work, the ignition delay time characteristics of C2 – C3 binary blends of gaseous hydrocarbo...
Supercritical carbon dioxide has brought about new questions on the chemical kinetics of several sma...
Several diluted C2H6/O2/Ar mixtures of varying concentrations and equivalence ratios (0.5 \u3c φ{sym...
Shock-tube experiments and chemical kinetics modeling were Performed to further understand the ignit...
Shock-tube experiments were conducted to investigate and further understand the impact of higher-ord...
In this study, syngas combustion was investigated behind reflected shock waves in order to gain insi...
Methane and ethane are the two main components of natural gas and typically constitute more than 95%...
Shock-tube experiments and chemical kinetics modeling were performed to further understand the ignit...
The oxidation of methane/ethane/propane mixtures, for blends containing 90/6.6/3.3, 70/15/15 and 70/...
A comprehensive experimental and kinetic modeling study of the ignition delay time (IDT) characteris...
The oxidation of methane/ethane/propane mixtures, for blends containing 90/6.6/3.3 70/15/15 and 70/2...
This thesis reports methane (CH4) and a syngas mixture (H2/CO=95:5) autoignition delay measurements ...
Shock-tube experiments and chemical kinetics modeling were performed to characterize the chemistry f...
Autoignition and oxidation of two Methane (CH4) and Dimethyl Ether (CH3OCH3 or DME) mixtures in air ...
The ignition delay time (IDT) characteristics of new ternary and quaternary blended C1 – C3 gaseous ...
In this work, the ignition delay time characteristics of C2 – C3 binary blends of gaseous hydrocarbo...
Supercritical carbon dioxide has brought about new questions on the chemical kinetics of several sma...
Several diluted C2H6/O2/Ar mixtures of varying concentrations and equivalence ratios (0.5 \u3c φ{sym...
Shock-tube experiments and chemical kinetics modeling were Performed to further understand the ignit...
Shock-tube experiments were conducted to investigate and further understand the impact of higher-ord...
In this study, syngas combustion was investigated behind reflected shock waves in order to gain insi...
Methane and ethane are the two main components of natural gas and typically constitute more than 95%...
Shock-tube experiments and chemical kinetics modeling were performed to further understand the ignit...
The oxidation of methane/ethane/propane mixtures, for blends containing 90/6.6/3.3, 70/15/15 and 70/...
A comprehensive experimental and kinetic modeling study of the ignition delay time (IDT) characteris...
The oxidation of methane/ethane/propane mixtures, for blends containing 90/6.6/3.3 70/15/15 and 70/2...
This thesis reports methane (CH4) and a syngas mixture (H2/CO=95:5) autoignition delay measurements ...