The aim of this study is to eliminate unimportant steps from a detailed chemical-kinetic mechanism in order to identify a skeletal kinetic mechanism that can predict with sufficient accuracy ignition delay times and laminar premixed-flame velocities for H2 - CH4 mixtures under conditions of practical interest in gas-turbine applications, which pertain to high pressure, high reactant temperature, and primarily lean-to-stoichiometric mixture compositions (although somewhat rich conditions also are considered for completeness). The accuracy of selected detailed chemical-kinetic mechanisms that are suited to represent combustion of hydrogen-methane mixtures in air was evaluated through comparison of computed and measured ignition delay times an...
We investigate changes in the combustion behavior of methane, the primary component of natural gas, ...
The laminar burning velocities of hydrogen-methane/air mixtures at NTP conditions were calculated us...
In this study a 5-step reduced chemical kinetic mechanism involving 9 species is developed for combu...
The aim of this study is to eliminate unimportant steps from a detailed chemical-kinetic mechanism i...
Applications of natural gas and hydrogen co-firing have received increased attention in the gas turb...
New experimental ignition delay time data measured in both a shock tube and in a rapid compression m...
Methane is an important fuel for gas turbine and gas engine combustion, and the most common fuel in ...
Natural gas is the primary fuel for industrial gas turbines. Although natural gas is mostly methane,...
Journal articleThe development of accurate chemical kinetic models capable of predicting the combust...
Shock-tube experiments and chemical kinetics modeling were Performed to further understand the ignit...
Shock-tube experiments and chemical kinetics modeling were performed to further understand the ignit...
This study presents an experimental and modelling investigation of the ignition of hydrogen and natu...
In this thesis the combustion properties of methane / hydrogen mixtures are investigated by measerin...
© 2021 by the author. Licensee MDPI, Basel, Switzerland. This article is an open access article dist...
This study investigated the effects of H2 and CH4 concentrations on the ignition delay time and lami...
We investigate changes in the combustion behavior of methane, the primary component of natural gas, ...
The laminar burning velocities of hydrogen-methane/air mixtures at NTP conditions were calculated us...
In this study a 5-step reduced chemical kinetic mechanism involving 9 species is developed for combu...
The aim of this study is to eliminate unimportant steps from a detailed chemical-kinetic mechanism i...
Applications of natural gas and hydrogen co-firing have received increased attention in the gas turb...
New experimental ignition delay time data measured in both a shock tube and in a rapid compression m...
Methane is an important fuel for gas turbine and gas engine combustion, and the most common fuel in ...
Natural gas is the primary fuel for industrial gas turbines. Although natural gas is mostly methane,...
Journal articleThe development of accurate chemical kinetic models capable of predicting the combust...
Shock-tube experiments and chemical kinetics modeling were Performed to further understand the ignit...
Shock-tube experiments and chemical kinetics modeling were performed to further understand the ignit...
This study presents an experimental and modelling investigation of the ignition of hydrogen and natu...
In this thesis the combustion properties of methane / hydrogen mixtures are investigated by measerin...
© 2021 by the author. Licensee MDPI, Basel, Switzerland. This article is an open access article dist...
This study investigated the effects of H2 and CH4 concentrations on the ignition delay time and lami...
We investigate changes in the combustion behavior of methane, the primary component of natural gas, ...
The laminar burning velocities of hydrogen-methane/air mixtures at NTP conditions were calculated us...
In this study a 5-step reduced chemical kinetic mechanism involving 9 species is developed for combu...