Add to ORKGWe present theory and comprehensive bifurcation analysis of thermally coupled homogeneous-heterogeneous combustion of propane and methane in short monolith, fibermat or gauze type reactors with a focus on the dependence of the ignition, extinction, hysteresis, double and boundary limit loci on the various design and operating parameters. We analyze the impact of inlet fuel mole fraction, inlet temperature, residence time and channel hydraulic radius on the relative position of the homogeneous and catalytic ignition and extinction points and identify the parameter regions in which either catalytic or homogeneous reaction dominates. We also identify the regions in which catalytic ignition leads either to an intermediate branch on which the ho...
Limit flame phenomena, such as flame ignition, extinction and onset of instabilities, are important ...
In this paper, we present some experimental and analytical model results of two-component fuel mixtu...
The use of advanced combustion technologies (such as MILD, LTC, etc.) is among the most promising me...
Catalytic combustion of methane/air mixture in various channels was numerically investigated to illu...
In the first part, we present a detailed ignition-extinction analysis of Oxidative Coupling of Metha...
Catalytic oxidation of hydrogen and methane is studied, with emphasis on the influence of catalytic ...
The homogeneous (gas-phase) and heterogeneous (catalytic) ignition of fuel-lean premixtures is inves...
The homogeneous ignition of fuel-lean methane/air mixtures is investigated numerically in laminar pl...
Operation strategies for controlling the extent of homogeneous chemistry in homogeneous-heterogeneou...
Catalytic combustion of methane/air mixture in various channels was numerically investigated to illu...
Numerical simulations are performed to study the nature of auto-ignition and flame propagation in a ...
The homogeneous ignition of lean methane-air mixtures was investigated numerically and experimentall...
International audienceHighlights • Measurement of species mole fractions during oscillating combusti...
The paper deals with a subcategory of Mild Combustion, which has been named Homogeneous Charge Diffu...
An analytical method is used to solve the problem of homogeneous combustion in a monolith.The solid ...
Limit flame phenomena, such as flame ignition, extinction and onset of instabilities, are important ...
In this paper, we present some experimental and analytical model results of two-component fuel mixtu...
The use of advanced combustion technologies (such as MILD, LTC, etc.) is among the most promising me...
Catalytic combustion of methane/air mixture in various channels was numerically investigated to illu...
In the first part, we present a detailed ignition-extinction analysis of Oxidative Coupling of Metha...
Catalytic oxidation of hydrogen and methane is studied, with emphasis on the influence of catalytic ...
The homogeneous (gas-phase) and heterogeneous (catalytic) ignition of fuel-lean premixtures is inves...
The homogeneous ignition of fuel-lean methane/air mixtures is investigated numerically in laminar pl...
Operation strategies for controlling the extent of homogeneous chemistry in homogeneous-heterogeneou...
Catalytic combustion of methane/air mixture in various channels was numerically investigated to illu...
Numerical simulations are performed to study the nature of auto-ignition and flame propagation in a ...
The homogeneous ignition of lean methane-air mixtures was investigated numerically and experimentall...
International audienceHighlights • Measurement of species mole fractions during oscillating combusti...
The paper deals with a subcategory of Mild Combustion, which has been named Homogeneous Charge Diffu...
An analytical method is used to solve the problem of homogeneous combustion in a monolith.The solid ...
Limit flame phenomena, such as flame ignition, extinction and onset of instabilities, are important ...
In this paper, we present some experimental and analytical model results of two-component fuel mixtu...
The use of advanced combustion technologies (such as MILD, LTC, etc.) is among the most promising me...