Add to ORKGAn experimental investigation of thermal radiation from the flame of a single tubular turbojet-engine combustor to the combustor liner is presented. The effects of combustor inlet-air pressure, air mass flow, and fuel-air ratio on the radiant intensity and the temperature and emissivity of the flame are reported. The total radiation of the "luminous" flames (containing incandescent soot particles) was much greater (4 to 21 times) than the "nonluminous" molecular radiation. The intensity of radiation from the flame increased rapidly with an increase in combustor inlet-air pressure; it was affected to a lesser degree by variations in fuel-air ratio and air mass flow
An assessment of the influence of high intensity radiation on the distribution of soot within a lami...
An integral unidirectional model is established to calculate radiation heat transfer of Diesel flame...
ABSTRACT In the context of an extensive experimental investigation of the turbulent, reacting flow i...
An experimental investigation of thermal radiation from the flame of a single tubular turbojet-engin...
Heat transfer within a combuster were examined. Total and spectral flame radiation in a tubular can ...
An experimental investigation was conducted to determine the effects of fuel type, fuel-air ratio, a...
The effects of fuel type, inlet air pressure, inlet air temperature, and fuel/air ratio on the combu...
The effects of combustor operation at conditions representative of those encountered in high pressur...
The radiative processes involved in combustion were investigated to determine the present r o l e of...
This report presents the results of an investigation to determine the variations in intensity and sp...
Sonic propane jet fire experiments were carried out in absence of wind, with visible flame length ra...
A combined experimental and Large-Eddy Simulation (LES) study of molecular radiation is presented fo...
In an attempt to rigorously study the fuel chemical property influence on combustor radiative heat l...
Thermal radiation is an important mode in combustion and plays a key role in improving energy effici...
The combustion performance and particularly the phenomenon of altitude operational limits was studie...
An assessment of the influence of high intensity radiation on the distribution of soot within a lami...
An integral unidirectional model is established to calculate radiation heat transfer of Diesel flame...
ABSTRACT In the context of an extensive experimental investigation of the turbulent, reacting flow i...
An experimental investigation of thermal radiation from the flame of a single tubular turbojet-engin...
Heat transfer within a combuster were examined. Total and spectral flame radiation in a tubular can ...
An experimental investigation was conducted to determine the effects of fuel type, fuel-air ratio, a...
The effects of fuel type, inlet air pressure, inlet air temperature, and fuel/air ratio on the combu...
The effects of combustor operation at conditions representative of those encountered in high pressur...
The radiative processes involved in combustion were investigated to determine the present r o l e of...
This report presents the results of an investigation to determine the variations in intensity and sp...
Sonic propane jet fire experiments were carried out in absence of wind, with visible flame length ra...
A combined experimental and Large-Eddy Simulation (LES) study of molecular radiation is presented fo...
In an attempt to rigorously study the fuel chemical property influence on combustor radiative heat l...
Thermal radiation is an important mode in combustion and plays a key role in improving energy effici...
The combustion performance and particularly the phenomenon of altitude operational limits was studie...
An assessment of the influence of high intensity radiation on the distribution of soot within a lami...
An integral unidirectional model is established to calculate radiation heat transfer of Diesel flame...
ABSTRACT In the context of an extensive experimental investigation of the turbulent, reacting flow i...