Add to ORKGObtaining information on the instantaneous structure of turbulent and transient flames is important in a wide variety of applications such as fire safety, pollution reduction, flame spread studies, and model validation. Durao et al. has reviewed the different methods of obtaining structure information in reacting flows. These include Tunable Laser Absorption Spectroscopy, Fourier Transform Infrared Spectroscopy, and Emission Spectroscopy to mention a few. Most flames emit significant radiation signatures that are used in various applications such as fire detection, light-off detection, flame diagnostics, etc. Radiation signatures can be utilized to maximum advantage for determining structural information in turbulent flows. Emission spectro...
This paper proposes a technique that can simultaneously retrieve distributions of temperature, conce...
Aiming at quantitative investigations of molecular combustion products released from high temperatur...
Thanks to features as non-intrusiveness combined with high spatial and temporal resolution, various ...
A new method of estimating temperatures and gas species concentrations (CO2 and H2O) in a laminar fl...
Radiation emissions from exhaust plumes are of interest for security reasons and for studying the tu...
Turbulent premixed flames were originally used only in spark ignition engines. Their use is increasi...
This dissertation describes advancements in mid-infrared laser absorption tomography for spatio-temp...
A laboratory-scale gas turbine model combustor fueled with methane is studied experimentally with th...
Monitoring of transient species within combustion experiments (laminar flames, shock-tubes, flow rea...
A theoretical and experimental study of the flame structure and gas band radiation of carbon monoxid...
Radiation transfer in turbulent reacting and non-reacting flows is important in many applications re...
The temperatures and compositions of gases in and around flames can be diagnosed using infrared emis...
In combustion systems, flame radiation is commonly the most significant mode of heat transfer and th...
Despite the movement toward alternative and renewable energy sources, combustion is still responsibl...
The present study focuses on measurement of line-of-sight emission intensity spectra in the near-inf...
This paper proposes a technique that can simultaneously retrieve distributions of temperature, conce...
Aiming at quantitative investigations of molecular combustion products released from high temperatur...
Thanks to features as non-intrusiveness combined with high spatial and temporal resolution, various ...
A new method of estimating temperatures and gas species concentrations (CO2 and H2O) in a laminar fl...
Radiation emissions from exhaust plumes are of interest for security reasons and for studying the tu...
Turbulent premixed flames were originally used only in spark ignition engines. Their use is increasi...
This dissertation describes advancements in mid-infrared laser absorption tomography for spatio-temp...
A laboratory-scale gas turbine model combustor fueled with methane is studied experimentally with th...
Monitoring of transient species within combustion experiments (laminar flames, shock-tubes, flow rea...
A theoretical and experimental study of the flame structure and gas band radiation of carbon monoxid...
Radiation transfer in turbulent reacting and non-reacting flows is important in many applications re...
The temperatures and compositions of gases in and around flames can be diagnosed using infrared emis...
In combustion systems, flame radiation is commonly the most significant mode of heat transfer and th...
Despite the movement toward alternative and renewable energy sources, combustion is still responsibl...
The present study focuses on measurement of line-of-sight emission intensity spectra in the near-inf...
This paper proposes a technique that can simultaneously retrieve distributions of temperature, conce...
Aiming at quantitative investigations of molecular combustion products released from high temperatur...
Thanks to features as non-intrusiveness combined with high spatial and temporal resolution, various ...