Add to ORKGCup-burner flame is characterized by low Froude numbers, which implies better physical similarity of this flame to real scale fire phenomena. Spectrally filtered IR imaging technique (based on soot emission/absorption monitoring) was employed to study the structure of uninhibited cup-burner flame. Ethylene and n – heptane were used as model fuels. Additionally, UV-VIS-NIR emission spectra of flames were measured
Planar infrared visualization of species in flames is challenging due to the severe thermal radiatio...
This study describes the measurements of the dimensionless extinction constant, Ke, of soot in the v...
Aiming at quantitative investigations of molecular combustion products released from high temperatur...
The temperatures and compositions of gases in and around flames can be diagnosed using infrared emis...
The flame structure and flow modes have been investigated in the process of diffusion combustion of ...
Author Institution: Department of Mechanical Engineering, Rose-Hulman Institute of Technology, 5500 ...
SummaryThis study describes the modification of a standardised cup-burner apparatus. The replacement...
This study describes the modification of a standardised cup-burner apparatus. The replacement of the...
A novel nonintrusive soot diagnostics methodology was developed, validated and applied for in-situ d...
The present study focuses on measurement of line-of-sight emission intensity spectra in the near-inf...
Turbulent sooting flame radiation is relevant to applications ranging from fire safety to gas turbin...
Temperature measurement in flames is a challenging problem. Recently, hyperspectral imaging has demo...
For the first time, laser-induced thermal grating spectroscopy (LITGS) in the spectral range around ...
International audienceQuantitative studies of flames by IR thermography can be achieved if we solve ...
Pyrotechnic mixtures react mostly fast and under a high release of thermal energy and heat radiation...
Planar infrared visualization of species in flames is challenging due to the severe thermal radiatio...
This study describes the measurements of the dimensionless extinction constant, Ke, of soot in the v...
Aiming at quantitative investigations of molecular combustion products released from high temperatur...
The temperatures and compositions of gases in and around flames can be diagnosed using infrared emis...
The flame structure and flow modes have been investigated in the process of diffusion combustion of ...
Author Institution: Department of Mechanical Engineering, Rose-Hulman Institute of Technology, 5500 ...
SummaryThis study describes the modification of a standardised cup-burner apparatus. The replacement...
This study describes the modification of a standardised cup-burner apparatus. The replacement of the...
A novel nonintrusive soot diagnostics methodology was developed, validated and applied for in-situ d...
The present study focuses on measurement of line-of-sight emission intensity spectra in the near-inf...
Turbulent sooting flame radiation is relevant to applications ranging from fire safety to gas turbin...
Temperature measurement in flames is a challenging problem. Recently, hyperspectral imaging has demo...
For the first time, laser-induced thermal grating spectroscopy (LITGS) in the spectral range around ...
International audienceQuantitative studies of flames by IR thermography can be achieved if we solve ...
Pyrotechnic mixtures react mostly fast and under a high release of thermal energy and heat radiation...
Planar infrared visualization of species in flames is challenging due to the severe thermal radiatio...
This study describes the measurements of the dimensionless extinction constant, Ke, of soot in the v...
Aiming at quantitative investigations of molecular combustion products released from high temperatur...