Add to ORKGLaser-based diagnostic methods are often used for non-intrusive studies of delicate processes of soot formation. When soot particles are heated by the laser pulse, their size distribution can be estimated from the cooling rate, provided that the local gas temperature is known. However, strong light absorption, scattering and fluorescence in sooting environment hinder non-intrusive laser-based temperature measurements. Methods based on fitting of laser-induced fluorescence spectra work well in stationary flames but usually require temperature tracer seeded into the flame. We have shown that in counterflow diffusion flames, often used for soot-formation studies, enough nitric oxide is produced for two-dimensional temperature imaging. Measured...
Nitric oxide (NO) is an important combustion pollutant, and understanding NO formation and destructi...
Driven by the demand for soot-free combustion, laser-based diagnostic techniques on soot have been ...
This work has been aimed at developing and applying laser-induced incandescence (LII) for flame soot...
Laser-based diagnostic methods are often used for non-intrusive studies of delicate processes of soo...
The feasibility of making quantitative nonintrusive NO concentration ([NO]) measurements in nonpremi...
Today’s energy supply relies on the combustion of fossil fuels. This results in emissions of toxic p...
This work aims to advance understanding of the coupling between temperature and soot. The ability to...
Temperature may be considered the most important combustion parameter owing to its exponential influ...
The role of soot in combustion is important due to its environmental and health impact, in addition ...
Several NASA-funded investigations focus on soot processes and radiative influences of soot in diffu...
Laser-induced fluorescence (LIF) has been applied to the quantitative measurement of nitric oxide (N...
This dissertation reports on the single-shot temperature imaging in sooty flames, based on the devel...
Laser-induced fluorescence (LIF) measurements of NO concentration ([NO]) have been obtained along th...
This paper demonstrates the first simultaneous single-shot imaging of temperature and soot volume fr...
This work investigates the first demonstration of nonlinear regime two-line atomic fluorescence (NTL...
Nitric oxide (NO) is an important combustion pollutant, and understanding NO formation and destructi...
Driven by the demand for soot-free combustion, laser-based diagnostic techniques on soot have been ...
This work has been aimed at developing and applying laser-induced incandescence (LII) for flame soot...
Laser-based diagnostic methods are often used for non-intrusive studies of delicate processes of soo...
The feasibility of making quantitative nonintrusive NO concentration ([NO]) measurements in nonpremi...
Today’s energy supply relies on the combustion of fossil fuels. This results in emissions of toxic p...
This work aims to advance understanding of the coupling between temperature and soot. The ability to...
Temperature may be considered the most important combustion parameter owing to its exponential influ...
The role of soot in combustion is important due to its environmental and health impact, in addition ...
Several NASA-funded investigations focus on soot processes and radiative influences of soot in diffu...
Laser-induced fluorescence (LIF) has been applied to the quantitative measurement of nitric oxide (N...
This dissertation reports on the single-shot temperature imaging in sooty flames, based on the devel...
Laser-induced fluorescence (LIF) measurements of NO concentration ([NO]) have been obtained along th...
This paper demonstrates the first simultaneous single-shot imaging of temperature and soot volume fr...
This work investigates the first demonstration of nonlinear regime two-line atomic fluorescence (NTL...
Nitric oxide (NO) is an important combustion pollutant, and understanding NO formation and destructi...
Driven by the demand for soot-free combustion, laser-based diagnostic techniques on soot have been ...
This work has been aimed at developing and applying laser-induced incandescence (LII) for flame soot...