The role of soot in combustion is important due to its environmental and health impact, in addition to its role in radiative heat transfer. While combustion processes involving soot have been applied for many years, the formation and destruction processes of soot in practical environments are still beyond the present capacity to understand adequately. A multitude of interdependent factors are fundamental to the understanding of soot; however, soot concentration and temperature remain significant. This work aims to develop laser-based thermometry techniques for simultaneous imaging of soot concentration and temperature in practical flames. Joint Laser-induced Incandescence (LII) and Non linear regime Two-Line Atomic Fluorescence (NTLAF) appr...
Combustion-generated carbon black nano particles, or soot, have both positive and negative effects d...
Nonlinear excitation regime two-line atomic fluorescence (NTLAF) is a laser-based thermometry techni...
The current study represents the first application of commercial laser-induced incandescence (LII) i...
This paper demonstrates the first simultaneous single-shot imaging of temperature and soot volume fr...
This dissertation reports on the single-shot temperature imaging in sooty flames, based on the devel...
Nonlinear excitation regime two-line atomic fluorescence (NTLAF) is a laser-based thermometry techni...
This work aims to advance understanding of the coupling between temperature and soot. The ability to...
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...
This study applies the techniques of laser induced incandescence (LII) and laser induced fluorescenc...
In this article, the application of the FRAME (Frequency Recognition Algorithm for Multiple Exposure...
Several NASA-funded investigations focus on soot processes and radiative influences of soot in diffu...
Strategies for spatially resolved soot volume-fraction measurements have been investigated in sootin...
Thermometry measurements were carried out using planar laser induced phosphorescence in conjunction ...
Simultaneously calibrated, non-linear two-line atomic fluorescence (SC-nTLAF) thermometry for applic...
Combustion-generated carbon black nano particles, or soot, have both positive and negative effects d...
Nonlinear excitation regime two-line atomic fluorescence (NTLAF) is a laser-based thermometry techni...
The current study represents the first application of commercial laser-induced incandescence (LII) i...
This paper demonstrates the first simultaneous single-shot imaging of temperature and soot volume fr...
This dissertation reports on the single-shot temperature imaging in sooty flames, based on the devel...
Nonlinear excitation regime two-line atomic fluorescence (NTLAF) is a laser-based thermometry techni...
This work aims to advance understanding of the coupling between temperature and soot. The ability to...
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...
This study applies the techniques of laser induced incandescence (LII) and laser induced fluorescenc...
In this article, the application of the FRAME (Frequency Recognition Algorithm for Multiple Exposure...
Several NASA-funded investigations focus on soot processes and radiative influences of soot in diffu...
Strategies for spatially resolved soot volume-fraction measurements have been investigated in sootin...
Thermometry measurements were carried out using planar laser induced phosphorescence in conjunction ...
Simultaneously calibrated, non-linear two-line atomic fluorescence (SC-nTLAF) thermometry for applic...
Combustion-generated carbon black nano particles, or soot, have both positive and negative effects d...
Nonlinear excitation regime two-line atomic fluorescence (NTLAF) is a laser-based thermometry techni...
The current study represents the first application of commercial laser-induced incandescence (LII) i...