This Letter demonstrates the application of filtered Rayleigh scattering (FRS) for quantitative two-dimensional fuel vapor/air mixing measurements in an evaporating hydrocarbon fuel spray flow. Using the FRS approach, gasphase measurements are made in the presence of liquidphase droplets without interference. Effective suppression of the liquid-phase droplet scattering using FRS is enabled by the high spectral purity of the current Nd:YAG laser system. Simultaneous Mie-scattering imaging is used to visualize the droplet field and illustrate the droplet loading under which the FRS imaging is applied in the current spray flows. The initial quantification of the FRS imaging is based on calibration measurements from a flow cell of known fuel va...
Stimulated Raman spectroscopy can be used to monitor the concentration of species in an injected liq...
Droplet turbulence interactions directly affect the vaporization and dispersion of droplets in liqui...
The knowledge of droplet size distributions in a gas-liquid separation equipment is of high relevanc...
Abstract- Evaporating Diesel sprays are studied by laser Rayleigh scattering measurements in an opti...
To increase the overall efficiency in aero engines as well as stationary gas turbines detailed infor...
This study aims to improve a technique for measuring fuel distributions, e.g. mixture fraction and d...
A laser diagnostic technique useful for qualitatively locating and describing regions of vapor and l...
Two-phase flow visualization of fuel sprays is important for the design of better engines because it...
The fundamental concept of the LAS technique is to understand the fuel concentration by attenuation ...
An experimental study of an infrared laser extinction technique for measuring fuel vapor flux in eva...
A non-intrusive technique for measuring the concentration of gaseous species in reacting and non-rea...
The laser absorption scattering (LAS) technique [Suzuki, et al., 1993, SAE Technical Paper, 930863] ...
International audienceIn order to study spray combustion, an experimental test rig was developed at ...
Filtered Rayleigh Scattering (FRS) is a non-intrusive, laser-based flow characterization technique t...
In liquid-fueled combustion, the interaction of spray droplets with surrounding turbulent air flow i...
Stimulated Raman spectroscopy can be used to monitor the concentration of species in an injected liq...
Droplet turbulence interactions directly affect the vaporization and dispersion of droplets in liqui...
The knowledge of droplet size distributions in a gas-liquid separation equipment is of high relevanc...
Abstract- Evaporating Diesel sprays are studied by laser Rayleigh scattering measurements in an opti...
To increase the overall efficiency in aero engines as well as stationary gas turbines detailed infor...
This study aims to improve a technique for measuring fuel distributions, e.g. mixture fraction and d...
A laser diagnostic technique useful for qualitatively locating and describing regions of vapor and l...
Two-phase flow visualization of fuel sprays is important for the design of better engines because it...
The fundamental concept of the LAS technique is to understand the fuel concentration by attenuation ...
An experimental study of an infrared laser extinction technique for measuring fuel vapor flux in eva...
A non-intrusive technique for measuring the concentration of gaseous species in reacting and non-rea...
The laser absorption scattering (LAS) technique [Suzuki, et al., 1993, SAE Technical Paper, 930863] ...
International audienceIn order to study spray combustion, an experimental test rig was developed at ...
Filtered Rayleigh Scattering (FRS) is a non-intrusive, laser-based flow characterization technique t...
In liquid-fueled combustion, the interaction of spray droplets with surrounding turbulent air flow i...
Stimulated Raman spectroscopy can be used to monitor the concentration of species in an injected liq...
Droplet turbulence interactions directly affect the vaporization and dispersion of droplets in liqui...
The knowledge of droplet size distributions in a gas-liquid separation equipment is of high relevanc...