Add to ORKGA method is devised for true three-dimensional (3D) particle sizing in two-phase systems. Based on a ray-optics approximation of the Mie scattering theory for spherical particles, and under given assumptions, the principle is applicable to intensity data from scatterers within arbitrary interrogation volumes. It requires knowledge of the particle 3D location and intensity, and of the spatial distribution of the incident light intensity throughout the measurement volume. The new methodology is particularly suited for Lagrangian measurements: we demonstrate its use with the defocusing digital particle image velocimetry technique, a 3D measurement technique that provides the location, intensity and velocity of particles in large volume domains...
A new method was introduced to improve the accuracy of sizing large particles in two-phase flows. Th...
The application of two-component interferometry is described for the spatially-resolved measurement ...
Optimization of laser light scatter detection technique based on the geometrical optics method for m...
Defocusing digital particle image velocimetry (DDPIV) is the natural extension of planar PIV techniq...
A new method is introduced to improve the accuracy of sizing large particles in two-phase flows. Thi...
Defocusing digital particle image velocimetry (DDPIV) is the natural extension of digital particle ...
International audienceA particle sizing method based on the analysis of polarization status of light...
A method to measure the size of particles in Laser Doppler Velocimeter (LDV) applications is discuss...
Dispersion of particles in multiphase-flows can be both quantitatively and qualitatively characteris...
This paper describes a three-dimensional imaging system for the purpose of mapping two-phase bubbly ...
This paper describes a three-dimensional imaging system for the purpose of mapping two-phase bubbly ...
Dispersion of particles in multiphase-flows can be both quantitatively and qualitatively characteris...
Three-dimensional analysis of particles in flows within microfluidic devices is a necessary techniqu...
Defocusing digital particle image velocimetry (DDPIV) is the natural extension of planar PIV techniq...
Three-dimensional analysis of particles in flows within microfluidic devices is a necessary techniqu...
A new method was introduced to improve the accuracy of sizing large particles in two-phase flows. Th...
The application of two-component interferometry is described for the spatially-resolved measurement ...
Optimization of laser light scatter detection technique based on the geometrical optics method for m...
Defocusing digital particle image velocimetry (DDPIV) is the natural extension of planar PIV techniq...
A new method is introduced to improve the accuracy of sizing large particles in two-phase flows. Thi...
Defocusing digital particle image velocimetry (DDPIV) is the natural extension of digital particle ...
International audienceA particle sizing method based on the analysis of polarization status of light...
A method to measure the size of particles in Laser Doppler Velocimeter (LDV) applications is discuss...
Dispersion of particles in multiphase-flows can be both quantitatively and qualitatively characteris...
This paper describes a three-dimensional imaging system for the purpose of mapping two-phase bubbly ...
This paper describes a three-dimensional imaging system for the purpose of mapping two-phase bubbly ...
Dispersion of particles in multiphase-flows can be both quantitatively and qualitatively characteris...
Three-dimensional analysis of particles in flows within microfluidic devices is a necessary techniqu...
Defocusing digital particle image velocimetry (DDPIV) is the natural extension of planar PIV techniq...
Three-dimensional analysis of particles in flows within microfluidic devices is a necessary techniqu...
A new method was introduced to improve the accuracy of sizing large particles in two-phase flows. Th...
The application of two-component interferometry is described for the spatially-resolved measurement ...
Optimization of laser light scatter detection technique based on the geometrical optics method for m...