A discussion is given of particle lags in mean flows, acoustic oscillations at single frequencies and in turbulent flows. Some simplified cases lead to exact solutions. For turbulent flows linearization of the equation of motion after assuming the fluid and particle streamlines coincide also leads to a solution. The results show that particle lags are a function of particle size and frequency of oscillation. Additional studies are necessary to evaluate the effect of turbulence when a major portion of the energy is concentrated in small eddies
A novel sampling signal processor overcomes the difficulties encountered with frequency trackers in ...
Theoretical investigations of two-phase flows have not so far produced a useful model since the inte...
Particle behaviour and the influence of particles in multiphase turbulent flows has been examined....
Study has been made of the motion of single particle and of group of particles, emphasizing solid pa...
The velocity lag of micrometer size spherical particles is theoretically determined for gas particle...
The laser velocimeter (LV) is currently being used by many researchers to nonintrusively obtain velo...
The technique for calculating single particle trackability in a fluid flow in terms of rms velocitie...
All Laser Doppler Velocimeter (LDV) measurements are made by scattering light from small particles s...
An experimental study on the particle-fluid interactions of scattering aerosols was performed using ...
4 pagesWe use an extended laser Doppler technique to track optically the velocity of individual part...
Although the laser Doppler velocimeter has been used for turbulence measurements in the past, no set...
The dispersion of particles in turbulent flows, phenomena such as dispersion, diffusion, and sedimen...
A laser-Doppler anemometer was used to measure the velocity of both the gas and particles in a turbu...
Measurements of the mean and fluctuating velocities of both the solid and gas phases in a dilute sus...
The goal of this work is to measure turbulence statistics in the reference frame of a moving particl...
A novel sampling signal processor overcomes the difficulties encountered with frequency trackers in ...
Theoretical investigations of two-phase flows have not so far produced a useful model since the inte...
Particle behaviour and the influence of particles in multiphase turbulent flows has been examined....
Study has been made of the motion of single particle and of group of particles, emphasizing solid pa...
The velocity lag of micrometer size spherical particles is theoretically determined for gas particle...
The laser velocimeter (LV) is currently being used by many researchers to nonintrusively obtain velo...
The technique for calculating single particle trackability in a fluid flow in terms of rms velocitie...
All Laser Doppler Velocimeter (LDV) measurements are made by scattering light from small particles s...
An experimental study on the particle-fluid interactions of scattering aerosols was performed using ...
4 pagesWe use an extended laser Doppler technique to track optically the velocity of individual part...
Although the laser Doppler velocimeter has been used for turbulence measurements in the past, no set...
The dispersion of particles in turbulent flows, phenomena such as dispersion, diffusion, and sedimen...
A laser-Doppler anemometer was used to measure the velocity of both the gas and particles in a turbu...
Measurements of the mean and fluctuating velocities of both the solid and gas phases in a dilute sus...
The goal of this work is to measure turbulence statistics in the reference frame of a moving particl...
A novel sampling signal processor overcomes the difficulties encountered with frequency trackers in ...
Theoretical investigations of two-phase flows have not so far produced a useful model since the inte...
Particle behaviour and the influence of particles in multiphase turbulent flows has been examined....