The technique for calculating single particle trackability in a fluid flow in terms of rms velocities is discussed. The general equation for the motion of a single particle as a response to a fluid flow driving force is presented, and a criterion for greatly simplifying the governing equation is developed. It is shown that in the case of large particle- to fluid-density ratio and low frequency fluid motion compared to the natural time constant of the particle response, the governing equation can be reduced to a simple balance of inertia force and linear viscous drag (i.e., Stokes drag)
General systems design and optical and signal processing requirements for laser velocimetric measure...
The capability is investigated of a single component laser Doppler velocimeter (LDV) system for the ...
The goal of this work is to measure turbulence statistics in the reference frame of a moving particl...
The potential of laser Doppler velocimetry as a technique for use in mapping flows in the several fl...
A discussion is given of particle lags in mean flows, acoustic oscillations at single frequencies an...
In optimizing an instrument design, it is important to differentiate between the theoretical limitat...
A Point Doppler Velocimeter (pDv) has been developed using a vapor-limited iodine cell as the sensin...
We use an extended laser Doppler technique to track optically the velocity of individual particles i...
Since its introduction in the mid-sixties, Laser Doppler Velocimetry (LDV) has become one of the mos...
This paper is concerned with a recent development in a nonprobe technique for velocity measurement, ...
In this paper we describe a method to measure fluid flow fields that we call Multi-Point Laser Doppl...
many Generally, the laser Doppler and phase Doppler techniques are considered point measurement tech...
The application of laser-based velocimetry in experimental researches of flows is closely involved i...
The laser velocimeter (LV) is currently being used by many researchers to nonintrusively obtain velo...
The velocity lag of micrometer size spherical particles is theoretically determined for gas particle...
General systems design and optical and signal processing requirements for laser velocimetric measure...
The capability is investigated of a single component laser Doppler velocimeter (LDV) system for the ...
The goal of this work is to measure turbulence statistics in the reference frame of a moving particl...
The potential of laser Doppler velocimetry as a technique for use in mapping flows in the several fl...
A discussion is given of particle lags in mean flows, acoustic oscillations at single frequencies an...
In optimizing an instrument design, it is important to differentiate between the theoretical limitat...
A Point Doppler Velocimeter (pDv) has been developed using a vapor-limited iodine cell as the sensin...
We use an extended laser Doppler technique to track optically the velocity of individual particles i...
Since its introduction in the mid-sixties, Laser Doppler Velocimetry (LDV) has become one of the mos...
This paper is concerned with a recent development in a nonprobe technique for velocity measurement, ...
In this paper we describe a method to measure fluid flow fields that we call Multi-Point Laser Doppl...
many Generally, the laser Doppler and phase Doppler techniques are considered point measurement tech...
The application of laser-based velocimetry in experimental researches of flows is closely involved i...
The laser velocimeter (LV) is currently being used by many researchers to nonintrusively obtain velo...
The velocity lag of micrometer size spherical particles is theoretically determined for gas particle...
General systems design and optical and signal processing requirements for laser velocimetric measure...
The capability is investigated of a single component laser Doppler velocimeter (LDV) system for the ...
The goal of this work is to measure turbulence statistics in the reference frame of a moving particl...