Numerical simulation of particle interactions with wall turbulence
- Department of Chemical Engineering, University of California, Santa Barbara, California 93106 (United States)
This paper presents the results of a numerical investigation of the effects of near-neutral density solid particles on turbulent liquid flow in a channel. Interactions of particles, in a size range about the dissipative length scale, with wall turbulence have been simulated at low volume fractions (average volume fraction less than 4{times}10{sup {minus}4}). Fluid motion is calculated by directly solving the Navier-Stokes equations by a pseudo-spectral method and resolving all scales of motion. Particles are moved in a Lagrangian frame through the action of forces imposed by the fluid and gravity. Particle effects on fluid motion are fed back at each time step by calculating the velocity disturbance caused by the particles assuming the flow around them is locally Stokesian. Particle-particle interactions are not considered. The slightly heavier-than-fluid particles of the size range considered are found to preferentially accumulate in the low-speed streaks, as reported in several other investigations. It is also found that particles smaller than the dissipative length scale reduce turbulence intensities and Reynolds stress, whereas particles that are somewhat larger increase intensities and stress. By examining higher order turbulence statistics and doing a quadrant analysis of the Reynolds stress, it is found that the ejection-sweep cycle is affected{emdash}primarily through suppression of sweeps by the smaller particles and enhancement of sweep activity by the larger particles. A preliminary assessment of the impact of these findings on scalar transfer is made, as enhancement of transfer rate is a motivation of the overall work on this subject. For the case investigated, comparison of the calculations with an existing experiment was possible, and shows good agreement. {copyright} {ital 1996 American Institute of Physics.}
- DOE Contract Number:
- FG03-85ER13314
- OSTI ID:
- 390452
- Journal Information:
- Physics of Fluids (1994), Journal Name: Physics of Fluids (1994) Journal Issue: 10 Vol. 8; ISSN PHFLE6; ISSN 1070-6631
- Country of Publication:
- United States
- Language:
- English
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