TY - CONF
T1 - Numerical flow visualization of fully-developed turbulence channel flow laden with particles of binary sizes
AU - Lin, J. H.
AU - Chang, K. C.
N1 - Funding Information:
This works was done with financial support by National Science Council, Republic of China under Grant No. NSC 98-2221-E006-132-MY3
Publisher Copyright:
© 2015 International Conference on Liquid Atomization and Spray Systems. All rights reserved.
PY - 2015
Y1 - 2015
N2 - Particle-laden flows are widely appeared in many engineering practices and environmental phenomena, such as cyclone separator, powder classifier, pneumatic conveying, fluidized beds, pollution diffusion and dust storms, etc. In addition, the non-invasive diagnostic technologies of experimental fluid mechanics for the measurement of fluid velocity are mostly made of the seeding (or foreign) particles instead of fluid itself, such as particle image velocimetry, laser Doppler velocimetry, etc., and are also directly related to the phenomena of particle-laden flows. Thus, in the measurements of turbulent flow quantities of the two-phase flows even laden with mono size of particles by using the non-invasive optical diagnostic technologies, there still exist two sizes of particles in the flow field. One is the originally loaded particles, while the other is the seeding particles which are typically in the order of magnitude of 100 m in size. Detailed interferences on turbulent dispersion motion between the large and small particles are hard to be studied experimentally. Modelling simulations which consider four-way coupling mechanisms and rough-wall effect are performed in a fully developed turbulent channel flows laden with mono-size particles together with and without seeding particles were performed in this study. It is found that the input of seeding particles with a typical number density in the flow does not affect the predictions of the turbulent properties of particles.
AB - Particle-laden flows are widely appeared in many engineering practices and environmental phenomena, such as cyclone separator, powder classifier, pneumatic conveying, fluidized beds, pollution diffusion and dust storms, etc. In addition, the non-invasive diagnostic technologies of experimental fluid mechanics for the measurement of fluid velocity are mostly made of the seeding (or foreign) particles instead of fluid itself, such as particle image velocimetry, laser Doppler velocimetry, etc., and are also directly related to the phenomena of particle-laden flows. Thus, in the measurements of turbulent flow quantities of the two-phase flows even laden with mono size of particles by using the non-invasive optical diagnostic technologies, there still exist two sizes of particles in the flow field. One is the originally loaded particles, while the other is the seeding particles which are typically in the order of magnitude of 100 m in size. Detailed interferences on turbulent dispersion motion between the large and small particles are hard to be studied experimentally. Modelling simulations which consider four-way coupling mechanisms and rough-wall effect are performed in a fully developed turbulent channel flows laden with mono-size particles together with and without seeding particles were performed in this study. It is found that the input of seeding particles with a typical number density in the flow does not affect the predictions of the turbulent properties of particles.
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M3 - Paper
AN - SCOPUS:85091961293
T2 - 13th International Conference on Liquid Atomization and Spray Systems, ICLASS 2015
Y2 - 23 August 2015 through 27 August 2015
ER -