Fluidization experiments were conducted on four fractions of filtration (quartz) sand using columns of 144 and 64mm i.d. The size distribution of the fractions obtained by sieving followed an approximately modified normal (Gaussian) particle size distribution with respect to the projected particle diameter, while the shape factor decreased linearly with increasing projected particle diameter. The expansion characteristics of the sand particles followed a Richardson-Zaki relationship. The intercept velocity, i.e., the extrapolated value of the fluid superficial velocity to ε=1 on the plot log (U) vs. log (ε), agreed quite well with the experimentally determined mean free settling velocity of the cloud of about 30 randomly selected particles. During fluidization, the beds were hydraulically separated into 10 sub-fractions, which are then analyzed. For the mixture dp=0.75-1.25mm during fluidization at an overall bed expansion of 35%, the bed partially segregated since, remarkably, the sma...llest particles were concentrated at the top, while the largest particles were concentrated in the bottom zone. In the remaining part of the bed (about 80% of total mass), the particles were well mixed. Similar experiments were performed with sand mixtures dp=1.60-2.00mm, dp=1.40-2.00mm and dp=1.166-2.00mm. By analyzing the particle size distribution at the bottom and at the top of the bed, it was concluded that the bed was well mixed if the sieving ratio of the largest to smallest sieve opening was less than about 1.5.
TY - JOUR
AU - Duriš, Mihal
AU - Garić-Grulović, Radmila
AU - Arsenijević, Zorana
AU - Jaćimovski, Darko
AU - Grbavčić, Željko
PY - 2013
UR - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/5728
AB - Fluidization experiments were conducted on four fractions of filtration (quartz) sand using columns of 144 and 64mm i.d. The size distribution of the fractions obtained by sieving followed an approximately modified normal (Gaussian) particle size distribution with respect to the projected particle diameter, while the shape factor decreased linearly with increasing projected particle diameter. The expansion characteristics of the sand particles followed a Richardson-Zaki relationship. The intercept velocity, i.e., the extrapolated value of the fluid superficial velocity to ε=1 on the plot log (U) vs. log (ε), agreed quite well with the experimentally determined mean free settling velocity of the cloud of about 30 randomly selected particles. During fluidization, the beds were hydraulically separated into 10 sub-fractions, which are then analyzed. For the mixture dp=0.75-1.25mm during fluidization at an overall bed expansion of 35%, the bed partially segregated since, remarkably, the smallest particles were concentrated at the top, while the largest particles were concentrated in the bottom zone. In the remaining part of the bed (about 80% of total mass), the particles were well mixed. Similar experiments were performed with sand mixtures dp=1.60-2.00mm, dp=1.40-2.00mm and dp=1.166-2.00mm. By analyzing the particle size distribution at the bottom and at the top of the bed, it was concluded that the bed was well mixed if the sieving ratio of the largest to smallest sieve opening was less than about 1.5.
PB - Elsevier
T2 - Powder Technology
T1 - Segregation in water fluidized beds of sand particles
EP - 179
SP - 173
VL - 235
DO - 10.1016/j.powtec.2012.10.004
ER -
@article{
author = "Duriš, Mihal and Garić-Grulović, Radmila and Arsenijević, Zorana and Jaćimovski, Darko and Grbavčić, Željko",
year = "2013",
abstract = "Fluidization experiments were conducted on four fractions of filtration (quartz) sand using columns of 144 and 64mm i.d. The size distribution of the fractions obtained by sieving followed an approximately modified normal (Gaussian) particle size distribution with respect to the projected particle diameter, while the shape factor decreased linearly with increasing projected particle diameter. The expansion characteristics of the sand particles followed a Richardson-Zaki relationship. The intercept velocity, i.e., the extrapolated value of the fluid superficial velocity to ε=1 on the plot log (U) vs. log (ε), agreed quite well with the experimentally determined mean free settling velocity of the cloud of about 30 randomly selected particles. During fluidization, the beds were hydraulically separated into 10 sub-fractions, which are then analyzed. For the mixture dp=0.75-1.25mm during fluidization at an overall bed expansion of 35%, the bed partially segregated since, remarkably, the smallest particles were concentrated at the top, while the largest particles were concentrated in the bottom zone. In the remaining part of the bed (about 80% of total mass), the particles were well mixed. Similar experiments were performed with sand mixtures dp=1.60-2.00mm, dp=1.40-2.00mm and dp=1.166-2.00mm. By analyzing the particle size distribution at the bottom and at the top of the bed, it was concluded that the bed was well mixed if the sieving ratio of the largest to smallest sieve opening was less than about 1.5.",
publisher = "Elsevier",
journal = "Powder Technology",
title = "Segregation in water fluidized beds of sand particles",
pages = "179-173",
volume = "235",
doi = "10.1016/j.powtec.2012.10.004"
}
Duriš, M., Garić-Grulović, R., Arsenijević, Z., Jaćimovski, D.,& Grbavčić, Ž.. (2013). Segregation in water fluidized beds of sand particles. in Powder Technology
Elsevier., 235, 173-179.
https://doi.org/10.1016/j.powtec.2012.10.004
Duriš M, Garić-Grulović R, Arsenijević Z, Jaćimovski D, Grbavčić Ž. Segregation in water fluidized beds of sand particles. in Powder Technology. 2013;235:173-179.
doi:10.1016/j.powtec.2012.10.004 .
Duriš, Mihal, Garić-Grulović, Radmila, Arsenijević, Zorana, Jaćimovski, Darko, Grbavčić, Željko, "Segregation in water fluidized beds of sand particles" in Powder Technology, 235 (2013):173-179,
https://doi.org/10.1016/j.powtec.2012.10.004 . .
