Radial Distribution of Burden Descent Velocity near Burden Surface in Blast Furnace.

“…In the tangential direction, the model consists of slider, spring and dashpot. The governing equations for a particle (i) interacting with another particle (j) are written 16,17) .... (1) ..................... (2) where u i, I i and ω i are the translational velocity, moment of inertia and angular velocity of particle i, respectively. The forces involved are the gravitational force (m i g) and interparticle forces between the particles, which include the normal force and tangential contact force, F cn,ij and F ct,ij and damping forces, F dn,ij and F dt,ij .…”

“…In the latter region, a strong percolation of iron-bearing burden into coke may change the characteristics of the coke slits, through which the ascending gas passes almost horizontally. Much work on burden distribution in blast furnaces has been reported and some papers focus on the conditions at burden descent, [1][2][3][4][5][6][7] but very few investigations have studied interparticle percolation 8) and there are practically no papers on a quantification of the percolation during burden descent. Li et al, 9) Bridgwater and Ingram, 10) Lomine and Oger 11) and Zhu et al 12) studied one or a small number of particles percolating into a static particle bed, which is quite different from the situation in an operating blast furnace.…”

Inter-particle Percolation Segregation during Burden Descent in the Blast Furnace

“…In the tangential direction, the model consists of slider, spring and dashpot. The governing equations for a particle (i) interacting with another particle (j) are written 16,17) .... (1) ..................... (2) where u i, I i and ω i are the translational velocity, moment of inertia and angular velocity of particle i, respectively. The forces involved are the gravitational force (m i g) and interparticle forces between the particles, which include the normal force and tangential contact force, F cn,ij and F ct,ij and damping forces, F dn,ij and F dt,ij .…”

“…In the latter region, a strong percolation of iron-bearing burden into coke may change the characteristics of the coke slits, through which the ascending gas passes almost horizontally. Much work on burden distribution in blast furnaces has been reported and some papers focus on the conditions at burden descent, [1][2][3][4][5][6][7] but very few investigations have studied interparticle percolation 8) and there are practically no papers on a quantification of the percolation during burden descent. Li et al, 9) Bridgwater and Ingram, 10) Lomine and Oger 11) and Zhu et al 12) studied one or a small number of particles percolating into a static particle bed, which is quite different from the situation in an operating blast furnace.…”

Inter-particle Percolation Segregation during Burden Descent in the Blast Furnace

“…The inter-particle percolation naturally influences the permeability of the burden layers in the shaft, and, in particular, the cohesive zone where the iron-bearing phases start softening to finally melt. Even though many investigators [10][11][12][13][14][15][16] have studied burden descent in the blast furnace, inter-particle percolation has not attracted much interest.…”

Effect of DEM Parameters on the Simulated Inter-particle Percolation of Pellets into Coke during Burden Descent in the Blast Furnace

“…and shaft furnace including falling trajectory, [7][8][9][10][11][12] burden profile, [13][14][15] burden pile structure [16][17][18][19] and the descent of burden layer, 20,21) only a few studies were dedicated to the burden distribution in the MG to achieve reasonable gas flow, mainly due to the short history of the process and limited experimental techniques. [22][23][24][25][26][27][28][29] Several numerical studies on the COREX MG were conducted.…”

Experimental Study of the Effects of Operation Conditions on Burden Distribution in the COREX Melter Gasifier