Capturing the non‐spherical shape of granular media and its trickle flow characteristics using fully‐Lagrangian method

Abstract: We performed a numerical analysis for simulating granular media structures containing non‐spherical elements and the liquid trickle flow characteristics of such structures. Fully‐Lagrangian numerical simulation methods can track all motion information for solid or liquid elements at each point in time. We introduced suitable compressibility to moving particle semi‐implicit (MPS) and performed individual packing behavior calculations for non‐spherical elements, based on discrete element method (DEM) with expand… Show more

“…On the other hand, recent numerical analyses by the Lagrangian approach, which can track moving calculation points, has been adopted for multi-fluid physics problems in a high-temperature metallurgical process with a complicated interface. 11,[27][28][29][30][31][32][33] The advantage of this method is the explicit tracking of time-varying fluid interfaces, which is difficult to observe experimentally. The smoothed particle hydrodynamics (SPH) method, which discretizes a continuous fluid phase by moving particles, is suitable for the analysis of interfacial flow, even for the large number of dispersed liquid phase.…”

Detailed Modeling of Melt Dripping in Coke Bed by DEM – SPH

“…On the other hand, recent numerical analyses by the Lagrangian approach, which can track moving calculation points, has been adopted for multi-fluid physics problems in a high-temperature metallurgical process with a complicated interface. 11,[27][28][29][30][31][32][33] The advantage of this method is the explicit tracking of time-varying fluid interfaces, which is difficult to observe experimentally. The smoothed particle hydrodynamics (SPH) method, which discretizes a continuous fluid phase by moving particles, is suitable for the analysis of interfacial flow, even for the large number of dispersed liquid phase.…”

Detailed Modeling of Melt Dripping in Coke Bed by DEM – SPH

“…Kon et al proposed a liquid flow model using the MPS method, in which wetting and interaction with the solid phase are considered by setting packed particles comprising quasi‐particles. Natsui et al introduced suitable compressibility to MPS to enable the calculation of continuous changes in pressure, and on this basis, coupled the model with DEM which considers different shaped particles. Such models have been used to better understand the liquid flow in the dripping zone, for example, the variation of liquid static holdup in correspondence with different dispersing or coalescing behaviors .…”

“…Such models have been used to better understand the liquid flow in the dripping zone, for example, the variation of liquid static holdup in correspondence with different dispersing or coalescing behaviors . Interestingly, the recent study of Natsui et al demonstrated that the particle shape changes the liquid passage velocity and holdup amount, as shown in Figure . The MPS simulations, although attractive, were currently performed only at a small scale as they are computationally demanding.…”

“…Calculated shape change in liquid interface progressing through a granular medium constituted of: a) cubic‐shaped (case A), b) plate‐shaped (case B), and c) rod‐shaped (case C) elements over time …”

“…Also, considerable model developments based on either discrete or continuum approach have been made recently. These include, for example, the continuum modeling of layered structures of ore and coke and their impacts on CZ behaviors and global BF performance and three‐dimensional (3D) multiphase flow and thermochemical characteristics of BF processes, the discrete simulation of cohesive zone, liquid trickling flow in the dripping zone and coupled flow, heat and mass transfer, as well as the development of large‐scale simulation capability, and multi‐scale modeling strategy …”

Review on Modeling and Simulation of Blast Furnace

Detailed modelling of packed-bed gas clogging due to thermal-softening of iron ore by Eulerian–Lagrangian approach