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Influence of Lump Ore Ratio and Shapes on the Particle Flow Behavior Inside the Direct Reduction Shaft Furnace by Discrete Element Modeling Model

Haotian Liao, Yanbing Zong, Kejiang Li, Yushan Bu, Zhisheng Bi, Chunhe Jiang, Zhengjian Liu, Jianliang Zhang

2022steel research international14 citationsDOI

Abstract

In recent years, with the attention given to hydrogen reduction‐related technologies, the parameter indicators of direct reduction in the shaft furnace have gained importance. Herein, the numerical simulation of the particle flow field in the shaft furnace is investigated with the help of discrete element method (DEM) model. In contrast to the subregional modeling and the single particle shape study of the previous studies, this study innovatively uses the real shape of the particles and the overall structure of the vertical furnace for modeling. The transient characteristics of solid particle flow under ten lump ore ratios and three shapes are considered. The results show that the mass fraction and the shape of lump ore have little effect on the particle falling speed, but have a significant effect on the particle segregation behavior. In addition, the void ratio responds to the permeability condition in the furnace, which is also influenced by the lump ore proportion and shape.

Topics & Concepts

Discrete element methodMechanicsBlast furnaceReduction (mathematics)Particle (ecology)Materials scienceFlow (mathematics)MetallurgyFinite element methodEngineeringStructural engineeringMathematicsGeometryGeologyPhysicsOceanographyIron and Steelmaking ProcessesMineral Processing and GrindingMetallurgical Processes and Thermodynamics
Influence of Lump Ore Ratio and Shapes on the Particle Flow Behavior Inside the Direct Reduction Shaft Furnace by Discrete Element Modeling Model | Litcius