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In order to simulate the hot metal flow and erosion behavior within blast furnace hearth, a 3D system simulation platform is established, which would be a great help to analyze all kinds of working condition due to arbitrary setting parameters about hearth structure and material properties. With the flexible parameterized control mechanism, the distribution about velocity field, pressure field, and temperature field can be simulated in this platform. The simulation results, which are mainly revolving round seven work conditions, show that the erosion degree about blast furnace hearth could be flexible and conveniently analyzed.
}, issn = {1746-7659}, doi = {https://doi.org/}, url = {http://global-sci.org/intro/article_detail/jics/22360.html} }In order to simulate the hot metal flow and erosion behavior within blast furnace hearth, a 3D system simulation platform is established, which would be a great help to analyze all kinds of working condition due to arbitrary setting parameters about hearth structure and material properties. With the flexible parameterized control mechanism, the distribution about velocity field, pressure field, and temperature field can be simulated in this platform. The simulation results, which are mainly revolving round seven work conditions, show that the erosion degree about blast furnace hearth could be flexible and conveniently analyzed.