高炉炼铁过程包括多种同时发生的物理变化和化学反应,且多种多相物质共存且相互作用。高炉内部现象的研究对控制和优化高炉工艺过程具有重要的意义。涉及到计算流体、热平衡、化学动力学、传热、传质等多方面理论,建立炉内相间的化学反应模型,完成高炉炼铁复杂过程整体二维动态模型。成功地预测出高炉内部化学反应情况、复杂的运动过程及固相气相流体的温度分布。并对数据进行可视化处理,成功再现高炉内部状况。 Blast furnace ironmaking process includes a variety of simultaneous physical changes and chemical reactions, and a variety of multi-phase material co-exist and interact. The study of the internal phenomenon of blast furnace has important significance for controlling and optimizing blast furnace process. Involving computational fluid, heat balance, chemical kinetics, heat transfer, mass transfer and other aspects of the theory, the establishment of furnace chemical reaction between the phase model to complete the complex two-dimensional dynamic model of the complex process of blast furnace ironmaking. Successfully predicted the chemical reaction inside the blast furnace, the complex movement process and the temperature distribution of the solid-phase gas-phase fluid. Visualize the data and successfully reproduce the internal condition of the blast furnace.