Development of Advanced Blast Furnace Simulation Model Based on Discrete Element Method

机译：基于离散元法的高级高炉仿真模型的开发

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In Japan, blast furnace operating is currently aiming at low reducing agent to decrease carbon dioxide emission from steel works. Moreover, the inner volume of the blast furnace has been frequently enlarged over 5000m3 at the relining. In such a condition, discontinuous and instable phenomena in furnace have been actualized. The precise control of blast furnace operation is required to attain the smooth operation. Numerical simulation is the effective method which helps to understand the in-furnace phenomena directly. In this paper, analysis of solid motion in the total blast furnace model carried out by discrete element method (DEM). The mechanism of various discontinuous phenomena can be simulated by this model on the basis of the physical parameters optimized for blast furnace.

机译：在日本，高炉操作目前针对低还原剂，以降低钢铁工程的二氧化碳排放。此外，高炉的内部容积经常在缩放时增大超过5000m 3。在这种情况下，炉中的不连续和不稳定的现象已经实现。需要精确控制高炉操作以实现平滑运行。数值模拟是有效的方法，有助于了解炉内现象。本文采用了离散元法（DEM）进行的全高炉模型中的实体运动分析。该模型可以基于针对高炉优化的物理参数来模拟各种不连续现象的机制。

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《International congress on the science and technology of ironmaking》|2009年||共5页
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作者
Shungo Natsui; Shigeru Ueda; Fan Zhen-yun; Junya Kano; Hiroshi Nogami; Ryo Inoue; Tatsuro Ariyama;
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正文语种
中图分类铁合金冶炼;
关键词
iron making; blast furnace; mathematical model; discontinuous phenomena; discrete element method;

机译：铁制造;高炉;数学模型;不连续现象;离散元素法;

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专利

1. Recent Progress on Advanced Blast Furnace Mathematical Models Based on Discrete Method [J] . Tatsuro ARIYAMA, Shungo NATSUI, Tatsuya KON, ISIJ international . 2014,第7期

机译：基于离散方法的高炉高炉数学模型的最新进展
2. Recent Progress on Advanced Blast Furnace Mathematical Models Based on Discrete Method [J] . Tatsuro Ariyama, Shungo Natsui, Tatsuya Kon, ISIJ international . 2014,第7期

机译：基于离散方法的高级高炉数学模型的最新进展
3. A Transient Discrete Element Method-Based Virtual Experimental Blast Furnace Model [J] . Hou Qinfu, Dianyu E., Kuang Shibo, Steel Research International . 2020,第8期

机译：基于瞬态离散元法的虚拟实验高炉模型
4. Development of Advanced Blast Furnace Simulation Model Based on Discrete Element Method [C] . Shungo Natsui, Shigeru Ueda, Fan Zhen-yun, International congress on the science and technology of ironmaking;ICSTI'09 . 2009

机译：基于离散元的高级高炉模拟模型的开发
5. Constitutive modeling of dense granular flow based on discrete element method simulations. [D] . Vidyapati. 2012

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6. Temperature Measurement Method for Blast Furnace Molten Iron Based on Infrared Thermography and Temperature Reduction Model [O] . Dong Pan, Zhaohui Jiang, Zhipeng Chen, 2018

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7. A Transient Discrete Element Method‐Based Virtual Experimental Blast Furnace Model [O] . Qinfu Hou, Dianyu E, Shibo Kuang, 2020

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8. Sensitivity of Particle Size in Discrete Element Method to Particle Gas Method (DEM_PGM) Coupling in Underbody Blast Simulations. [R] . Babu, V., Kulkarni, K., Kankanalapalli, S., 2016

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Development of Advanced Blast Furnace Simulation Model Based on Discrete Element Method

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