竖炉和流化床炼铁工艺中的粘结现象:以涂层材料的影响为重点的综合评述

Rou Wang, Suneeti Purohit, Khadijeh Paymooni, Tom Honeyands
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引用次数: 0

摘要

生产直接还原铁(DRI),特别是使用绿色氢气生产直接还原铁(DRI),是钢铁工业实现脱碳的关键途径。然而,直接还原铁生产过程中的粘连倾向造成了严重的操作问题,并限制了产量。在铁矿石表面涂覆惰性材料可以起到屏障的作用,有效防止新形成的铁表面之间的粘结,并能干扰铁须的形成。然而,涂层的原理尚未得到系统研究。本综述涉及竖炉和基于流化床的气态 DRI 生产中的粘附机理。还总结了影响还原动力学和形态的因素,包括矿石的物理和化学性质、球团压制条件和还原条件。了解这些因素与形态变化之间的关系对于消除 DRI 的粘结问题至关重要。本研究的结果表明,使用惰性添加剂(如金属氧化物)涂覆可成功防止竖炉和流化床工艺中的粘结。添加剂和涂层方法的类型、应用涂层的还原阶段以及还原温度都会极大地影响涂层性能。鉴于需要进一步改进涂层性能(方法、时间安排和更便宜的替代品)以进一步降低 DRI 技术的风险,我们还对前景进行了讨论。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Sticking in Shaft Furnace and Fluidized Bed Ironmaking Processes: A Comprehensive Review Focusing on the Effect of Coating Materials

Sticking in Shaft Furnace and Fluidized Bed Ironmaking Processes: A Comprehensive Review Focusing on the Effect of Coating Materials

Production of direct reduced iron (DRI), particularly with green hydrogen, is a key pathway to the decarbonization of the iron and steel industry. However, the sticking tendency during the production of DRI creates serious operational issues and limits production outputs. Coating inert materials on the surface of iron ores can act as a barrier to effectively prevent the bonding between newly formed iron surfaces, and can interfere with the formation of iron whiskers. However, the principle of coating has not been systematically studied. This review covers the mechanism of sticking in both shaft furnaces and fluidized bed-based gaseous DRI production. The factors that influence the reduction kinetics and morphology, including physical and chemical ore properties, pellet induration conditions, and reduction conditions are summarized as well. Understanding the relationship between these factors and morphology change is critical to eliminating the sticking issues of DRI. Findings from this study suggest that coating with inert additives (e.g., metal oxides) can successfully prevent sticking in both shaft furnaces and fluidized bed processes. The types of additives and coating methods, the stage of reduction where the coating is applied, and reduction temperature will dramatically affect the coating performance. The outlook is discussed as well given the need for further work to improve the performance of coating (methods, timing, and cheaper alternatives), to further de-risk DRI technologies.

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