Practical Implications of Using an Online Data-Driven Optimizer for Calcium-Treated Steels

Sudhanshu Kuthe, Roman Rössler, Björn Glaser
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Abstract

Calcium (Ca) additions during secondary steelmaking are a well-adopted practice to transform solid oxide non-metallic inclusions (NMIs) into globular-shaped liquid oxides. The claimed hypothesis that liquid NMIs reduce SEN clogging has been proven in the past by researchers. However, the exact quantity of Ca needed to transform the physical state of NMIs during steelmaking remains uncertain. Operators in the steel plant use a consistent quantity of Ca additions for specific steel grades, but this approach does not account for the varying physical states and evolving dynamics of NMIs characteristics in each ‘heat’. To overcome this, a study was conducted to explore the impact of varying Ca additions on the transformation and behavior of NMIs in low-alloyed Ca-treated steel grades. The aim was to establish a more reliable and responsive approach to Ca treatment, potentially leading to more effective control in preventing submerged entry nozzle (SEN) clogging. The proposed methodology involved online monitoring of NMIs state coupled with controlled variations in Ca addition, deviating from fixed quantity, to observe its effects on NMIs state transformations. Through careful analysis of collected data and the implementation of a data-driven optimizer, this study reports the practical implications of using optimal amounts of Ca during secondary steelmaking. The resulting change due to dynamic calcium silicide (CaSi)-cored wire additions and their impact on SEN clogging were evaluated. The findings reveal the significant role of optimal CaSi wire additions, leading to improved steel castability and a notable 30 pct reduction in SEN clogging tendencies. The results obtained after the implementation of the data-driven optimizer ‘ClogCalc’ have significant implications for steel manufacturers, offering new insights into enhancing Ca treatment efficiency.

Abstract Image

钙处理钢在线数据驱动优化器的实际意义
在二次炼钢过程中添加钙(Ca)是将固态氧化物非金属夹杂物(NMI)转化为球状液态氧化物的常用方法。液态非金属夹杂物可减少 SEN 堵塞的假设在过去已被研究人员证实。然而,在炼钢过程中改变 NMI 物理状态所需的 Ca 的确切数量仍不确定。炼钢厂的操作人员对特定钢种使用一致的 Ca 添加量,但这种方法并没有考虑到 NMIs 在每次 "加热 "过程中的不同物理状态和不断变化的动态特性。为了克服这一问题,我们开展了一项研究,探索不同的 Ca 添加量对低合金 Ca 处理钢种中 NMIs 的转变和行为的影响。目的是建立一种更可靠、反应更灵敏的钙处理方法,从而更有效地控制防止浸入式喷嘴(SEN)堵塞。所提议的方法包括在线监测 NMIs 状态,同时控制 Ca 添加量的变化(偏离固定数量),以观察其对 NMIs 状态变化的影响。通过对收集到的数据进行仔细分析,并采用数据驱动优化器,本研究报告了在二次炼钢过程中使用最佳钙量的实际意义。研究评估了动态硅化钙(CaSi)芯线添加所带来的变化及其对 SEN 堵塞的影响。研究结果表明,CaSi 线材的最佳添加量具有重要作用,可改善钢的可铸性,并显著减少 30% 的 SEN 堵塞倾向。实施数据驱动优化器 "ClogCalc "后获得的结果对钢铁制造商具有重要意义,为提高钙处理效率提供了新的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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