The sustainable supply of raw materials and an innovative method of testing metallurgical coal blends

Marcin Dreger, Piotr Celary, K. Więcek, Aneta Kocela-Jagiełko
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Abstract

Coke production is a strategic branch of the Polish, European and global economy. Economic growth is linked to the demand for high steel products, which is also connected to higher coke production. A sustainable supply of raw materials – like metallurgical coal – requires balanced, cost effective and environmentally friendly mining, to provide the best quality of coal and coke. There are various types of steelmaking coals mined in Poland (in the Upper Silesia Coal Basin), thus laboratory tests on extracted coals need to be undertaken in order to create safe mixtures of coals (coal blends) which will be processed in the blast furnace. With this mind a new tool – the safety calculation model – has been developed and implemented by the CLP-B Laboratory. This new approach taken by the laboratory is a multi-component analysis which assesses the possible risk associated with the transformation of coal blends during the coking process in the furnace. The new calculation model allows for the sustainable management of raw materials such as coking (steelmaking) coals – to produce the best quality of coke in safe conditions. In the new proposed formula, the parameters identified as critical ones for assessing the safety of the furnace feed, are moisture, ash and sulphur content, volatile matter, pressure expansion, dilatation, shrinkage, volume, CRI and CSR.
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原材料的可持续供应和冶金煤混合物的创新测试方法
焦炭生产是波兰、欧洲乃至全球经济的一个战略分支。经济增长与钢铁产品的需求息息相关,而钢铁产品的需求又与焦炭产量的提高息息相关。要实现原材料(如冶金煤)的可持续供应,就必须进行均衡、经济、环保的开采,以提供最佳质量的煤炭和焦炭。在波兰(上西里西亚煤炭盆地)开采的炼钢煤种类繁多,因此需要对开采出的煤炭进行实验室测试,以便生产出安全的煤炭混合物(混合煤),在高炉中进行处理。有鉴于此,CLP-B 实验室开发并实施了一种新工具--安全计算模型。实验室采用的这种新方法是一种多成分分析法,用于评估高炉炼焦过程中混合煤转化可能带来的风险。新的计算模型可以实现对炼焦(炼钢)煤等原材料的可持续管理--在安全的条件下生产出最佳质量的焦炭。在新提出的公式中,被确定为评估炼焦炉进料安全性的关键参数包括水分、灰分和硫含量、挥发物、压力膨胀、膨胀、收缩、体积、CRI 和 CSR。
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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