Influence of the conditions of internal heat exchange on the process of thermal decomposition of carbonates in iron ore raw materials

IF 0.6 Q4 METALLURGY & METALLURGICAL ENGINEERING

CIS Iron and Steel Review Pub Date : 2022-12-22 DOI:10.17580/cisisr.2022.02.01

V. Bobkov, M. Dli, Y. Rubin

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引用次数: 1

Abstract

This work considers influence of heating rate of iron ore raw materials on chemical and metallurgical processes of thermal dissociation of carbonates, which occur during its high-temperature roasting. The research was conducted for the temperature ranges of the existing roasting and sintering machines, taking into account macro-kinetics of calcination processes. Substantial influence of heating rate of iron ore samples on kinetics of thermal decomposition of carbonates was revealed. The cause of the effect of internal heat exchange conditions in reacting iron ore sample on macro-kinetics of dissociation reaction for carbonates was substantiated scientifically. Influence of non-isothermal properties on precision of thermal analytical investigations, which were conducted using the methods of non-isothermal kinetics with different heating rates of iron ore samples, was studied. The authors suggested the mathematical model, which allows to take into account wide range of variations of the parameters in kinetic equations and volumetric thermal and chemical-metallurgical dissociation processes for carbonates. A series of calculating experiments, aimed on reveal of the relationship between heating rate of iron ore samples and evolution of concentration fields, transformation rates and temperature gradients, was carried out using the suggested model. The obtained results can be used for development of the optimal operating conditions for sintering and roasting machines, which propose optimization of heat treatment processes for iron ore preparation, owing to intensification of heat and mass exchange processes during high-temperature roasting. These conditions are considered as optimal from the point of view of power-and resource efficiency. Forming of the above-mentioned conditions allows to decrease fuel and power expenses for thermal preparation of raw materials at metallurgical production facilities, as well as to lower total economical production charges due to use of thermal decomposition of carbonates

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内热交换条件对铁矿石原料中碳酸盐热分解过程的影响

本文研究了铁矿石原料升温速率对碳酸盐在高温焙烧过程中发生的化学和冶金热解过程的影响。在考虑煅烧过程宏观动力学的情况下，对现有的焙烧和烧结机的温度范围进行了研究。铁矿样升温速率对碳酸盐热分解动力学有实质性影响。科学地证实了铁矿石试样内部换热条件对碳酸盐解离反应宏观动力学影响的原因。采用不同升温速率的非等温动力学方法对铁矿样品进行了热分析研究，研究了非等温性质对分析精度的影响。作者提出了一种数学模型，该模型可以考虑碳酸盐的动力学方程和体积热解离过程以及化学-冶金解离过程中参数的广泛变化。利用该模型进行了一系列计算实验，揭示了铁矿样升温速率与浓度场演化、相变速率和温度梯度之间的关系。所得结果可用于开发烧结和焙烧机的最佳操作条件，从而优化铁矿石制备的热处理工艺，因为高温焙烧过程中热量和质量交换过程加剧。从功率和资源效率的角度来看，这些条件被认为是最优的。上述条件的形成可以减少冶金生产设施中用于原料热制备的燃料和电力费用，也可以降低由于使用碳酸盐热分解而产生的总经济生产费用

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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来源期刊

CIS Iron and Steel Review METALLURGY & METALLURGICAL ENGINEERING-

CiteScore

2.50

自引率

12.50%

发文量

期刊介绍： “CIS Iron and Steel Review” is the only Russian metallurgical scientific-technical journal in English, publishing materials about whole spectrum of the problems, innovations and news of foreign iron and steel industry. The mission of this edition is to make foreign specialists aware about scientific and technical researches and development in iron and steel industry in the former USSR countries.