Pre-Heating Manganese Ore in a Pilot-Scale Rotary Kiln

N. Julia, Astrid Hecquet, G. Nussbaum, S. Blancher, A. Amalric
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Abstract

The production of high carbon ferromanganese alloys is traditionally carried out by smelting oxidized ores in electric furnaces using carbonaceous material as reducing agent, generating CO2 emissions which contribute to climate change. The actual carbon consumption is not optimal, there is an overconsumption linked to an incomplete decomposition and prereduction of manganese oxides inside the submerged arc furnace (SAF), where the reactions kinetics can be difficult to control. In the PREMA project, the considered solution consists in optimizing ores heating and pre-reduction before the SAF in a separate unit in order to reduce its electricity consumption as well as its CO2emissions. After preliminary tests in a lab scale rotary kiln have been performed, the pre-heating of raw materials in a continuous pilot scale rotary kiln was studied during a campaign at Eramet Ideas. The objective was to study the kinetics of thermal decompositions of two different Mn ores. The evolution of the ore composition was assessed with chemical analysis and by the study of the phases thanks to the XRD and Qemscan analyses.
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锰矿石中试回转窑预热
高碳锰铁合金的生产传统上是通过使用含碳材料作为还原剂在电炉中熔炼氧化矿石来进行的,产生二氧化碳排放,导致气候变化。实际的碳消耗并不是最优的,埋弧炉(SAF)内锰氧化物的不完全分解和预还原导致了过度消耗,其中反应动力学很难控制。在PREMA项目中,考虑的解决方案包括优化矿石加热和SAF之前的预还原,以减少其电力消耗和二氧化碳排放。在实验室规模的回转窑中进行了初步测试后,在Eramet Ideas的一次活动中研究了连续中试规模回转窑中原料的预热。目的是研究两种不同锰矿石的热分解动力学。通过化学分析和XRD、Qemscan等物相分析,对矿石组成的演变进行了评价。
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