铝二次冶金渣等离子体碳热还原工艺的开发与研究

G. Jandieri, D. Sakhvadze, I. Janelidze, O. Mikadze
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摘要

在对含铝工业废料中铝的火法回收/提取问题的现状和发展前景进行批判性分析的基础上,论证了用创新的等离子体碳热工艺和炉-反应器取代传统的电碳热工艺和熔化工艺单元的必要性,并论证了在金属和金属氧化物组分熔化过程中进行反向加料和回收气化的可能性。在此基础上,提出了一种新的等离子弧炉反应器熔炼工艺方案,解决了用特殊的空心双壳石墨阴极与反应区分离气体循环供应系统相连接的问题。所提出的技术方案在使用高活性液体和气体试剂如碳化钙(CaC2)和甲烷(CH4)等含碳还原剂方面也有所不同。叙述了还原过程的化学性质的主要特点。结果表明,用氧化电石和天然气(甲烷)代替传统焦炭,氧化铝(Al)的回收率(29-34%)和与之伴生的二氧化硅(SiO2)、赤铁矿(Fe2O3)的回收率提高到80-99%。比功耗降低35-40%,目标元素损失减少90-95%,温室二氧化碳排放量减少80%,二氧化碳被一种非常有价值的可回收合成气- CO-H2所取代。通过在炉-反应器中分别加料石英岩和轧钢垢,熔炼出Fe-Si-Al-Ca复合合金结合体,组分比例为:1:[1.3-2]:[1.3-1.2]:[0.9-1.25]。随着世界上积累的二次铝倾倒渣(400万吨/年)等离子体碳热法还原铝进入工业实践,将有可能使高达100 - 150万吨/年的铝重新进入生产加工周期。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Development and investigation of the technological process of plasma carbothermal reduction of slag from secondary metallurgy of aluminum
Based on a critical analysis of the current state and prospects of development of the problem of pyrometallurgical recovery/extraction of aluminum from aluminum-bearing industrial waste, the need to replace traditional, electrocarbonothermic processes and melting process units with innovative, plasma carbothermal processes and furnace-reactors, with the possibility of reverse feeding and recovery of gasified during melting metal and metal oxide components is substantiated. On the basis of this analysis a new technological scheme of smelting with a new design of plasma-arc furnace-reactor, which provides a solution to the problem using a special hollow double-shell graphite cathode connected to the system of circulating supply of gases separated from the reaction zone, was developed and presented. The proposed technological scheme also differs in the use of such highly active liquid and gaseous reagents as carbon-containing reducing agents as calcium carbide (CaC2) and methane (CH4). The main features of chemism of reducing processes are described. It is shown that by replacing traditional coke with anodized calcium carbide and natural gas (methane) the recovery rate of aluminum oxide (Al 29-34%) and silica (SiO2) and hematite (Fe2O3) present with it increases to 80-99%. Specific power consumption is reduced by 35-40%, the 90-95% reduction in the loss of target elements, the 80% reduction in the emission of greenhouse carbon dioxide, which is replaced by a very valuable recyclable synthesis gas - CO-H2. By additionally feeding separate portions of quartzite and steel-rolling scale in the furnace-reactor, a complex alloy-ligature of Fe-Si-Al-Ca system is melted, with the ratio of components: 1:[1.3-2]:[1.3-1.2]:[0.9-1.25]. With the introduction into industrial practice of the plasma carbothermal process of aluminum reduction from secondary aluminum dumping slags accumulated in the world (4 million tons/year), it will be possible to return up to 1-1.5 million tons/year of aluminum to the production processing cycle.
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