论向氢冶金的过渡

V.Р. Russkikh, Yu.V. Khavalits
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引用次数: 0

摘要

这篇文章表明,气候变化不仅是变暖,而且是导致重大经济损失的异常自然现象(干旱、洪水、风暴、龙卷风等)。气候变暖是由地球大气中温室气体浓度增加引起的。主要任务是减少二氧化碳的排放。对旨在减少温室气体排放到大气中的《京都议定书》、《巴黎气候协定》等国际文件进行了分析。研究表明,在生铁和钢铁的生产过程中,大量的二氧化碳进入大气,提供了乌克兰和“亚速钢”钢铁厂炼钢过程中二氧化碳排放量的数据。本文对现有的钢铁生产技术进行了批判性分析,该技术效率很高,但需要大量的资金投入,燃料和能源资源,其来源是硬煤-焦炭的热处理产物,其碳以CO2的形式进入大气。考虑了许多不使用这种焦炭的炼钢方法。无焦冶金的一个方向是不熔化生产海绵铁,另一个方向是在一个阶段内获得液态金属的高温过程。测定了铁与一氧化碳、氢气的还原剂理论需要量。考虑了天然气转化和煤气化生产可再生气体的方法。介绍了Metinvest集团管理层在考虑环境要求的情况下制定冶金生产长期技术战略的计划
本文章由计算机程序翻译,如有差异,请以英文原文为准。
On transition to hydrogen metallurgy
The article shows that climate change is not only warming, but also extraordinary natural phenomena (droughts, floods, storms, tornadoes etc), which lead to significant economic damage. Climate warming is caused by increasing concentrations of greenhouse gases in the earth's atmosphere. The main task is to reduce carbon dioxide emissions. An analysis has been carried out of international documents such as the Kyoto Protocol, the Paris Climate Agreement, aimed at reducing greenhouse gas emissions into the atmosphere. It is shown that a significant amount of CO2 enters the atmosphere during the production of pig iron and steel, the data on the amount of carbon dioxide emissions from steel smelting in Ukraine and at «Azovsteel» iron and steel works have been provided. The article contains a critical analysis of the existing steel production technology, which is highly efficient but requires significant capital investment, fuel and energy resources, the source of which is the product of heat treatment of hard coal – coke, its carbon in the form of CO2 entering the atmosphere. Numerous proposed methods of steel production without the use of this coke are considered. One of the directions was the production of sponge iron without melting, another direction of coke-free metallurgy was high-temperature processes of obtaining liquid metal, that are carried out in one stage. The theoretically required amount of reducing agent at of iron with carbon monoxide and hydrogen has been determined. Methods of producing renewable gas by conversion of natural gas and gasification of coal are considered. The plans of the Metinvest Group management to develop a long-term technological strategy for metallurgical production taking into account environmental requirements are presented
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