Some Carbon-Free Technologies for Manganese Ferroalloy Production

EngRN: Production Engineering (Topic) Pub Date : 2021-09-12 DOI:10.2139/ssrn.3926069

I. Kero, H. Dalaker, Karen Sende Osen, E. Ringdalen

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Abstract

To secure a future with the development of solar and wind energy, weather-safe roads and cities around the world, we must be able to produce metals in a safe, climate-neutral and responsible way. Obviously, we must prolong the lifespan of our materials, increase the efficiency of current processes, reuse and recycle what is already available, but that may not be enough. If we are to reach the global development goals, the world will most likely need new materials, including metals. There are many possible technologies that can help cut greenhouse gas emissions from the metallurgical industry, such as biocarbon and hydrogen as reducing agents but also electrolytic and metallothermic reduction routes and combinations of these solutions. Within each of these different themes, there are many technological possibilities. The current article gives an overview of the different alternatives to carbothermic reduction, i.e., describes the solutions which could potentially remove the need for carbon entirely. The discussion focuses on the possibilities, challenges, and the current technological barriers for these technologies to be applied to ferroalloy production.

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锰铁合金生产中的一些无碳技术

为了确保未来的太阳能和风能、气候安全的道路和城市在世界各地得到发展，我们必须能够以安全、气候中和和负责任的方式生产金属。显然，我们必须延长材料的使用寿命，提高当前工艺的效率，再利用和回收现有的材料，但这可能还不够。如果我们要实现全球发展目标，世界很可能需要包括金属在内的新材料。有许多可能的技术可以帮助减少冶金工业的温室气体排放，例如生物碳和氢作为还原剂，还有电解和金属热还原途径以及这些解决方案的组合。在这些不同的主题中，有许多技术上的可能性。本文概述了碳热还原的不同替代方案，即描述了可能完全消除对碳的需求的解决方案。讨论的重点是这些技术应用于铁合金生产的可能性、挑战和目前的技术障碍。

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EngRN: Production Engineering (Topic)

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