Electric Arc Furnaces: Key to Net Zero Steel Production

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  • Reduction in CO2 emissions: On average, EAFs emit around 0.4 tons of CO2 per ton of steel produced, compared to the 2.2 tons emitted by blast furnaces. This significant reduction positions EAFs as an ideal solution for lowering the carbon footprint of the steel industry.
  • Recycling of steel scrap: EAFs’ reliance on scrap material reduces the demand for virgin iron ore, leading to less mining and environmental degradation. Recycling steel also saves considerable energy — approximately 75% less than producing iron ore steel.

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  • Decarbonizing electricity grids: Governments and industries must prioritize decarbonizing electricity grids. A fully decarbonized energy supply for EAFs would result in near-zero emissions for this method of steelmaking.
  • Hydrogen-powered EAFs: Looking beyond renewable electricity, there is also the potential for hydrogen-powered EAFs. Hydrogen, if produced from renewable sources, can serve as a clean fuel for heating in the steel production process, further reducing dependency on fossil fuels and lowering emissions.
  • Sweden’s HYBRIT project: The groundbreaking HYBRIT project in Sweden aims to produce fossil-free steel by replacing coal in traditional steelmaking with hydrogen, combining the use of both EAFs and direct reduction technology. Such projects are indicative of the industry’s long-term strategy to pivot toward greener steel production.
  • China’s EAF transformation: China, the largest steel producer in the world, has begun shifting its focus toward EAFs as part of its carbon reduction strategy. Currently, EAFs account for about 15% of China’s steel production, but this is expected to increase as the country moves away from coal-intensive blast furnaces in response to its net-zero pledge.
  • Scrap availability: The global steel industry must ensure a steady supply of quality scrap steel for EAFs. This requires better recycling infrastructure and the development of scrap trading markets in regions where it is currently limited.
  • Technological innovations: Continued innovation in refining techniques will be essential to improve the quality of steel from EAFs, particularly for high-grade steel used in automotive and construction industries. Investments in advanced sensors, machine learning for scrap sorting, and purification methods will be key to overcoming these challenges.

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