In the steel industry, carbon neutral production will be achieved when iron and steel production use 100% renewable energy. Electric arc furnaces (EAFs) can be used as long as the electricity is generated from renewable energy sources. However, EAFs, which still use electricity from fossil fuels, can be a transitional medium before 100% carbon neutral production due to their lower CO2 emissions compared to blast furnaces (BF) using coke from coal. The raw materials processed with EAFs are steel scrap and direct reduced iron (DRI/sponge iron). Steel scrap or DRI (sponge iron) is directly fed into the electric arc furnace (EAF) for steelmaking, resulting in lower carbon emissions compared to the blast furnace (BF) method. CO2 emissions from the blast furnace (BF) are approximately 2.33 tons for each ton of crude iron/pig iron, while with the EAF, they are only approximately 0.66 tons for each ton of crude steel.
Currently, approximately 80% of steel scrap is recycled using EAFs. Globally, EAFs account for approximately 22% of steel production (based on scrap and sponge iron). India is the largest producer of sponge iron, or DRI. Other major producers include Iran, Russia, Mexico, and Saudi Arabia. In 2023, India produced 49.3 million tons, while Iran produced 33.4 million tons. Global sponge iron, or DRI, production reached 135.5 million tons in 2023, while pig iron reached nearly 1.5 billion tons.
And the fact is that currently, to achieve the goal of producing carbon neutral steel is still far away because the construction of blast furnaces - basic oxygen furnaces (BF -BOF) is still being carried out a lot, which should be EAF (Electric Arc Furnace) or currently only about 30% globally the iron and steel industry uses this EAF. The construction of new blast furnaces does tend to increase, in fact, by mid-2024, around 207 million tons per year of new production has been announced and around 100 million tons per year is under construction.
Sponge iron, or DRI, is produced from iron ore that has been processed to remove oxygen, resulting in a porous, sponge-like material. The process for producing DRI is called direct reduction. Direct reduction processes can be roughly divided into two categories: gas-based and coal-based. Just as coal can be used, so charcoal (biochar) can be used as the carbon source. The difference is that charcoal (biochar) is derived from wood or biomass, which are renewable resources. The process typically involves a rotary kiln where iron ore and coal or charcoal (biochar) are fed together, and the reduction reaction occurs in the solid state. India is a major producer of coal-based DRI, with production increasing substantially in recent years, as shown in the map below. Other major producers of DRI, or sponge iron, generally use natural gas-based processes.
The availability of biochar that meets specifications and sufficient volume, as well as its sustainable supply, is needed to substitute coal in DRI production. Therefore, on the upstream side, the availability of biomass raw materials from forestry waste, wood processing, agricultural waste, and agro-industrial waste is crucial for the sustainability of biochar production, including the establishment of energy plantations for this purpose. In addition to replacing the reductant or fuel from coal to charcoal (biochar) in DRI or sponge iron production, efforts to reduce carbon emissions in steel production on the DRI-EAF route also include replacing the EAF electrode from fossil-based synthetic graphite to biochar-based biographite. For more details, read here.
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