Green Steel: Market & Technology Report
This report analyzes green steel markets, technologies, policies, and research. In 2022, global crude steel production was 1.9 gigatonnes (Gt) and contributed 5% to 7% of annual anthropogenic CO2 emissions. The average metric tonne (mt) of steel produces 1.9 mt CO2. The production of low carbon steel will depend on the availability of renewable energy, green hydrogen, and scrap. Pathways analyzed include electric arc furnaces, hydrogen reduction, and carbon capture, as well as molten oxide electrolysis, solid and gas hydrogen-rich fuels, artificial intelligence, steel substitutes, and more. 184 slides.
Companion database also included: Global policy database
This report analyzes green steel markets, technologies, policies, and research. In 2022, global crude steel production was 1.9 gigatonnes (Gt) and contributed 5% to 7% of annual anthropogenic CO2 emissions. The average metric tonne (mt) of steel produces 1.9 mt CO2. The production of low carbon steel will depend on the availability of renewable energy, green hydrogen, and scrap. Pathways analyzed include electric arc furnaces, hydrogen reduction, and carbon capture, as well as molten oxide electrolysis, solid and gas hydrogen-rich fuels, artificial intelligence, steel substitutes, and more. 184 slides.
Companion database also included: Global policy database
This report analyzes green steel markets, technologies, policies, and research. In 2022, global crude steel production was 1.9 gigatonnes (Gt) and contributed 5% to 7% of annual anthropogenic CO2 emissions. The average metric tonne (mt) of steel produces 1.9 mt CO2. The production of low carbon steel will depend on the availability of renewable energy, green hydrogen, and scrap. Pathways analyzed include electric arc furnaces, hydrogen reduction, and carbon capture, as well as molten oxide electrolysis, solid and gas hydrogen-rich fuels, artificial intelligence, steel substitutes, and more. 184 slides.
Companion database also included: Global policy database