Circored direct reduction

Circored by SMS group is a breakthrough in sustainable steelmaking, offering a 100% hydrogen-based direct reduction process for fine iron ore. Unlike traditional blast furnace route or shaft furnace direct reduction, Circored eliminates the need for costly and energy-intensive pelletizing, using a fluidized bed system to process ore fines (0.1–2.0 mm, and up to 6 mm depending on ore properties). The process features a two-stage reactor: a circulating fluidized bed (CFB) for fast pre-reduction up to 80%, followed by a bubbling fluidized bed (FB) for final reduction above 95% metallization—all at temperatures below 700°C, which prevents sticking and ensures easy process control.
Circored’s flexibility allows for direct feeding of DRI or HBI to electric arc furnaces, maximizing energy efficiency. For ultrafine ores, a patented microgranulation process enables their use without additional heat-hardening. The process can also be combined with electric smelting for low-grade ores, removing impurities via slag and supporting further refining.
Compared to conventional BF/BOF steelmaking, Circored drastically reduces CO₂ emissions (down to ~0.2 t CO₂/t steel with green hydrogen and electricity), and is cost-competitive due to the omission of pelletizing and lower CO₂ taxes. The process has been proven in an industrial-scale plant, producing over 300,000 tons of high-quality HBI. Circored by SMS  is ready for commercial deployment, enabling steelmakers to meet stringent decarbonization targets and ESG goals with a reliable, scalable, and future-proof technology.

Circored by SMS group is a pioneering solution for sustainable steelmaking from low-grade iron ores. The process addresses a critical challenge: only about 4% of global iron ore resources are high-grade and suitable for direct reduction, while the remaining 96% are low-grade ores typically processed via carbon-intensive blast furnaces. Circored’s simplified one-stage process uses pure hydrogen in a circulating fluidized bed (CFB) reactor to pre-reduce fine ores (typically 0.1–2 mm, up to 6 mm with microgranulation) to 75–85% metallization at 630–730°C. The resulting pre-reduced Iron with  75–85% metallization is ideal for electric smelting furnaces (ESF), where final reduction, slag removal, and carburization occur.
This approach offers several advantages: it eliminates the need for pelletizing, reduces CAPEX and OPEX, and allows for flexible energy integration—including renewable electricity for heating. The process is highly efficient, with hydrogen consumption of 40–50 kg/t DRI and thermal energy demand of 0.45–0.65 MWth·h/t DRI. CO₂ emissions can be reduced to near zero with full electrification and green hydrogen.
Circored’s modularity supports both transitional and final green steelmaking pathways. In the short term, pre-reduced iron can be injected into blast furnaces or used in smelting reduction processes, lowering coke consumption and emissions. In the long term, the Circored+ESF route enables fully fossil-free steelmaking, utilizing abundant low-grade ores and supporting a circular, climate-neutral industry. The process is validated by pilot plant trials and is ready for industrial deployment, making it a cornerstone of the roadmap to green steel.