The new 185-tons EAF will be built within an already defined brownfield area. With a transformer capacity of 300 MVA, it will be one of the strongest EAF in the world. Additionally, it will process a flexible mix of up to 100 percent scrap or 80 percent Cold Direct Reduced Iron (CDRI)/ Hot Briquetted Iron (HBI) and 20 percent scrap.
Featuring 9.3-meter shell-diameter — the largest EAF ever built by SMS group — it will have an annual capacity of 1.9 million tons of liquid steel.
With phase I starting in October 2024 and the first heat expected in September 2028, the plant will produce various steel grades, including bearing steel, free-cutting steel, and spring steel.
The EAF will be equipped with Condoor, SMS’ enhanced slag door, ensuring significant advantages in terms of safety, productivity, energy savings and environmental impact. Condoor enables automatic operation, reduces power-off time, ensures a clean slag door sill, saves energy and lowers NOx emissions with a sealed shell. Additionally, it optimizes slag residence time, improving flux and raw material use while reducing electrode, carbon and lime consumption, thus lowering CO2 footprint.
Part of the scope is also a material handling system with bins designed for specific production grades, a liquid steel handling, refractory repair area, a water treatment plant, compressed air piping, two fume treatment plants, energy recovery and electric/automation systems, noise insulation, hybrid technology cars for scrap bucket movements, auxiliary cranes as well as bay and field piping.
The EAF will feature SMS group’s X-Pact automation, including X-Pact Sense for leakage detection and X-Pact Autotap for safe and automated tapping. Genius CM will be implemented for predictive maintenance, enhancing operational efficiency and safety. Additional innovations include SafEBT-clean for automatic cleaning of the Eccentric Bottom Tapping (EBT) channel to ensure the highest rate of spontaneous EBT opening, SafEBT-fill for automatic sand filling, temperature taking and exchange of probes.