Development of a technology for effective use of subgrain in the production process of high-grade silicon and iron alloys (FeSi) along with providing zero-emission energy resource (RES) for this process.
Crosimax – an innovative alloy of silicon with chromium, iron, aluminium and calcium, as a versatile and effective reducing agent of increased deoxidising potential towards Cr2O3 – to be applied in manufacturing of low and ultra-low carbon grades of ferro-chromium.
Maximisation of energy efficiency in a six-electrode electric arc resistance furnace for high-content silicon alloys by developing innovative solutions, especially for the furnace power supply system.
Audit of the technological process of the IV furnace building, internal heating network and buildings, as well as reconstruction and modernisation of the heating network
Development and implementation of a technology of electricity production from post-production gases heat
Development and implementation of the innovative, integrated steering algorithm for the high-content silicon alloys production process in electric, arc-resistance furnaces of the furnace building IV on the basis of on holistic control system of process parameters.
Refined, ultra-pure ferro-silico-chromium with controlled content of carbon, nitrogen, oxygen and hydrogen
Development of an innovative production technology for production of ferroalloys with silicon and aluminium on the basis of industrial wastes, especially from mining industry
Development of an innovative ferrosilicon production technology of the silicon content min. 75% and ultra-low content of carbon, max. 0.02%
