The offer for industry
- Numerical modelling of metallurgical processes using fluid dynamics (SiMet Laboratory)
- Simulation of flow and heat distribution of liquid metal and slag in metallurgical aggregates
- Simulation of metal melt refining
- Simulation of homogenisation processes
- Physical modelling (LSPP Laboratory)
- Physical modelling of steel flow in a continuous casting process
- Theoretical study of metallurgical processes and high temperature chemical reactions in SW HSC
- Determination of properties and interactions in the liquid metal - slag - refractory - atmosphere system
- Determination of the properties of metal-bearing materials
- Experimental study of high temperature processes
- Melting in induction furnaces with a charge weight of 10 - 100kg
- Melting in a laboratory induction furnace (temperatures above 1800°C)
- Melting in resistance furnaces with controlled atmosphere
- Determination of the melting temperature of slag
- Analysis of high-energy-intensive industry
- Energy analysis of an industrial enterprise
- Evaluating and working with Big Data files
- Analysis of European standards and predictive models of their impact on industry
- Analysis of the environmental impact of industry and decarbonisation
- Design of innovative equipment and prototypes for the metallurgical industry
- 3D print
- Training and development of the necessary skills
- Digitalization of metallurgical industry with focus on simulation of thermal processes, fluid flow in Ansys Fluent
- Digitalization of the metallurgical industry in Ansys Discovery, DesignModeler, SpaceClaim
- Combustion modelling for the digitalisation of the metallurgical industry
- Drawing basics in CATIA
- Application of HSC Chemistry thermodynamic software in the field of metallurgy digitalization