Events
Research areas
  • The kinetics of the chemical reactions and kinetic methods of analysis
  • Preparation and characterization of modified electrodes for:
    • electrochemical sensors / biosensors
    • electrosynthesis and electrocatalysis
  • Fundamental and applied aspects on metal electrodeposition
  • Corrosion and anti-corrosive protection
  • Electrochemical energy conversion
  • Monomolecular films of biosurfactants, the study of thin films of liquid under the action of surface tension gradients - The Marangoni effect
  • Quantum chemistry
  • Environmentally advantageous, conventional and unconventional, catalytic alternatives
  • Fundamental and applied research in the field pf electrocatalytic processes
  • Studies on the ecological processes of chemical and electrochemical depolluting of natural and waste water
  • Modeling, simulation, control and optimization of industrial chemical processes (FCCU, distillation, bioreactors, electrolysis, lime kilns, drying in ceramic industry, the calcination process, water and air pollution)
  • Control algorithms. Model-based predictive control. Applications of artificial intelligence (Neural networks, Fuzzy networks, Genetic algorithms) in chemistry and process engineering
  • Numerical methods and quantitative diagnostics for complex flows of fluids (non-invasive chronic liver disease prognosis by analyzing biological parameters and portal hydrodynamics)
  • Energy conversion systems, clean coal based technologies, renewable energy, carbon capture and storage
  • Multi-media applications in computer-aided learning (e-learning)
  • Phase equilibria
  • Intensification of transfer processes
  • Study of solid-fluid systems for non-catalytic processes
  • Design of chemical plants
  • Separation of heterogeneous systems (filtration, adsorption, sedimentation, extraction, crystallization and absorption) with applications in environmental processes (air purification and water treatment)
  • Rheological studies for Newtonian and non-Newtonian fluids
  • Clay minerals - raw materials for ceramics
  • Electrical ceramics
  • Adsorption barriers for heavy metals
  • Micro and nanostructures of raw materials and products
  • Glazes and thin layers, glasses for low temperatures
  • Dry mortar, hard concrete and lightweight concrete
  • Light-weight aggregates, light-weight aggregates from waste clay
  • Rheology of disperse systems
  • Nanomaterials
  • Experimental (Electrical resistive tensometry; fotoelasticimetry) and analytical study of stress and strain states in resistant parts. Numerical methods. Boundary elements method. The finite elements method
  • Analytical, probabilistic and artificial intelligence methods for process equipment. Structural safety
  • Risk assessment and safety of industrial systems by probabilistic methods and artificial intelligence