Description: The course covers the elementary parts of physical chemistry (basic concepts and quantities, state behavior, fundamentals of thermodynamics), followed by topics from the areas of phase equilibria, chemical reaction equilibria, selected parts from the area of properties and behavior of systems containing electrolytes, and a description of the speed of chemical reactions.
Description: Experiments familiarize students with the basic principles of the physical chemistry (state behaviour of gases, thermodynamics of solutions, phase equilibria, chemical reaction kinetics, termochemistry - calorimetry and electrochemistry).
Description: The course is focused on basic chemical-engineering calculations. Utilizations of equations of state and thermodynamic models which are implemented in chemical-engineering simulators are demonstrated. Theory background for calculations and basic equations are given in lectures. Computational skills are taught with the help of the Maple software.
Description: Builds on undergraduate coursework, focusing on industrially relevant topics: thermodynamics, energy storage, and green technologies.
I believe in interactive teaching where students not only learn theoretical foundations but also apply concepts through problem solving and real-world case studies. I encourage discussions, collaborative work, and integrating recent research examples, especially around sustainability and green chemical processes.