This course introduces the fundamentals of carbon capture, utilization, and storage and related interdependencies between technosphere, ecosphere, and sociosphere. Topics covered: origin, production, processing, and economics of carbon-based resources; climate change in science & policies; CC(U)S systems; CO2 transport & storage; life-cycle assessment; net-zero emissions; CO2 removal options.

This course introduces the fundamentals of energy system modeling for the analysis and the optimization of the energy system design and operations.

The course covers the key concepts and aspects involved in: (i) the economics of renewable energy and its integration in the energy system, (ii) the engineering of prominent renewable energy technologies (solar, wind, hydro, geothermal and bioenergy), and (iii) energy storage, renewable transport and renewable heating & cooling.

The course covers the key concepts and aspects involved in: (i) the economics of renewable energy and its integration in the energy system, (ii) the engineering of prominent renewable energy technologies (solar, wind, hydro, geothermal and bioenergy), and (iii) energy storage, renewable transport and renewable heating & cooling.

This course provides the tools to design separation processes for ideal and non-ideal systems, based on vapor-liquid and liquid-liquid phase equilibria and mass transfer phenomena.

This course introduces the fundamentals of sustainable heating and cooling technologies regarding thermodynamics, technology, and regulations. In addition to teaching fundamental knowledge, this course focuses on process design. In case study sessions, students solve problems related to the process design of heating and cooling technologies.

Introduction to the fundamentals of technical thermodynamics.

Introduction to the fundamentals of chemical thermodynamics and thermodynamics of mixtures.

Thermodynamics and fluid dynamics are closely interconnected and play in important role in many engineering problems. In this course, we explore the fundamentals required to solve practicable questions present in many of those problems. Furthermore, we convey skills to analyse, design and optimise technical systems for real world applications.