This course introduces the fundamentals of energy system modeling for the analysis and the optimization of the energy system design and operations.
Learning objective
At the end of this course, students will be able to: - define and quantify the key performance indicators of sustainable energy systems; - select and apply appropriate models for conversion, storage and transport of energy; - develop mathematical models for the analysis, design and operations of multi-energy systems and solve them with appropriate mathematical tools; - select and apply methodologies for the uncertainty analysis on energy systems models; - apply the acquired knowledge to tackle the challenges of the energy transition.
In the course "Introduction to Modeling and Optimization of Sustainable Energy Systems", the competencies of process understanding, system understanding, modeling, concept development, data analysis & interpretation and measurement methods are taught, applied and examined. Programming is applied.
Content
The global energy transition; Key performance indicators of sustainable energy systems; Optimization models; Heat integration and heat exchanger networks; Life-cycle assessment; Models for conversion, storage and transport technologies; Multi-energy systems; Design, operations and analysis of energy systems; Uncertainties in energy system modeling.
Lecture notes
Lecture slides and supplementary documentation will be available online. Reference to appropriate book chapters and scientific papers will be provided.
Performance assessment
Performance assessment information (valid until the course unit is held again)