Bookmark and Share

Energy systems modelling - from industrial to global scale


Course description

The purpose of the course is to provide doctoral students with the basic insights and knowledge
needed to formulate models of common energy system problems, implement these in energy system modelling tools, and analyze, validate and interpret the results. The course will consist of lectures, seminars and project assignments; emphasis is put on the assignments to train the students to work with energy system analysis by creating simple, transparent, mathematical representations of energy system problems on their own.

The course is focused on optimization models and the stationary energy system, yet, insights and methods gained by the students should be general, and thus, applicable to other fields and sectors of the energy system.

After completion of the course the student should be able to:

•    Formulate and set up basic energy system models
o    Suggest type of formulation for specific problems
o    Select objective function to match problem and goal
o    Reflect on requirements in level of detail (e.g. temporal and geographical scope)

•    Analyze, interpret and validate model results
o    Reflect on influence of system boundaries in analysis
o    Assess and/or estimate the effects of simplifications/assumptions made
o    Distinguish between specific and general results
o    Based on the above, reflect on the robustness of results

•    Know the main differences between different energy system modelling approaches
o    Define and characterize optimization and simulation type of models and their differences
o    Describe basic energy systems modelling terminology
•    Apply basic optimization methods on problems similar to the assignments

The course is divided into six blocks (two days each except for last occasion) including lectures,
seminars and presentation/discussion of assignments. Between each block the students will work on an assignment, which is presented and discussed during the following block.


Course dates
01 September 2020 - 31 December 2020
Course organizer
Mikael Odenberger, Energy Technology Lisa Göransson, Energy Technology Fredrik Hedenus, Physical Resource Theory Niclas Mathsson, Physical Resource Theory Sonia Yeh, Physical Resource Theory Examiner Mikael Odenberger Fredrik Hedenus