Modul
Energy Economics and Technology [M-WIWI-101452]
Credits
9Recurrence
Jedes SemesterDuration
1 SemesterLanguage
German/EnglishLevel
4Version
5Responsible
Organisation
- KIT-Fakultät für Wirtschaftswissenschaften
Part of
Bricks
Identifier | Name | LP |
---|---|---|
T-WIWI-102793 | Efficient Energy Systems and Electric Mobility | 3.5 |
T-WIWI-107464 | Smart Energy Infrastructure | 5.5 |
T-WIWI-102650 | Energy and Environment | 3.5 |
T-WIWI-113073 | Machine Learning and Optimization in Energy Systems | 3.5 |
T-WIWI-102830 | Energy Systems Analysis | 3 |
T-WIWI-102695 | Heat Economy | 3.5 |
Competence Certificate
The assessment is carried out as partial written exams (according to Section 4(2), 1 of the examination regulation) of the single courses of this module, whose sum of credits must meet the minimum requirement of credits of this module. The examinations take place every semester. Re-examinations are offered at every ordinary examination date.The assessment procedures are described for each course of the module seperately.
The overall grade of the module is the average of the grades for each course weighted by the credits and truncated after the first decimal.
Competence Goal
The student
- gains detailed knowledge about present and future energy supply technologies (focus on final energy carriers electricity and heat),
- knows the techno-economic characteristics of plants for energy provision, for energy transport as well as for energy distribution and demand,
- is able to assess the environmental impact of these technologies.
Prerequisites
None
Content
Heat Economy: district heating, heating technologies, reduction of heat demand, statutory provisions
Energy Systems Analysis: Interdependencies in energy economics, energy systems modelling approaches in energy economics
Energy and Environment: emission factors, emission reduction measures, environmental impact
Efficient Energy Systems and Electric Mobility: concepts and current trends in energy efficiency, Overview of and economical, ecological and social impacts through electric mobility
Workload
The total workload for this module is approximately 270 hours. For further information see German version.