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Module Number:
| 14249
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| Module Title: | Control of Power-to-X, Storage and X-to-Power Systems |
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Regelung von Power-to-X, Speicher- und X-to-Power Systemen
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| Department: |
Faculty 3 - Mechanical Engineering, Electrical and Energy Systems
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| Responsible Staff Member: | -
Prof. Dr.-Ing. Schiffer, Johannes
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| Language of Teaching / Examination: | English |
| Duration: | 1 semester |
| Frequency of Offer: |
Every winter semester
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| Credits: |
6
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| Learning Outcome: | On the completion of this module, students should be able to:
- Develop, use and assess dynamic models of Power-to-X, Storage and X-to-Power Systems
- Understand core concepts from optimal control
- Design controllers to optimize the plant operation
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| Contents: | The module consists of lectures and exercises in combination with a final study project. In the module, the following topics are addressed for Power-to-X, Storage and X-to-Power Systems:
- Dynamic modular modeling
- Optimal control methods, especially model predictive control and reinforcement learning
- Optimal operation control
- Provision of ancillary services
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| Recommended Prerequisites: | None |
| Mandatory Prerequisites: | None |
| Forms of Teaching and Proportion: | -
Lecture
/ 2 Hours per Week per Semester
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Exercise
/ 1 Hours per Week per Semester
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Practical training
/ 1 Hours per Week per Semester
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Self organised studies
/ 120 Hours
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| Teaching Materials and Literature: | Will be named in the first lecture. |
| Module Examination: | Continuous Assessment (MCA) |
| Assessment Mode for Module Examination: | - Written exam, corresponding to 40% of the final mark. Duration of 80 minutes. Printed and written materials like scripts or books are allowed. For calculations, non-programmable calculators are allowed. Any other type of electronic device is NOT allowed.
- Study project, corresponding to 60% of the final mark. Each group (3-4 students) should submit a report (10-15 pages) containing their developments and outcomes of the study project.
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| Evaluation of Module Examination: | Performance Verification – graded |
| Limited Number of Participants: | None |
| Part of the Study Programme: | -
Master (research-oriented) /
Control of Renewable Energy Systems /
PO 2025
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Master (research-oriented) /
Elektrotechnik /
PO 2019
- 1. SÄ 2020
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Master (research-oriented) /
Elektrotechnik /
PO 2023
-
Master (research-oriented) /
Power Engineering /
PO 2016
- 1. SÄ 2023
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Master (research-oriented) - Double Degree /
Power Engineering /
PO 2016
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| Remarks: | |
| Module Components: | Lecture, Exercise, Project Control of Power-to-X, Storage and X-to-Power Systems |
| Components to be offered in the Current Semester: | |
