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08.08.2022 06:36:25
pre061 - Renewable Energy Complementary Topics (Complete module description)
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Module label Renewable Energy Complementary Topics
Module code pre061
Credit points 6.0 KP
Workload 180 h
Institute directory Institute of Physics
Applicability of the module
  • Sustainable Renewable Energy Technologies (Master) > Mastermodule
Responsible persons
Lehnhoff, Sebastian (Authorized examiners)
Agert, Carsten (Authorized examiners)
Heinemann, Detlev (Authorized examiners)
Gütay, Levent (Authorized examiners)
Holtorf, Hans-Gerhard (Authorized examiners)
Kühn, Martin (Authorized examiners)
Lukassen, Laura (Authorized examiners)
Siebenhüner, Bernd (Authorized examiners)
Schmidt, Andreas Hermann (Authorized examiners)
Stoevesandt, Bernhard (Authorized examiners)
Aßmuth-Düster, Heidemarie (Authorized examiners)
Kobusch, Ulrich (Authorized examiners)
Tjarks, Claudia (Authorized examiners)
Skills to be acquired in this module

After completing the module students will be able to:

-        describe basic knowledge in two of a wide field of disciplines (technical, scientific, social, political, transferrable, language) as required for the implementation of renewable energy

-        critically discuss basic principles of the implementation of renewable energy
-        justify their personal decision on educational fields for their career development

Module contents

The module is designed to give students an outlook on fields which have not been covered so far in their previous lectures and specialization modules.  The content from the fields of technical, scientific, social, political, transferrable, language disciplines is offered for tailoring the personal education for the planned careers. All units are 3CP units.

-        Advanced Solar Energy Meteorology (Dr. Detlev Heinemann) (Lecture ‑ 90 h workload)

-        Advanced Wind Energy Meteorology (Dr. Detlev Heinemann) (Lecture ‑ 90 h workload)

-        Photovoltaic Systems (Hans-Gerhard Holtorf PhD) (Lecture ‑ 90 h workload)

-        Physical Basics of Photovoltaics (Dr. Michael Richter) (Lecture ‑ 90 h workload)

-        Future Power Supply Systems (Prof. Dr. Carsten Agert) (Lecture ‑ 90 h workload)

-        Biomass in Developing Countries (Andreas Günther) (Lecture ‑ 90 h workload)

-        Smart Grids Lecture (Prof. Dr. Sebastian Lehnhoff) (Lecture ‑ 90 h workload)

-        Smart Grids Seminar (Prof. Dr. Sebastian Lehnhoff) (Seminar ‑ 90 h workload)

-        Fluid Dynamics II (Prof. Dr. Joachim Peinke) (Lecture ‑ 90 h workload)

-        Computational Fluid Dynamics I (Dr. Bernhard Stoevesandt) (Lecture ‑ 90 h workload)

-        Wind Physics Measurement Project (Prof. Dr. Martin Kühn, Andreas Hermann Schmidt) (Project ‑ 90 h workload)

-        Wind Energy Applications ‑ from Wind Resource to Wind Farm Operations (Dr. Hans-Peter Waldl) (Lecture ‑ 90 h workload)

-        Ecological Economics (Prof. Dr. Bernd Siebenhüner) (Lecture ‑ 90 h workload)

-        International Environmental Governance (Prof. Dr. Bernd Siebenhüner) (Lecture ‑ 90 h workload)

-        Project Management (Ulrich Kobusch) (Project ‑ 90 h workload)

-        Language Course (Heidemarie Aßmuth-Düster) (Lecture ‑ 90 h workload)

-        Conflict Management (Claudia Tjarks) (Seminar ‑ 90 h workload)

-        Working in International Teams (Claudia Tjarks) (Seminar ‑ 90 h workload)
-        German language courses

Reader's advisory
Languages of instruction German, English
Duration (semesters) 1 Semester
Module frequency
Module capacity unlimited
Modullevel / module level BC (Basiscurriculum / Base curriculum)
Modulart / typ of module Wahlpflicht / Elective
Lehr-/Lernform / Teaching/Learning method
Vorkenntnisse / Previous knowledge
Course type Comment SWS Frequency Workload of compulsory attendance
2 SuSe and WiSe 28
Seminar and exercise
2 SuSe and WiSe 28
Total time of attendance for the module 56 h
Examination Time of examination Type of examination
Final exam of module
2 Prüfungsleistungen: Das Modul ist unbenotet, jedoch müssen 2 der möglichen Kurse mindestens als ‚bestanden‘ gewertet werden um das Modul zu bestehen. Mögliche Prüfungsformen sind: Klausur (1 h), mündliche Prüfung (20 min), Referat (10 Seiten Ausarbeitung + 10 Minuten Präsentation), Hausarbeit (max. 20 Seiten), fachpraktische Übung (max. 8), Seminararbeit (max. 20 Seiten), Portfolio, Präsentation (15 min.) In Seminaren wird Aktive Teilnahme (siehe Ergänzung zu „§ 9 Abs. (6) ) gefordert..