Digital Teaching
In the winter semester 2021/22 the course "[i]Renewable Energies, Energy scenarios and Climate protection[/i]" will be offered [b]exclusively in digital form[/b]. Access to all relevant documents as well as further communication about the course is provided via the Moodle platform. If you do not have automatic access to the relevant course room [i](Dashboard / WiSe 2021/22 / FB13 Bau- und Umweltingenieurwissenschaften / Renewable Energies, Energy scenarios and Climate protection 13-K3-0010-vü WiSe 2021/22)[/i], please contact your supervisor (Susanne Hanesch, s.hanesch@iwar.tu-darmstadt.de) immediately by e-mail.
To participate in the course you will need
[list]
[*]PC, laptop or tablet with internet access
[*]TU-ID with personal password
[*]Access to the Moodle course
[/list]
[b]Introduction to the procedure of the digital course[/b]
[list]
[*]In Moodle from 12.10.2021 you can find an introduction video to the procedure and organization of the course. Please watch this video before the course starts on 19.10.2021.
[*]Please also refer to the course overview with the schedule for the semester. The outline of the course can be found in both TUCaN and Moodle.
[/list]
[b]Procedure of the lecture[/b]
[list]
[*]The access data for the digital lecture room in Zoom can be found in Moodle.
[*]The PDF file with the slides of the lecture is available for download via Moodle one week in advance.
[*]Questions about the respective lecture unit will be discussed after the online lecture. Please send us your question(s) via Moodle up to one day before the digital lecture (Moodle function "Requested" for each unit).
[*]In addition, we will try to upload a recording of the lecture after each online lecture. This videocast will be available in Moodle for streaming (not for download) for two weeks.
[/list]
[b]Procedure of the exercise and the study assignment[/b]
[list]
[*]The access data for the digital exercise room in Zoom can be found in Moodle.
[*]The group selection for the processing of the study assignment is possible via Moodle from 19.10.2021 to 26.10.2021, 12:00 noon.
[*]The exercise will take place on a double session on 11.16.2021 from 08:00 to 11:30. This will be conducted in a live format alternating between frontal presentation and short breakout sessions in the selected groups. The content of the exercise is necessary for the successful completion of the course work. Therefore, we recommend attending this session.
[*]In addition to the exercise, the study assignment will be made available on Moodle, which can be worked on in groups of five from 02.11.2021. Deadline for submission of the study assignment is 08.02.2022 at 12:00 noon. The online presentation takes place from 8:00 to 10:30 on the same day.
[*]The group exchange and the processing of the study assignment will be organized by you independently. For this purpose, tools such as Zoom for group exchange (basic license available for students via TU Darmstadt) and Hessenbox for document exchange (30 GB available for students via TU Darmstadt) are at your disposal.
[*]Questions regarding the study assignment can be asked on the two individual exercise dates as well as on two additional online consultations for the study assignment. Please send us your question(s) via Moodle up to one day before the online sessions (Moodle function "Requested" study assignment). In addition to this, the Moodle forum should be used.
[/list]
[b]Note:
It is not allowed to record, distribute or publish the videocast and the online sessions or to distribute the PDF lecture slides.[/b]
Lehrinhalte
[b]Teaching content / Examination requirements:[/b]
The lecture introduces the students to system considerations of problems of the future energy supply. In the lecture the topics societal challenges, characteristics of renewable energies as well as system technical and political approaches for the development of strategies for "sustainable" energy systems will be dealt with.
0. Introduction and Administration
1. Energy Systems: Today's energy system and the role of Fossil energies
2. Climate Change and Global Warming
3. Scenario analysis and development
4. Global energy scenarios and the role of Renewables
5. Electricity: Renewables' potential and technologies (I)
6. Electricity: Renewables' potential and technologies (II)
7. Heat and Fuels: Renewables' potential and technologies
8. Life Cycle Assessment/Sustainability/Critical Raw Materials of Renewables
9. Energy Policy and Renewables (I)
10. Energy Policy and Renewables (II)
11. Energy system models
12. Demand sectors and efficiency
13. Sector coupling, transport and storage
14. Transformation of Energy systems: Example of German Energiewende
[b]Qualification goals and competences[/b]
The students are able to describe and explain the energy system as a whole with regard to its basic structure and the interaction of technological, ecological, economic and societal influencing factors.
The students are capable of analysing and evaluating current scenarios on energy demand, resource availability and impacts of the climate effect, demonstrating characteristics of important technologies for energy conversion, use and storage and interpreting goals of sustainable development.
The course enables the students to apply system-oriented methods for analysis and strategy development in the energy sector and to create science-based scenarios.
Online-Angebote
Moodle
In the winter semester 2021/22 the course "[i]Renewable Energies, Energy scenarios and Climate protection[/i]" will be offered [b]exclusively in digital form[/b]. Access to all relevant documents as well as further communication about the course is provided via the Moodle platform. If you do not have automatic access to the relevant course room [i](Dashboard / WiSe 2021/22 / FB13 Bau- und Umweltingenieurwissenschaften / Renewable Energies, Energy scenarios and Climate protection 13-K3-0010-vü WiSe 2021/22)[/i], please contact your supervisor (Susanne Hanesch, s.hanesch@iwar.tu-darmstadt.de) immediately by e-mail.
To participate in the course you will need
[list]
[*]PC, laptop or tablet with internet access
[*]TU-ID with personal password
[*]Access to the Moodle course
[/list]
[b]Introduction to the procedure of the digital course[/b]
[list]
[*]In Moodle from 12.10.2021 you can find an introduction video to the procedure and organization of the course. Please watch this video before the course starts on 19.10.2021.
[*]Please also refer to the course overview with the schedule for the semester. The outline of the course can be found in both TUCaN and Moodle.
[/list]
[b]Procedure of the lecture[/b]
[list]
[*]The access data for the digital lecture room in Zoom can be found in Moodle.
[*]The PDF file with the slides of the lecture is available for download via Moodle one week in advance.
[*]Questions about the respective lecture unit will be discussed after the online lecture. Please send us your question(s) via Moodle up to one day before the digital lecture (Moodle function "Requested" for each unit).
[*]In addition, we will try to upload a recording of the lecture after each online lecture. This videocast will be available in Moodle for streaming (not for download) for two weeks.
[/list]
[b]Procedure of the exercise and the study assignment[/b]
[list]
[*]The access data for the digital exercise room in Zoom can be found in Moodle.
[*]The group selection for the processing of the study assignment is possible via Moodle from 19.10.2021 to 26.10.2021, 12:00 noon.
[*]The exercise will take place on a double session on 11.16.2021 from 08:00 to 11:30. This will be conducted in a live format alternating between frontal presentation and short breakout sessions in the selected groups. The content of the exercise is necessary for the successful completion of the course work. Therefore, we recommend attending this session.
[*]In addition to the exercise, the study assignment will be made available on Moodle, which can be worked on in groups of five from 02.11.2021. Deadline for submission of the study assignment is 08.02.2022 at 12:00 noon. The online presentation takes place from 8:00 to 10:30 on the same day.
[*]The group exchange and the processing of the study assignment will be organized by you independently. For this purpose, tools such as Zoom for group exchange (basic license available for students via TU Darmstadt) and Hessenbox for document exchange (30 GB available for students via TU Darmstadt) are at your disposal.
[*]Questions regarding the study assignment can be asked on the two individual exercise dates as well as on two additional online consultations for the study assignment. Please send us your question(s) via Moodle up to one day before the online sessions (Moodle function "Requested" study assignment). In addition to this, the Moodle forum should be used.
[/list]
[b]Note:
It is not allowed to record, distribute or publish the videocast and the online sessions or to distribute the PDF lecture slides.[/b]
Lehrinhalte
[b]Teaching content / Examination requirements:[/b]
The lecture introduces the students to system considerations of problems of the future energy supply. In the lecture the topics societal challenges, characteristics of renewable energies as well as system technical and political approaches for the development of strategies for "sustainable" energy systems will be dealt with.
0. Introduction and Administration
1. Energy Systems: Today's energy system and the role of Fossil energies
2. Climate Change and Global Warming
3. Scenario analysis and development
4. Global energy scenarios and the role of Renewables
5. Electricity: Renewables' potential and technologies (I)
6. Electricity: Renewables' potential and technologies (II)
7. Heat and Fuels: Renewables' potential and technologies
8. Life Cycle Assessment/Sustainability/Critical Raw Materials of Renewables
9. Energy Policy and Renewables (I)
10. Energy Policy and Renewables (II)
11. Energy system models
12. Demand sectors and efficiency
13. Sector coupling, transport and storage
14. Transformation of Energy systems: Example of German Energiewende
[b]Qualification goals and competences[/b]
The students are able to describe and explain the energy system as a whole with regard to its basic structure and the interaction of technological, ecological, economic and societal influencing factors.
The students are capable of analysing and evaluating current scenarios on energy demand, resource availability and impacts of the climate effect, demonstrating characteristics of important technologies for energy conversion, use and storage and interpreting goals of sustainable development.
The course enables the students to apply system-oriented methods for analysis and strategy development in the energy sector and to create science-based scenarios.
Online-Angebote
Moodle
- Lehrende: Gelöschter User
- Lehrende: Clemens Rohde
- Lehrende: Liselotte Schebek
- Lehrende: Gelöschter User (TU-ID gelöscht)
Semester: WT 2021/22