Solar Power Plant Recycling (5cr)
Code
General information
- Enrollment
- 19.11.2025 - 15.06.2026
- Registration for introductions has not started yet.
- Timing
- 02.02.2026 - 31.07.2026
- The implementation has not yet started.
- Number of ECTS credits allocated
- 5 cr
- Institution
- LAB University of Applied Sciences, Verkkokampus
- Teaching languages
- Finnish
- Seats
- 0 - 30
- Course
- C-10126-AT00DH51
Unfortunately, no reservations were found for the realization Solar Power Plant Recycling C-10126-AT00DH51-3001. It's possible that the reservations have not yet been published or that the realization is intended to be completed independently.
Evaluation scale
1-5
Content scheduling
Solar power projects and legislative framework Solar panel recycling Reuse and material efficiency Recycling development and future prospects
Objective
The student is able to - understand the overall role of solar panels in renewable energy production and the circular economy - acquire basic knowledge of the legislative framework for solar panels - learn the fundamentals of recycling silicon-based and thin-film solar panels - grasp the principles of solar panel reuse and material efficiency - identify the development needs for the circular economy of solar panels in Finland
Teaching methods
This is a self-paced course designed according to the following principles: 1) Flipped classroom approach in a virtual environment: Students engage with course materials in advance (e.g., videos or articles) and later deepen their understanding through assignments or exam preparation. 2) Microlearning method: The course is structured into small, manageable segments, allowing students to progress flexibly based on their available time. 3) Multimodal learning: Written and audiovisual materials complement each other—for example, a video may illustrate a phenomenon described in the text or present real-world examples relevant to professional practice. The course platform offers written materials (articles, PDFs, assignment instructions) and audiovisual content (videos and podcasts) that support different learning styles. Students progress at their own pace within the course timeframe and can study regardless of time and location.
Employer connections
The course has been designed in cooperation with Renewables Finland Association.
International connections
The course platform offers written materials (articles, PDFs, assignment instructions) and audiovisual content (videos and podcasts) that support different learning styles. Students progress at their own pace within the course timeframe and can study regardless of time and location.
Completion alternatives
Not to be implemented.