Stud.IP Uni Oldenburg
University of Oldenburg
20.01.2022 23:55:12
pre081 - Renewable Energy Project
Institute of Physics 9 KP
Module components Semester courses Wintersemester 2021/2022 Examination
  • Unlimited access 5.06.M301 - Case Study Show lecturers
    • Hans-Gerhard Holtorf, PhD
    • Prof. Dr. Matthias Wollenhaupt, Dipl.-Phys.

    Thursday: 08:15 - 09:45, weekly (from 21/10/21), Location: W02 1-128
    Dates on Thursday. 21.10.21 08:15 - 09:45, Thursday. 21.10.21 10:15 - 11:45, Thursday. 28.10.21 08:15 - 09:45, Thursday. 28.10.21 10: ...(more), Location: W02 1-148, W16A 015/016

    In this seminar you will design an energy supply system for a typical consumer. Apart from the energy management aspects you will get insights in to site management, economical and social aspects of energy consumption.

Study trip
  • Unlimited access 5.06.M303 - Final Excursion Renewable Energy Show lecturers
    • Hans-Gerhard Holtorf, PhD
    • Jasmin Rehmeier

    Wednesday: 16:15 - 17:45, weekly (from 27/10/21)
    Dates on Wednesday. 20.10.21 14:15 - 17:45

    Compulsory for PPRE Master-Students. Part of the Modul: Renewable Energy Project

Notes for the module
Reference text

Specifically, the Excursion will contribute to the PPRE students’ bonding amongst one another and with other students at the university of Oldenburg (specifically EP, Phy, SEM).

Furthermore, it enables insights in to institutions dealing with Renewable Energy on multiple levels.
Time of examination
Throughout the semester
Module examination

2 Examinations:


Portfolio – Excursion –

Within Group Work:

-       Performance on Institutions’ Appointment Mgt. +

-       Performance in Infrastructure Management,

And Personal Performance within the excursion


Presentation of a Paper - Case Study –

30min presentation + 10pages report
Skills to be acquired in this module

In the module Renewable Energy Project students merge the acquired scientific knowledge on different RE technologies and the concepts and methodologies they have gained in the different related disciplines and they transfer their competences to solve a real life project.

After successful completion of the module students should be able to:

-        appraise the challenge of a given energy service supply problem

-        assess given data of the situation of the energy service supply problem

-        discriminate between valuable and less valuable input data, necessary and unnecessary data

-        judge and then decide on methodologies to apply to generate a solution

-        develop and then recommend a technical, economic and social solution for an energy service supply system
-        explain, justify and defend the developed solution