Renewable Energy Systems

Location

Cam­pus Of­fen­burg, room B 138

Profile and objectives

Renewable energy sources such as solar energy, wind energy and hydropower are the basis for a sustainable energy supply. They are also becoming the most economical option. Accordingly, the importance of renewable energies is growing in Germany and worldwide.

In order to be professionally active in this field or to develop new innovations in the field of research and development, the individual energy systems as well as their interaction with other producers, consumers and storage systems in different electrical network structures must be well understood.

In the "Regenerative Energy Systems" laboratory, students should develop and bring to life this multi-layered understanding of renewable energy systems through numerous practical experiments. The aim is to develop expertise, skills and methods in the following areas:

  • Technologies for the conversion of renewable energies into electrical energies within photovoltaic systems, wind energy plants or hydropower plants, and in particular the handling of fluctuations in the energy supply
  • Fundamentals of storage technologies (batteries, fuel cells)
  • Integration of regenerative energy systems in stand-alone networks/microgrids and power grids, and behaviour in the event of a fault
  • Design and planning of individual regenerative energy systems or their combination in microgrids on the basis of appropriate software
  • Control, regulation and optimization of individual energy systems and microgrids using appropriate automation hardware and algorithms

Scientific head of laboratory

Prof. Dr. Michael Schmidt

Laboratory assistant

Artur Root, M. Eng.

Equipment

The laboratory in room B 138 is equipped with modern hardware, software and teaching systems on the following topics:

  • Photovoltaics (solar modules of different technologies, photovoltaic systems in grid parallel and island operation,...)
  • wind energy (operating behaviour of double-fed asynchronous generators, behaviour in the event of a fault,...)
  • storage technologies (batteries, fuel cells)
  • Energy system simulation (PVsyst, QBlade, Meteonorm, HOMER, MATLAB/Simulink,...) on 6 PCs and one workstation
  • Energy management and monitoring in hybrid systems and microgrids (Beckhoff training system, Labview,...)

These topic-specific systems are complemented by modern and universally applicable laboratory equipment such as oscilloscope, electronic load, function generators, NI data acquisition, etc.

Through teaching and research cooperations within the university, further teaching and research systems are available on the following topics:

  • Grid integration of regenerative energy systems (in cooperation with the "Electric Energy Systems" laboratory)Solar module production and PV system technology (in cooperation with the "PV System Technology" laboratory)
  • Solar module production and PV system technology (in cooperation with the "PV System Technology" laboratory)
  • hydropower with Pelton and Francis turbines (from spring 2016, in cooperation with the laboratory „Kraft- und Arbeitsmaschinen“)
  • Microgrids with solar energy, small wind power, battery system and block-type thermal power station and corresponding automation technology: die „Energieinsel“ der Forschungsgruppe Nachhaltige Energietechnik
  • Smart grid with solar energy, small wind power, battery system, electrolyser and fuel cell, electric mobility and automation technology: the „SmartGrid“ at the Institut of Energy Systems Technoogy

Projects and final theses

Examples of current theses and projects are:

  • Development of a measuring system for recording the characteristics of solar modules for teaching purposesDevelopment of a cloud camera for local short-term prediction of solar power
  • Development of a cloud camera for local short-term prediction of solar power
  • Construction of a new small wind power plant for the energy island for optional use in island and grid parallel operation
  • Investigations on the economic potential of short-term predictions in the operation of microgrids

Are you interested in a final thesis in the field of renewable energies and their grid integration? Then please send an email to Prof. Dr. Michael Schmidt.

"Light for Morocco" - a cooperation with the Mme-Ilsa-Foundation

The student project "Light for Morocco" in cooperation with the "Madame Ilsa Foundation" aims to provide people in remote locations in Morocco with access to electrical energy for lighting, communication and other essential uses. To this end, decentralised systems based on solar panels and accumulators are to be developed which can later be manufactured, installed, operated and maintained independently on site at attractive costs with an appropriate transfer of know-how. The development of the system as well as the construction and transfer of an appropriate infrastructure on site will be significantly carried out and accompanied by a student team of the Offenburg University of Applied Sciences (HSO).

Are you interested in joining us? Then please send an email to Prof. Dr. Michael Schmidt.