Valitse alue, joka parhaiten vastaa sijaintiasi tai mieltymyksiäsi.
Tämä asetus hallitsee käyttöliittymän kieltä, mukaan lukien painikkeet, valikot ja kaikki sivuston tekstit. Valitse haluamasi kieli parhaan selauskokemuksen saamiseksi.
Valitse kielet työpaikkailmoituksille, jotka haluat nähdä. Tämä asetus määrittää, mitkä työpaikkailmoitukset näytetään sinulle.
Wind farm control plays a central role in increasing the value of wind energy. To this aim, wind farms need to be able not only to maximise their power output, but also to provide system services which are currently mostly provided by conventional power plants. At the same time, structural loads need to be limited or even actively reduced. Therefore, wind farm controllers need to handle different objectives, which are also expected to change during the wind farm lifetime.
Job description
With your strong background in control engineering, you will be designing control algorithms for wind turbines and wind farms that can accommodate various objectives, from improving the grid integration, power maximisation, to load or noise reduction. A particular focus will be on the validation of control algorithms under uncertain and varying conditions. First, you will employ our HPC cluster for simulation-the-loop studies. In collaboration with other group members, you will design and execute a testing campaign employing one of our dedicated research infrastructures, i.e. wind tunnel testing or open field experiments. Furthermore, you will coordinate the work of our research group in a project with industrial and academic partners.
Depending on your preferences and previous experiences, your tasks will be related to one of the following projects:
Project A:
Project B:
Job offer
We offer you the opportunity to develop your scientific career in a young and lively academic environment. You will be working in the WindLab – one of the university's most modern office and lab spaces – while you will also have the opportunity to do flexible and mobile work. You will be actively supported by, e.g.,
The employment is initially limited to the end of the research project on 31 March 2029. The payment is based on the collective agreement for the public service in the German federal states, TV-L E13, for a full position.
Our standards
Further benefits
Candidate profile
Requirements for employment include:
Desired (but not mandatory) qualifications are:
Further information on the research environment
Wind energy research at the Carl von Ossietzky Universität Oldenburg has gained international recognition by its integration into ForWind – Center for Wind Energy Research of the Universities of Oldenburg, Hannover and Bremen and the national Wind Energy Research Alliance of the German Aerospace Center (DLR), Fraunhofer Institute for Wind Energy Systems (IWES) and ForWind.
At ForWind, we maintain and value collaboration between our research groups and partner institutions such as the European Academy of Wind Energy members. In Oldenburg, our 50 researchers from physics, meteorology and engineering are collaborating at the WindLab centred on wind physics. Our mission is to develop an improved understanding of atmospheric and wind power plant flow physics required to serve the global demand for clean and affordable electricity.
Therefore, we conduct laboratory experiments, free-field measurements and HPC-based numerical simulations. Our research facilities comprise three turbulent wind tunnels with fully controlled model wind turbines and wind farms of different sizes, various equipment for free-field measurements at on- and offshore wind farms and a high-performance computing cluster for atmospheric flow simulations. We have direct access to the DLR research wind farm WiValdi (https://windenergy-researchfarm.com), where among others, control experiments on two utility-scale wind turbines are conducted. Almost all our projects combine analyses at more than one of these infrastructures.
Further information is available at www.forwind.de/en/ and https://uol.de/en/physics/research/we-sys.
For questions regarding this job opportunity, please contact Prof. Dr. Martin Kühn at +49(0)441/798-5061 or preferably by email at [email protected].
Contact
Please submit your application electronically as one PDF file by 11.08.2026 to [email protected] and include reference #AP129.
The pdf file must include either in English or German:
A second PDF file containing your dissertation or relevant research papers is an optional attachment.
We are looking forward to receiving your application.
Develop multi-objective wind farm/turbine control (power, grid services, load reduction); Matlab/Python; simulations + wind-tunnel/field validation; 75% TV-L E13.
The University cooperates closely with more than 200 other universities worldwide and is also affiliated with non-university institutes in the area...
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