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Abschlussarbeiten / Praktika

Kontakt

Universität Oldenburg
Institut für Physik - ForWind
Prof. Dr. Martin Kühn
Küpkersweg 70 
D-26129 Oldenburg

Tel: +49 (0)441 / 798-5061
Fax: +49 (0)441 / 798-5099
Email: wesys.office@6/iuol.de

Praktika, Bachelor- und Masterarbeiten

Wir bieten Themen für Praktika und Abschlussarbeiten in der AG Windenergiesysteme auf dieser Webseite an (s. u.). Bei Interesse an einem der ausgeschriebenen Themen wenden Sie sich bitte direkt an die dort angegebene Kontaktperson.

Sollten Sie grundsätzlich Interesse an einer Abschlussarbeit in der AG Windenergiesysteme haben, dann senden Sie bitte eine Bewerbung per E-Mail an Martin Kraft (martin8dye.kraft@uol.de (martin4108j.krarj5ft@ulbcni-osz+ldenbo1ejhurg.degc)) und fügen diese Anlagen hinzu:

  • Bewerbungsformular (Link)
  • Motivationsschreiben
  • Kurzer Lebenslauf inkl. der wichtigsten Zeugnisse
  • Transcript of Records (z. B. Notenbescheinigung aus StudIP)

Voraussetzungen:

Für Abschlussarbeiten in der AG Windenergiesysteme sollten Sie mindestens eine einführende Lehrveranstaltung (bzw. ein einführendes Modul) erfolgreich abgeschlossen haben.

Für eine Bachelor-Arbeit:

  • Wind Energy Utilisation (pb355)

Für eine Master-Arbeit:

  • Basics of Wind Energy (pre031),
    oder
  • Wind Energy Physics, Data & Analysis (phy644)
    Empfohlen wird außerdem
  • Design of Wind Energy Systems (phy649)

Ausnahmen sind möglich und werden individuell geprüft. Für den Fall, dass Sie die o. g. Voraussetzung nicht erfüllen, wird geprüft, ob Sie diese mit anderen Kompetenzen ausgleichen können. Wichtige Erfahrungen und Kompetenzen in diesem Sinne können sein: Modellierung, Simulation, Programmierung, Experimentieren, Messmethoden, Statistik, Datenauswertung.

Abschlußarbeiten 2020

Delocco, R. (2020) Quantifying the financial benefits of animproved very short-term wind farmpower forecast in Germany, Master Thesis, Carl v. Ossietzky Universität

Abschlussarbeiten 2019

Dittrich, A.-M. (2019) Sector-Based Wind Field Reconstruction of Wind Turbine Inflow with the SpinnerLidar, Master Thesis, Carl v. Ossietzky Universität

Álvarez, O. B. (2019) Analysis of Dynamic Inflow Effect due to Wind Turbine Blade Pitching and Unsteady Wind Fields - Comparison of Wind Tunnel Measurements with Engineering Models, Master Thesis, Carl v. Ossietzky Universität

Abschlussarbeiten 2018

Akhtarirad, F. (2018) Analysis and Modelling of Service Impact on the Production-based Availability of wind turbines, Master Thesis, Carl v. Ossietzky Universität

Bohla, D. (2018) Analysis of wake characteristics from nacelle-based LiDAR measurements of a Multi-MW wind turbines, Master Thesis, Carl v. Ossietzky Universität

Cherian, N. (2018) Numerically based buckling assessment of conical tubular steel shell tower, Master Thesis, Carl v. Ossietzky Universität

Frommann, J. (2018) Entwicklung eines Windpark-Regelkonzeptes zur Bereitstellung von Minutenreserveleistung unter Berücksichtigung von Anforderungen der Übertragungsnetzbetreiber, Masterarbeit, Techn. Universität Hamburg-Harburg

Kumar, M. (2018) Verification of Offshore Wind Turbine Model Master Thesis, Carl v. Ossietzky Universität

Öffner, F. (2018) Simulation der Frequenzstabilität eines Inselnetzes anhand repräsentativer Lastgänge, Bachelor Thesis, Carl v. Ossietzky Universität

Onnen, D. (2018) Wind Tunnel Testing of Aerodynamic Characteristic of a Scaled 1,8 m Model Wind Turbine and Caparison with Blade Element Momentum Simulations, Bachelor Thesis, Carl v. Ossietzky Universität, Oldenburg

Shah, S.M.H. (2018) Control design for offshore wind turbine load reduction, Master Thesis, Universität Paderborn

Troya Becerra, J.L. (2018) Long-term wind data correction using Principal Components Analysis, Master Thesis, Carl v. Ossietzky Universität

Abyanaki, M. (2018) Long Term Correction of Icing Data for Predicition of Wind Turbine Icing´s Impact on Power Performance, Master Thesis, Carl v. Ossietzky Universität

Ahmed, W. (2018) Characterization of the flow field inside a boundary-layer wind tunnel with two synchronized Lidars, Master Thesis, Carl v. Ossietzky Universität

Credet, H. (2018) Data Filtering and validation of plan position indicator scans by pulsed scanning Doppler wind Lidar, Bachelor Thesis, Carl v. Ossietzky Universität, Oldenburg

Goyal, K. (2018) Investigation of Status Codes of Wind Power Plants for the Analysis of Reliability and Operating Behaviour, Master Thesis, Carl v. Ossietzy Universität

Hulsman, P. (2018) Power Production and Turbine Response during Yaw-Based Wind Farm Control, Master Thesis, Carl v. Ossietzky Universität

Lange, L. (2018) Dimensionierung eines Inselnetzes anhand repräsentativer Lastgänge, Bachelor Thesis, Carl v. Ossietzky Universität, Oldenburg

Mayorca, M. (2018) Assessment of wake dynamics in wind farms with wind turbines under yaw offset conditions, through implementation in Star-CCM+ of actuator line model, Master Thesis, Carl v. Ossietzky Universität

Modrakowski, E. (2018) Die Unsicherheit des Langzeitbezugs - eine Abschätzung der Einflüsse von Datenquellen und Abgleichzeitraum, Bachelor Thesis, Carl v. Ossietzky Universität

Ritter, K. (2018) Analysis of load distribution within a wind farm due to wake effects for non-neutral atmospheric condition, Master Thesis, Carl v. Ossietzky Universität

Theuer, F. (2018) Wind gust parameterization at hub height and their impact on power prediction, Master Thesis, Carl v. Ossietzky Universität

Thorne, M. (2018) Extending the HLS Performance model to analyse the reaction, Bachelor Thesis, Carl v. Ossietzky Universität

Tsz Yan Kwok (Ellen). (2018) Internal boundary-layer modelling: roughness sensitivity and uncertainty, Master Thesis, Carl v. Ossietzky Universität

Abschlussarbeiten 2017

Assam E. M. (2017) Feed Forward Control of a 7,5 MW Smart Blades Wind Turbine using a Linear Kalman Filter. Institute of Physics - Wind Energy Systems. Oldenburg, Carl-von-Ossietzky University of Oldenburg. M. Sc.

Giron C. (2017) Optimization of the Wind Energy Production Through Efficient Portfolios. Institute of Physics - Wind Energy Systems. Oldenburg, Carl-von-Ossietzky University of Oldenburg. M. Sc.

Roß A. (2017) Situational activation of Load Mitigation Concepts for a Commercial Offshore Wind Turbine. Institute of Physics - Wind Energy Systems. Oldenburg, Carl-von-Ossietzky University of Oldenburg. M. Sc.

Schödler J. (2017) Identification of wind turbine production losses due to icing using neural net-works. Institute of Physics - Wind Energy Systems. Oldenburg, Carl-von-Ossietzky University of Oldenburg. M. Sc.

Reckweg L. (2017) Extraction of Modal Parameters of a Rotor Blade. Institute of Physics - Wind Energy Systems. Carl-von-Ossietzky University of Oldenburg, Oldenburg, B.Sc.

Abschlussarbeiten 2016

Barnhoorn, J. (2016). Turbulence Estimation from a Continuous-Wave Scanning Lidar. Institute of Physics - Wind Energy Systems. Oldenburg, Carl-von-Ossietzky University of Oldenburg. M. Sc.

Hempen, C. (2016). Shut Down Procedures for Wind Turbines with Smart Blades. Institute of Physics - Wind Energy Systems. Oldenburg, Carl-von-Ossietzky University of Oldenburg. M. Sc.

Iywer, S. (2016) Assessing and Minimizing the Sampling Errors in Dual-Doppler Remote Sens-ing Data. Institute of Physics - Wind Energy Systems. Oldenburg, Carl-von-Ossietzky University of Oldenburg. M. Sc.

Plut, M. (2016 A comparison of two approches for the representation of wind farms in WRF dru-ing stable atmospheric conditions. Institute of Physics - Wind Energy Systems. Oldenburg, Carl-von-Ossietzky University of Oldenburg. M. Sc.

Schröder, L. (2016) Sceening potential areas and techno-economic assessment of wind farms for the planning aof Danish offshore wind energy. Institute of Physics - Wind Energy Systems. Oldenburg, Carl-von-Ossietzky University of Oldenburg. M. Sc.

Steiner, J. (2016). Analysis of the Effect of Wind Turbine Yaw Misalignment on the Turbine Wake Path by Lidar Wake Tracking. Institute of Physics - Wind Energy Systems. Oldenburg, Germany, Carl-von-Ossietzky University of Oldenburg. M. Sc.

Schillebeckx, D. (2016) Sensivity Testing and Technical Implementation of Mesoscale Generalization Procedure for the WRF Model. Institute of Physics - Wind Energy Systems. Oldenburg, Carl-von-Ossietzky University of Oldenburg. M. Sc.

Theuer, F. (2016) Development of a Pressure Model in the Wake of Wind Turbines. Institute of Physics - Wind Energy Systems. Oldenburg, Carl-von-Ossietzky University of Oldenburg. B. Eng.

Abschlussarbeiten 2015

Alemans, L. (2015). Reliability-based model for steel structures inspection planning. Institute of Physics - Wind Energy Systems. Oldenburg, Germany, Carl v. Ossietzky University. M. Sc.
    
Astudillo, F. (2015). Assessment of engineering wake models available in WindPro for prediction of energy yield at onshore wind farms. Institute of Physics - Wind Energy Systems. Oldenburg, Germany, Carl v. Ossietzky University. M. Sc.
    
Carreño, D. (2015). Optimization of Preventive Maintenance for Onshore Wind Energy Converters. Institute of Physics - Wind Energy Systems. Oldenburg, Germany, Carl-von-Ossietzky University of Oldenburg. M. Sc.
    
Hieronimus, J. (2015). Wind speed measurements in an offshore wind farm by remote sensing. A comparison of radar satellite TerraSAR-X and ground-based LiDAR systems. Institute of Physics - Wind Energy Systems. Oldenburg, Germany, Carl v. Ossietzky University. M. Sc.
    
Martínez, R. A. (2015). Design and Verification of Risk Management Methodologies for its Application in the Wind Industry. Institute of Physics - Wind Energy Systems, University of Oldenburg. M. Sc.
    
Miryeganeh, A. (2015). Off-shore Wind Turbine Tower Control by Applying an Optimal Control Technique. Institute of Physics - Wind Energy Systems. Bremen, Germany, University of Bremen. M. Sc.
    
Prakash, G. (2015). Investigation of a Condition-Monitoring approach for wind turbine power converters based on insulation resistance measurements. Institute of Physics - Wind Energy Systems. Oldenburg, Germany, Carl-von-Ossietzky University of Oldenburg. M. Sc.
    
Reepschläger, L. (2015). Systematische Analyse technischer Risiken im Betrieb von Offshore-Windenergieanlagen als Grundlage für die Bewertung des Instandhaltungsprozesses. Institute of Physics - Wind Energy Systems. Oldenburg, Germany, Carl-von-Ossietzky University of Oldenburg. B. Sc.
    
Rowlinson, B. (2015). Wind Turbine Standstill Instability Analysis. Institute of Physics - Wind Energy Systems. Oldenburg, Germany, Carl-von-Ossietzky University of Oldenburg. M. Sc.
    
Seifert, J. K. (2015). Investigation of the Effect of Wind Direction Dynamics and Measurement Errors on Active Wake. Institute of Physics - Wind Energy Systems. Oldenburg, Germany, Carl-von-Ossietzky University of Oldenburg. M. Sc.
    
Vali, M. (2015). Controller design for a wind turbine with bend-twist coupled blades. Institute of Physics - Wind Energy Systems. Bremen, Germany, University of Bremen. M. Sc.
    
Vernekar, V. (2015). Grid codes variant and implementation strategy for country specific requirements. Institute of Physics - Wind Energy Systems. Oldenburg, Germany, Carl v. Ossietzky University. M. Sc

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