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Herr Dipl.-Ing.
Friedemann Borisade geb. Beyer
Wissenschaftlicher Mitarbeiter

Dieses Bild zeigt  Friedemann Borisade geb. Beyer
Telefon 0049 711 685-60338
Telefax0049 711 685-68293
Raum2.36
E-Mail
Adresse
Universität Stuttgart
Institut für Flugzeugbau
Allmandring 5b
70569 Stuttgart
Deutschland
Sprechstunde

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Fachgebiet:
  • Research: Hydrodynamics, aerodynamics and structural dynamics of floating offshore wind turbines
  • Methods:
    • Multibody System (MBS) simulation
    • Computational Fluid Dynamics (CFD)
    • Potential flow (hydrodynamics, free wake vortex methods)
Publikationen:

Conference Papers (peer reviewed)

[7]          F. Borisade, T. Choisnet, P. W. Cheng,Design study and full scale MBS-CFD simulation of the IDEOL floating offshore wind turbine foundation, The Science of Making Torque from Wind, Munich, Germany, October 2016, Journal of Physics: Conference Series, http://iopscience.iop.org/article/10.1088/1742-6596/753/9/092002

[6]          C. Koch, F. Lemmer, F. Borisade, D. Matha, P. W. Cheng, Validation of INNWIND.EU Scaled Model Tests of a Semisubmersible Floating Wind Turbine, ISOPE 2016, Rhodes, Greece, June 2016, http://dx.doi.org/10.18419/opus-8967

[5]          B. Luhmann, F. Borisade, P. W. Cheng, Coupled Aero-Elastic Multi-Body Simulation of Two-Bladed Wind Turbines in Wind Farm Arrays, AIAA SciTech, San Diego, CA, USA, January 2016

[4]          F. Beyer, T. Choisnet, M. Kretschmer, P. W. Cheng, Coupled MBS-CFD Simulation of the IDEOL Floating Offshore Wind Turbine Foundation Compared to Wave Tank Model Test Data, 25th International Ocean and Polar Engineering Conference (ISOPE), USA, Kona, June 2015, http://dx.doi.org/10.18419/opus-3973

[3]          A. Robertson, J. Jonkman, F. Vorpahl et al., Offshore Code Comparison Collaboration Continuation Within IEA Wind Task 30: Phase II Results Regarding a Floating Semisubmersible Wind System, 33rd International Conference on Ocean, Offshore and Arctic Engineering (OMAE), USA, San Francisco, June 2014, http://www.nrel.gov/docs/fy14osti/61154.pdf

[2]          F. Beyer, M. Arnold, P. W. Cheng, Analysis of Floating Offshore Wind Turbine Hydrodynamics using coupled CFD and Multibody Methods, 23rd International Ocean and Polar Engineering Conference (ISOPE), USA, Anchorage, June 2013, http://dx.doi.org/10.18419/opus-3912

[1]          F. Beyer, D. Matha, T. Sebastian, M. A. Lackner, Development, Validation and Application of a Curved Vortex Filament Model for Free Vortex Wake Analysis of Floating Offshore Wind Turbines, 50th AIAA Aerospace Sciences Meeting and Exhibit, USA, Nashville, January 2012

 

Conference Papers

[2]          F. Beyer, B. Luhmann, S. Raach, P. W. Cheng, Shadow Effects in an Offshore Wind Farm – Potential of Vortex Methods for Wake Modelling, DEWEK 2015, Germany, Bremen, May 2015, http://dx.doi.org/10.18419/opus-3972

[1]          D. Matha, F. Beyer, F. Lemmer, P. W. Cheng, Model Testing and Numerical Simulation in Floating Offshore Wind Turbine Design - Overview and Conclusions from practical Applications, DEWEK 2015, Germany, Bremen, May 2015

 

Conference Presentations without Paper

[7]          F. Beyer, P. W. Cheng, Load Simulation of Offshore Wind Turbines - Modeling Techniques and Validation by Measurements, SIMPACK Wind and Drivetrain Conference 2015, Hamburg, Germany, October 2015

[6]          F. Beyer, T. Choisnet, M. Favré, P. W. Cheng, Simplified Aerodynamic Models with Limited Rotor Data for the Design of Floating Offshore Wind Turbine Support Structures, EWEA Offshore 2015, Denmark, Kopenhagen, March 2015

[5]          F. Beyer, M. Arnold, B. Luhmann, D. Matha, Coupled CFD and Vortex Methods for Modelling Hydro- and Aerodynamics of Tidal Current Turbines and On- and Offshore Wind Turbines, SIMPACK User Meeting 2014, Germany, Augsburg, October 2014

[4]          F. Beyer, M. Arnold, Simulation of Ocean Waves for Load Assessment of Surface Piercing and Fully Submerged Bodies with ANSYS CFX, ANSYS Conference & 32. CADFEM User’s Meeting 2014, Germany, Nuremberg, June 2014

[3]          F. Beyer, P. W. Cheng, Dynamic Behaviour of Floating Offshore Wind Turbines, IEA R&D Wind, Task XI, Topical Expert Meeting #76 on Floating Offshore Wind Plants, Spain, Las Palmas, Spain, April 2014

[2]          F. Beyer, P. W. Cheng, Dynamic Behaviour of Floating Offshore Wind Turbines, 8th PhD Seminar on Wind Energy in Europe, Switzerland, Zurich, September 2012

[1]          F. Beyer, T. Sebastian, D. Matha, M. A. Lackner, Curved Vortex Filaments in Free Vortex Wake Analysis of Floating Wind Turbines, EWEA Offshore 2011, The Netherlands, Amsterdam, November 2011

 

Popular Science Publications

[4]          F. Beyer, B. Vennemann, Windenergieanlage aus dem 3D-Drucker, Press Release, University of Stuttgart, March 2014, http://www.verwaltung.uni-stuttgart.de/campus_intern/studieren-lehren/windenergie.html

[3]          F. Beyer, M. Arnold, M. Jirka, Steife Briese nutzen - Wissenschaftler und Unternehmen erforschen die Machbarkeit schwimmender Windenergieanlagen, Press Release, KEM – Germany, December 2013, http://www.kem.de/konstruktion/cad_cam/-/article/30599594/38880346/Steife-Brise-nutzen

[2]          C. Kutzbach, F. Beyer, F. Sandner, D.Schlipf, Windkraftanlagen lernen das Schwimmen - Inseln für Windräder in tiefem Wasser, ORF, May 2013 http://oe1.orf.at/programm/340377

[1]          F. Beyer, A. Mayer-Grenu, Windkraftanlagen lernen das Schwimmen – 19 Millionen für die Weiterentwicklung der Offshore-Technologie, Press Release, University of Stuttgart, April 2013, http://www.uni-stuttgart.de/hkom/presseservice/pressemitteilungen/2013/029_windkraft.html

 

Supervised Student Theses

[9]          C. Koch, F. Borisade, F. Lemmer, P. W. Cheng, Validierung eines gekoppelten Simulationsmodells schwimmender Windkraftanlagen mit Hilfe von Modellversuchen, Masterarbeit, Universität Stuttgart, May 2016, http://dx.doi.org/10.18419/opus-8907

[8]          S. Ellinghaus, F. Beyer, A. Yamaguchi, P. W. Cheng, Evaluation of met mast correction methods and wind characteristics of the Fukushima FORWARD substation, Bachelorarbeit, Universität Stuttgart, November 2015

[7]          F. Schorn, F. Beyer, P. W. Cheng, Lastfallanalyse eines Monopile Fundaments mittels Morison-Gleichung und CFD im Vergleich zu experimentellen Messdaten aus dem OC5-Projekt, Studienarbeit, Universität Stuttgart, February 2015

[6]          D. Fischer, F. Beyer, M. A. Lackner, P. W. Cheng, Investigation of the Interaction of Multiple Floating Offshore Wind Turbines in a Wind Farm, Diplomarbeit, Universität Stuttgart, September 2014

[5]          D. S. Dorfi, F. Beyer, P. W. Cheng, Simulation von Wellenlasten auf Offshore Strukturen mittels DualSPHysics, Bachelorarbeit, Universität Stuttgart, April 2014

[4]          D. Müller, F. Beyer, P. W. Cheng, Untersuchung der Co-Simulation von PASIMODO und SIMPACK zur Bestimmung hydrodynamischer Lasten, Bachelorarbeit, Universität Stuttgart, March 2014

[3]          P. Roller, F. Beyer, P. W. Cheng, Analyse von Wellenlasten auf Offshore Windenergieanlagen mittels OpenFOAM, Bachelorarbeit, Universität Stuttgart, March 2014

[2]          D. Lenz, F. Beyer, P. W. Cheng, Untersuchung instationärer aerodynamischer Effekte an Windenergieanlagen mittels Free Vortex Methoden, Bachelorarbeit, Universität Stuttgart, January 2014

[1]          R. M. Abele, F. Beyer, P. W. Cheng, Load Case Analysis of a Floating Offshore Wind Turbine on a Semi-Submersible Platform in the Context of the OC4 Project, Diplomarbeit, Universität Stuttgart, June 2013

Lehre:

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Lebenslauf:
  • 2011: Diplom im Studiengang Luft-und Raumfahrttechnik, Universität Stuttgart
  • 2011: Wissenschaftlicher Mitarbeiter am Stuttgarter Lehrstuhl für Windenergie, Universität Stuttgart
  • 2015 - 2017: Leiter der Gruppe Konzeptentwurf und Systemsimulation