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Herr Dipl.-Ing.
Florian Haizmann
Wissenschaftlicher Mitarbeiter

Dieses Bild zeigt  Florian Haizmann
Telefon 0049 711 685-68333
Telefax0049 711 685-68293
Raum 2.51
E-Mail
Adresse
Universität Stuttgart
Institut für Flugzeugbau
Allmandring 5b
70569 Stuttgart
Deutschland

Fachgebiet:

Regelung von Windkraftanlagen mittels Lidar-Windmessung

Publikationen:

Publications in Peer Reviewed Journals including Conference Series

[3]    D. Schlipf, F. Haizmann, N. Cosack, T. Siebers, P. W. Cheng, Detection of Wind Evolution and Lidar Trajectory Optimization for Lidar Assisted Wind Turbine Control, Meteorologische Zeitschrift, vol. 24, no. 6, pp. 565-579, 2015, DOI: 10.1127/metz/2015/0634, link author version.

[2]    S. Raach, D. Schlipf, F. Haizmann, P. W. Cheng, Three Dimensional Dynamic Model Based Wind Field Reconstruction from Lidar Data, Journal of Physics: Conference Series, vol. 524, no. 012005, 2014, DOI: 10.1088/1742-6596/524/1/012005.

[1]    D. Schlipf, P. Fleming, F. Haizmann, A. Scholbrock, M. Hofsäß, A. Wright, P. W. Cheng, Field Testing of Feedforward Collective Pitch Control on the CART2 Using a Nacelle-Based Lidar Scanner, IOP Conference Series, vol 555, no. 012069, 2014, DOI: 10.1088/1742-6596/555/1/012090.

Publications in Peer Reviewed Conference Proceedings

[5]    D. Schlipf, P. Fleming, S. Raach, A. Scholbrock, F. Haizmann, R. Krishnamurthy, M. Boquet, P. W. Cheng, An Adaptive Data Processing Technique for Lidar-Assisted Control to Bridge the Gap between Lidar Systems and Wind Turbines, Scientific Track of European Wind Energy Association Annual Event (EWEA), Paris, France, November 2015, link author version.

[4]   S. Wortmann, F. Haizmann, J. Geisler, U. Konigorski, Comparison of Feedback and Ideal and Realistic Lidar-Assisted Feedforward Individual Pitch Control, Scientific Track of European Wind Energy Association Annual Event (EWEA), Paris, France, November 2015

[3]    F. Haizmann, D. Schlipf, S. Raach, A. Scholbrock, A. Wright, C. Slinger, J. Medley, M. Harris, E. Bossanyi, P. W. Cheng, Optimization of a feed-forward controller using a CW-lidar system on the CART3, American Control Conference (ACC), pp. 3715-3720, Chicago, USA, June 2015 (invited), DOI: 10.1109/ACC.2015.7171907, link author version.

[2]    D. Schlipf, P. Fleming, S. Kapp, A. Scholbrock, F. Haizmann, F.Belen, A. Wright, P. W. Cheng, Direct Speed Control Using LIDAR and Turbine Data, American Control Conference (ACC), pp. 2208-2213, Washington, USA, June 2013 (invited), DOI: 10.1109/ACC.2013.6580163, link author version.

[1]    A. Scholbrock, P. Fleming, L. Fingersh, A. Wright, D. Schlipf, F. Haizmann, F. Belen, Field Testing LIDAR-Based Feed-Forward Controls on the NREL Controls Advanced Research Turbine, 51st AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition, Grapevine, USA, January 2013, DOI: 10.2514/6.2013-818, link author version.

Publications in Conference Proceedings

[3]    F. Haizmann, D. Schlipf, P. W. Cheng, Correlation-Model of Rotor-Effective Wind Shears and Wind Speed for LiDAR-based Individual Pitch Control, German Wind Energy Conference (DEWEK), Bremen, Germany, May 2015, link author version.

[2]   F. Haizmann, P.W. Cheng, Advanced Lidar-Assisted Control of Wind Turbines, 9th EAWE PhD Seminar on Wind Energy in Europe, Visby, Gotland/Sweden, September 2013.

[1]    D. Schlipf, A. Rettenmeier, F. Haizmann, M. Hofsäß, M. Courtney, P. W. Cheng, Model Based Wind Vector Field Reconstruction from Lidar Data, German Wind Energy Conference (DEWEK), Bremen, Germany, November 2012, link author version.

Conference Contribution without paper

[4]   I. Würth, F. Haizmann, J. Anger, D. Schlipf, M. Hofsäß, S. Raach, P.W. Cheng, Four years of nacelle-based lidar measurements in alpha ventus – a review, Presentation at RAVE Offshore Wind R&D Conference, Bremerhaven, October 2015.

[3]   S. Raach, D. Schlipf, F. Haizmann, H. Fürst, I. Würth, P.W. Cheng, Advances in lidar-assisted control and power curve measurement of wind turbines in the LIDAR II project, Presentation at EWEA Offshore, Copenhagen, Denmark, March 2015.

[2]    F. Haizmann, D. Schlipf, N. Cosack, D. Neuhaus, S. Raach, T. Maul, P. W. Cheng, Field Testing of LiDAR assisted Feed-Forward Control on a Large Commercial Wind Turbine, Poster at the EWEA Annual Event, Barcelona, Spain, March 2014.

[1]    F. Haizmann, P. Fleming, D. Schlipf, A. Scholbrock, M. Hofsäß, A. Wright, P. W. Cheng, Implementation of an Online Correlation Analysis for an Adaptive LiDAR based Feed-Forward Controller for Wind Turbines, Poster at the EWEA Annual Event, Vienna, Austria, February 2013.

Lehre:

Windenergienutzung I - Übungen (SS13 und SS14)

Lebenslauf:
  • 2006-2012: Studium Technische Kybernetik an der Universität Stuttgart
  • 2010-2011: Auslandsstudium am Royal Institut of Technology, Stockholm/Schweden
  • 2011: Praktikum bei der Robert Bosch GmbH, Zentralbereich Forschung und Vorausentwicklung,
    Auswertung von Lidar-Messungen
  • 2012: Diplomarbeit "Implementation of an Adaptive Feedforward Control for Load Reduction of Wind Turbines"
    am Stiftungslehrstuhl Windenergie (SWE) und am National Renewable Energy Laboratory (NREL), Boulder/Colorado
  • seit 10/2012: Wissenschaftlicher Mitarbeiter am Stiftungslehrstuhl Windenergie (SWE)