Martina Göring, M.Sc.

Model adaption of generic rotor blades for runtime extension assessments using optical 3D measurement technology and experimental modal analysis
mail:
tel: +49 (0) 441 - 7708 - 3166
room: G 207

Books and Papers

Große-Schwiep, M.; Hastedt, H.; Luhmann, T. (2013): Deformationsmessung mit terrestrischem Laserscanning und Photogrammetrie. In: Luhmann/Müller (Hrsg.): Photogrammetrie, Laserscanning, Optische 3D-Messtechnik – Beiträge der 12. Oldenburger 3D-Tage 2013, Wichmann, 86-94
Große-Schwiep, M.; Piechel, J.; Luhmann, T. (2013): Measurement of Rotor Blade Deformations of Wind Energy Converters with Laser Scanners. ISPRS Workshop Laserscanning 2013, Antalyia, Türkei. In: ISPRS Annals of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Volume II-5/W2, 97-102

Presentations

No results!

Projects

funded by: Federal Ministry for Economic Affairs and Climate Action
Subproject Optical 3D Measurement Technology: For making of reliable wind turbine runtime extension assessments, a new method is being developed that takes into account the geometry and modal properties of the respective rotor blade. These are deter... more
funded by: European Fonds for Regional Development (EFRE)
The aim of the collaborative project is the simultaneous geometric recording of turbulent wind flow fields (fluid behaviors) and deformations of rotor blade surfaces of wind energy systems. This helps to generate new knowledge about the influ... more
people
Prof. Dr.-Ing. habil. Dr. h.c. Thomas Luhmann (head) Sinah Vogel (01.2021-04.2021) Dr. Ing. Thomas Willemsen (10.2018-06.2019) Simon Nietiedt, M.Sc. Annika Katrin Jepping, B.Sc. Martina Göring, M.Sc. Robin Rofallski, M.Sc.
funded by: PhD program Jade2Pro
The aim of the PhD project is to develop an innovative approach for detection of the dynamic states of rotor blades during operation without contact and targeting more

Bachelor & Master Theses


Untersuchungen zur Erfassung von spiegelnden und transparenten Oberflächen aus Laserscan-Punktwolken (2022/10)
Analyse von Registrierungsverfahren und Instrumentenfehlern beim Einsatz von terrestrischen Laserscannern am Beispiel von komplexen Kirchenbauwerken (2019/8)