Dr.-Ing. Martina Göring

Books and Papers

all 2013 2014 2015 2016 2017 2019 2020 2021 2022 2023 2025

Entwicklung eines fächerartigen Distanzmesssystems zur Messung von Rotorblättern – Konzept, Orientierung und erste Ergebnisse

2017

Göring, M. Luhmann, T.

In Luhmann/Schumacher (eds.): Photogrammetrie, Laserscanning, Optische 3D-Messtechnik – Beiträge der 16. Oldenburger 3D-Tage, Wichmann Verlag, Offenbach/Berlin, pp. 52-65

Intensity of the terrestrial laser scanning data: incident angle and surface reflectance effects

2017

Eric, V. Göring, M. Luhmann, T.

In Luhmann/Schumacher (eds.): Photogrammetrie, Laserscanning, Optische 3D-Messtechnik – Beiträge der 16. Oldenburger 3D-Tage, Wichmann Verlag, Offenbach/Berlin, pp. 40-49

Optische Messung der Verformung von Rotorblättern unter Windlast

2016

Luhmann, T. Große-Schwiep, M. Jepping, C.

Tagungsband 5. VDI-Fachtagung Optische Messung von Funktionsflächen, Nürtingen bei Stuttgart, VDI-Bericht 2285, VDE Verlag, 33-45

An Approach for the Measurement of Rotor Blade Deformations During Operation

2015

Große-Schwiep, M. Piechel, J. Luhmann, T.

Proceedings 2nd Conference for Wind Power Drives, 2015, Aachen

Deformationsmessung mit terrestrischem Laserscanning und Photogrammetrie

2014

Große-Schwiep, M. Hastedt, H. Luhmann, T.

Allgemeine Vermessungsnachrichten, Wichmann VDE Verlag, 2/2014, 43-52

Presentations

all 2013 2014 2015 2016 2017 2018 2020 2024

Messung von Verformungen der Rotorblätter einer Windenergieanlage mit Laserscannern

Februar 2014

Göring, M.

Oldenburger 3D-Tage, Oldenburg

Projects

Model adaption of generic rotor blades for runtime extension assessments using optical 3D measurement technology and experimental modal analysis

2023-2026

Funded by Federal Ministry for Economic Affairs and Energy

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 determined using optical 3D measure... more

TurbuMetric - Optical 3D measurement techniques for detecting dynamic fluid-structure interactions in turbulent wind environments

2018-2022

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 influence of wind loads on wind ene... more

People

Prof. Dr. Thomas Luhmann (head)

Sinah Vogel (01.2021-04.2021)

Dr. Thomas Willemsen (10.2018-06.2019)

Simon Nietiedt

Annika Katrin Jepping

Dr. Martina Göring

Robin Rofallski

Development of a measuring method without contact and targeting for the detection of moving rotor blades of wind turbines in laboratory and field tests

2014-2023

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

all 2019 2022 2024

Untersuchungen zur Erfassung von spiegelnden und transparenten Oberflächen aus Laserscan-Punktwolken

2022/10

Supervisors

Prof. Dr. Thomas Luhmann