Dipl.-Ing. Stefan Netzband
Hamburg University of Technology (TUHH)
Institute for Fluid Dynamics and Ship Theory (M8)
Am Schwarzenberg-Campus 4 (C)
D-21073 Hamburg
Room C5.025
Phone: +49 40 42878 4721
Fax: +49 40 42878 6055
E-mail: stefan.netzband(at)tuhh(dot)de
Bio-Sketch
Schooling in Hamburg, Germany
2012
Dipl.-Ing., Mechanical Engineer, Hamburg University of Technology (TUHH)
2012 - 2013
Development engineer at TEMBRA GmbH & Co. KG
2014 - present
Research Assistant, Hamburg University of Technology.
Major Areas of Interest & Expertise
Offshore Wind Turbines
Publications
2024
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Low-uncertainty wave tank testing and validation of numerical methods for floating offshore wind turbines
Wind Energy Science 9 (10): 1941-1965 (2024-10-16)
Open Access | Publisher DOI -
OC6 project Phase IV : validation of numerical models for novel floating offshore wind support structures
Wind Energy Science 9 (4): 1025-1051 (2024)
Open Access | Publisher DOI -
Wind turbine rotors in surge motion : new insights into unsteady aerodynamics of floating offshore wind turbines (FOWTs) from experiments and simulations
Wind Energy Science 9 (3): 665-695 (2024)
Open Access | Publisher DOI
2023
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On the characteristics of the wake of a wind turbine undergoing large motions caused by a floating structure: an insight based on experiments and multi-fidelity simulations from the OC6 project Phase III
Wind Energy Science 8 (11): 1659-1691 (2023-11-10)
Open Access | Publisher DOI -
OC6 project Phase III: validation of the aerodynamic loading on a wind turbine rotor undergoing large motion caused by a floating support structure
Wind Energy Science 8 (4): 465-485 (2023-04-06)
Open Access | Publisher DOI -
Validation of a panel method with full-scale FOWT measurements and verification with engineering models
Journal of Physics: Conference Series 2626: 012061 (2023-11-06)
Open Access | Publisher DOI -
The impact of unsteadiness on the aerodynamic loads of a floating offshore wind turbine
Journal of Physics: Conference Series 2626: 012064 (2023-11-06)
Open Access | Publisher DOI
2022
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Experimental and numerical investigation of the yaw moment of a downwind coned wind turbine rotor
Wind Energy 25 (12): 1995-2015 (2022-11-15)
Open Access | Publisher DOI -
OC6 Phase Ia : CFD simulations of the free-decay motion of the DeepCwind semisubmersible
Energies 15 (1): 389 (2022)
Open Access | Publisher DOI
2021
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OC6 Phase Ib: Validation of the CFD predictions of difference-frequency wave excitation on a FOWT semisubmersible
Ocean Engineering 241: 110026 (2021-12-01)
Publisher DOI -
Fluid-structure interaction and stress analysis of a floating wind turbine
Marine Structures 78: 102970 (2021-07)
Publisher DOI -
Advances on simulation of wave-body interactions under consideration of the nonlinear free water surface
Ship Technology Research 1 (68): 27-40 (2021)
Publisher DOI
2020
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Passive self-aligning of a floating offshore wind turbine
Journal of Physics: Conference Series 5 (1618): 052027 (2020-09-22)
Open Access | Publisher DOI -
OC6 Phase I: Investigating the underprediction of low-frequency hydrodynamic loads and responses of a floating wind turbine
Journal of Physics: Conference Series 1618 (3): 032033 (2020)
Open Access | Publisher DOI -
Self-aligning behaviour of a passively yawing floating offshore wind turbine
Ship Technology Research 1 (67): 15-25 (2020-01-02)
Publisher DOI
2019
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Experimental investigation of a downwind coned wind turbine rotor under yawed conditions: preliminary results
Journal of Physics: Conference Series 1 (1356): 012018 (2019-10-24)
Open Access | Publisher DOI -
Drift stability of HyStOH semi-submersible supported by airfoil shaped structures
Journal of Physics: Conference Series 1 (1222): 012025 (2019-05-21)
Open Access | Publisher DOI
2018
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A panel method for floating offshore wind turbine simulations with fully integrated aero- and hydrodynamic modelling in time domain
Ship Technology Research 3 (65): 123-136 (2018-09-02)
Publisher DOI -
Forces on a submerged sub sea tidal kite in surface proximity
European Conference on Computational Mechanics: Solids, Structures and Coupled Problems, ECCM and 7th European Conference on Computational Fluid Dynamics, ECFD: 3213-3223 (2018-06)
2016
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Entwicklung von panMARE als Paneelverfahren für interdisziplinäre maritime Anwendungen
Jahrbuch der Schiffbautechnischen Gesellschaft 2016