2025 Conference
Programme from 2025 conference - 15 - 17 January
Programme - EERA DeepWind'2025 conference
Summary and list of keynote speakers on #SINTEFblog
Roundup of the Conference on the FME NorthWind website
Journal of Physics: Conference series: Papers will be published here in Autumn 2025
Presentations from the conference:
You can find the list of presentations below. Links to the actual presentations will be added within the next few days.
Opening session - Frontiers of Science and technology |
||||
| Ocean Grid – New grid solutions for profitable offshore wind development | Sverre Skalleberg Gjerde, Leading Engineer Electrical Power Systems, Equinor | |||
| GoliatVIND – Accelerating the transition from fossil to renewable energy with floating wind | Gunnar Birkeland, CEO, Source Galileo | |||
| Concrete – for constructing cost-effective and sustainable offshore structures | John Sunde, Project Manager, Heidelberg Materials | |||
| NorthWind – Diagnostic Digital Twin for Anomaly Detection in Floating Offshore Wind Energy | Florian Stadtmann, NTNU/SINTEF | |||
| Advancing digital skills in wind and energy systems engineering | Tuhfe Göçmen, Senior Researcher, DTU | |||
New turbine and generator technology |
||||
| Alternative turbine concepts for floating wind: research results on VAWTS and Touchwind concepts | Feike Savenije, TNO | |||
| Load and Power Averaging in Multi Rotor Wind Turbine Systems | Sven Störtenbecker, Hamburg University of Applied Sciences | |||
| Fast response methods for floating wind turbines | Bogdan Pamfil, DTU | |||
Met-ocean conditions |
||||
| The LoLIand offshore Lidar EXperiment (Lollex) | Shokoufeh Malekmohammadi, University of Bergen | |||
| Let's (Un)twist again: Hybrid Wind Field Reconstruction on Floating Lidar Systems | Felix Kelberlau, Fugro Norway AS | |||
| Stable boundary layer wind profiles - A comparison of analytical models and LIDAR observations | Lennart Vogt, University of Stavanger | |||
| Wind and Precipitation Conditions in Offshore Wind Farm Zones: Insights from Satellites and Weather Simulations | Tsvetelina Ivanova, Von Karman Institute for Fluid Dynamics | |||
| Prediction of typhoon-induced extreme wave height using mesoscale model and tropical cyclone best track data | Masato Fukushima, University of Tokyo | |||
| Comparative Analysis of WRF Wind Simulations and Observations in the North Sea | Kisorthman Vimalakanthan | |||
| Characterization of Low-Level Jet Events at different Offshore Locations | Bjarne Köhlken, Carl von Ossietzky Universität Oldenburg | |||
| Wake Impact Analysis at Sørlige Nordsjø II Project and a Southern Northw Sea Park Cluster | Mostafa Bakhoday Paskyabi | |||
| Measuring and simulating offshore wind: Hands-on experience and challenges in the North and Baltic Seas | Christiane Anabell Duscha, Norconsult | |||
| Influence of Turbulence Schemes on Wind Farm Parameterization in Mesoscale Models | Jake Badger, DTU WInd and Energy Systems | |||
Experimental testing and validation |
||||
| Field experiments of wind turbine vibrations in standstill conditions | Johan Peeringa, TNO | |||
| Nonlinear hydrodynamic loads on partially submerget cylinders of floating wind turbines | Ignacio Johannesen, DTU Wind | |||
| Experimental Analysis of Wakes in Floating Wind Turbines Under Dynamic Induction Control | Alessandro Bianchini, Universita Degli Studi Di Firenze | |||
| Aerodynamic Angle of Attack Measurement Using Airfoil Pressure Ports for Offshore Wind Turbine Validation | Christopher Kelley, Sandia National Laboratories | |||
| Advancing wind turbine blade en-of-life assessments with Bayesian model updating: Case study on decommissioned blade | Andrés Ignacio Martínez Colán, Netherlands Organisation of Applied Scientific Research | |||
| OC7 Phase I. Advancing Hydrodynamic Modeling of Practices for Floating Offshore Wind Turbines | Amy Robertson, NREL | |||
| FloatLab: Experimental testing of +20MW scaled floating wind turbine models | Fabio Pierella, DTU Wind and Energy Systems | |||
| Cyber-physical testing of floating wind turbine farm with shared mooring | Vishnu Ramachandran Nair Rajasree, NTNU | |||
| An Experimental Study for Yaw-excitation Phenomena of 8 MW-class FOWT in Oblique Waves | Jeong-Seok Kim, Korea Research Institute of Ships and Ocean Engineering | |||
| Experimental Characterization of VolturnUS-S Semisubmersible Floating Offshore Wind Turbine Platform in Irregular Waves | Ethan Edward Lust, U.S. Naval Academy | |||
| Sensitivity analysis on multi-fidelity simulation methods for a floating offshore wind turbine | Arjen Hemmy Koop, MARIN | |||
| Experimental and numerical modelling of a dynamic power cable in waves and currents | Philipp R. Thies, University of Exeter | |||
| Blade surface pressure measurements in the field and their usage for aerodynamic model validation | Johan Peeringa, TNO | |||
| Research and demonstration opportunities at the end of life of offshore test field alpha ventus | Bernhard Lange, Fraunhofer IWES | |||
| High power test sites to consolidate industrialisation of FOW in Europe | Cecilia Girard-Vika, METCentre | |||
Environmental impact |
||||
| The impacts of offshore wind on the Sustainable Development Goals - an outlook | Nikki Luttikhuis, SINTEF Industry | |||
| A prospective lifte cycle assessment of drivetrain technologies in offshore wind | Vinit Vijay Dighe, TNO | |||
| Advancing Sustainable Development through Mjulti-Use Offshore Wind Farms: Insights from the OLAMUR Project | Dorothy Dankel, SINTEF Ocean | |||
Grid connection and power system integration |
||||
| Environmental effect of floating wind electrical infrastructure alternatives | Håkon Eidsvik, Mainstream Renewable Power, Jørgen Skagemo, Nexans Norway AS | |||
| Towards integrating floating wind farms in power grids: numerical modeling strategies through multi-fidelity numerical tools | Bonaventura Tagliafierro, Uppsala University | |||
| Offshore Hybrid Systems based on Floating Wind Farms in Italy: Techno-Economic Considerations and Preliminary Results | Francesco Lanni, RSE S.P.A. | |||
| Onshore versus offshore hydrogen production, LCoH analysis for several wind farm configurations for post 2030 | Bernard H. Bulder, TNO | |||
| Offshore electrolysis with hydrogen storage at Sørlige Nordsjø II | Espen Flo Bødal, SINTEF | |||
| Optimization of Offshore Wind Farm Collection Grids: Hybrid Transmission Systems and AI-driven Substation Placement | Mojtaba Moradi Sepahvand, TNO | |||
| An electromagnetic transient model of a wind-powered grid-forming energy hub for an offshore platform cluster | Daniel dos Santos Mota, SINTEF | |||
| Design and Control of a Multilevel Inverter for Gridf-Connected 24 MW Craft | Hans Bernhoff, Uppsala University | |||
Substructures and mooring |
||||
| Enhanced Methodology for Structural Load Analysis in Concrete Floating Offshore Wind Turbine Substructures | Håkon Drengsrud, Dr.techn. Olav Olsen | |||
| Application of the Global Influence Superposition Method for High-Speed Structural Assesment of Floating Wind Turbines | Michael Karch, Ramboll | |||
| Accurate load mapping for fatigue analysis of floating offshore wind turbine substructures | Victor Bernard J Rappe, Ghent University | |||
| Structural analysis of a concrete floating platform: Ensuring tank water-tightness under extreme events | Amaia Marco, CENER | |||
| Planning for re-tensioning? A probabilistic take on post-installation fibre rope elongation | Lars Frøyd, 4Subsea | |||
| Exploring second order tower dynamics: a comparison between measurements and an updated finite element model | Tim Reinhardt, Vrije Universiteit, Brussel | |||
| Scaled Model Test for Out of Plane Bending Measurement Under Floater Motion | Yoshitaka Mizushima, University of Tokyo | |||
| OpenFAST Simulation of Floating Offshore Wind Turbines with Large Heading Change | Jason Mark Jonkman, National Renewable Energy Laboratory (NREL) | |||
| Honeymooring 2.0: Load- reduction and anchor-shariong for FWTs in all depths | Kasper Sandal, Semar AS | |||
| Integration of dynamic cables and mooring in floating substation analysis | Tor Anders Nygaard, IFE | |||
| Technology Review and suitability analysis of Tension-Leg Platform Floating Wind Turbines | Daniel Milano, Offshore Renewable Energy Catapult | |||
Wind farm optimization |
||||
| Towards offshore wind farm design accounting for wake uncertainties | Pierre-Elouan Mikael Réithoré, DTU | |||
| Assessing the relevance of trade-offs in optimising a honeycomb wind farm layout with shared anchors | Matteo Baudino Bessone, Delft University of Technology | |||
| Wake losses and power production at the Vestavind F offshore wind farm | Jan Bartl, Western Norway University of Applied Sciences | |||
| Contribution of reliability and interactions between turbines in the optimization of an offshore wind farm | Francois Roux, France Energies Marines | |||
| Design of deep-water mooring systems, suspended power cables, and array layout | Ericka Lozon, National Renewable Energy Laboratory | |||
| A robust estimation method of wind farm flow field conditions using wind turbine level information | Feike Savenije, TNO | |||
| Optimization strategy to quantify the potential of low-specific-power floating wind turbines in non-conventional sea basins | Alessandro Bianchini, Università Degli Studi Di Firenze | |||
| Development of an integrated Toolset for Floating Wind Array Design | Matthew Hall, National Renewable Energy Laboratory | |||
Wind farm control |
||||
| Moving Wind Farm Control towards bankability, first results from a Joint Industry Project | Lars Landberg, DNV | |||
| Wind turbine wake detection and vcharacterisation utilising blade loads and SCADA data: a generalised approach | Piotr Fojcik, University of Strathclyde | |||
| Lifetime impact on wind turbine component fatigue of wind farm set-point control dispatch allocation strategies | Matthew Cole, University of Strathclyde | |||
| Analysis of leading-edge erosion impact on the design and performance of wind farm flow control | Iñaki Sandua-Fernández, CENER | |||
| Performance of Floating Wind Turbine Control Strategies During Transient Atmospheric Events: Focus on Low-Level Jets | Mostafa Bakhoday Paskyabi, University of Bergen | |||
Marine operations and logistics |
||||
| Comprehensive Validation of HLM Maintenance Methods Using Numerical and Basin Test Simulations | Tanguy Coquio, France Energies Marines | |||
| Operability Estimation Tool for Offshore Wind Marine Operations | Simen Brodalen Lysthaug, SINTEF Ocean AS | |||
| Improving O&M simulations by integrating vessel motions for floating wind farms | Vinit Vijay Dighe, TNO | |||
| Wet-storage solutions for floating offshore wind in Ireland | Ross O'Connell, University College Cork | |||
Societal impact and regulatory framework |
||||
| Regulatory roadmap for developing hybrid offshore wind projects between Norway and Europe | Catherine Banet, University of Oslo | |||
| People on Offshore wind: Exploring just and sustainable development through local involvement at Utsira Nord | Katja Bratseth, Byantropologene AS, Sara Heidenreich, NTNU | |||
| SEA of Uncertainties | Finn Corus, University of Bergen | |||
| The impact of Offshore Wind on Onshore Communities in Haugalandet, Norway | Thea Lurås Oftebro, NTNU | |||
Digitalisation and AI to optimise operation and maintenance |
||||
| Disruptive approach to accelerate digital transformation in offshore wind | Elin Nordmark Blegen, Bouvet, Øystein Hult, Equinor | |||
| Validation and Application of a Digital Twin for Enhanced Monitoring and Analysis of Wind Turbines | Camil Matoug, France Energies Marines | |||
| Structural Surrogate Modelling of a Floating Offshore Wind Turbine with Physics-Guided Spatial-Temporal Graph Neural Network | Kobe Hoi-Yin Yung, University of Strathclyde | |||
| Assessment of Deep Learning Models for Turbine Load Prediction Using Alpha Ventus Wind Farm Data | Dexing Liu, University of Strathclyde | |||
| Large Scale simulation models of combined wind-electrolyser plant for virtual testing based on FMUs | Marcus Wiens, Fraunhofer IWES | |||
| Early and Deterioration Stage Wind Turbine Reliability Models: A Case Study for the Converter System | Fraser Anderson, Fraunhofer IWES | |||
| Probabilistic Load Estimation of Aging Wind Turbine Blades Using a Bayesian Network Framework | Hannah Rose Mitchell, IDCORE | |||
| Blade erosion detection via acoustic signals on an offshore wind turbine | Kayacan Kestel, Vrije Universiteit Brussel | |||
| Investigation of AI-Based Model Response for Early Anomaly Detection in Scale Wind Experimental Campaigns | Rudy Alkarem, University of Maine | |||
Mass Production |
||||
| Efficient production of offshore structures using laser-based welding | Ivan Bunaziv, SINTEF | |||
| Laser Beam Welding in Vacuum: An Innovative Process for Cost-optimised Foundation Structures | Simon Olschok, RWTH Aachen University | |||
| Acoustic methods for manufacturing and quality control: a case study of laser welding of steel | Cristiana Golfetto, SINTEF | |||
| Advancing Robotic Grinding for Efficient Production of Large Wind Substructures | Eirik B. Njåstad, SINTEF | |||
Closing session |
||||
| Offshore wind development in Japan | Mototsugu Ikari, General Manager International Alliance, FLOWRA | |||
| Data-Ddriven Approaches in Computational Mechanics for Offshore Wind Energy Applications | Cristian Guillermo Gebhardt, Professor, UiB | |||
| Verifying and validating offshore wind modelling tools | Amy Robertson, Offshore Wind Group Manager, NREL | |||
| A roadmap to making energy islands a success | Nicolaos Cutululis, Professor, DTU | |||
Posters |
||||
New turbine and generator technology |
||||
| An insight on FOWT wake development through high-fidelity simulations of a pitching rotor | Alessandro Bianchini, Università Degli Studi Di Firenze | |||
| Prediction of air gap uncertainty in a rotary transformer of a novel wind turbine concept | Adriana Correia Da Silva, NTNU | |||
| Simulation and Modeling of Power Take-Off Dynamics in Floating Axis Wind Turbine | Susumu Kono, Tokyo Electrtic Power Company Holdings, Inc. | |||
| Design of multipole induction machine of an experimental stationary setup for the CRAFT | Izabella Simonsson, Uppsala University | |||
| Best practices in FOWT modelling with a GPU-resident large-eddy simulation weather model coupled to OpenFAST | Evert Wiegant, TU Delft | |||
Grid connection and power system integration |
||||
|
Hans Bernhoff, Uppsala University | |||
| Power fluctuations from offshore wind farms for various farm sizes and wind conditions | Valentin Chabaud, SINTEF Energi AS | |||
| Grid and Market Impacts of Norwegian Offshore Wind Using the Power GAMA Simulation Tool | Liam Dauchat, NTNU | |||
| Development of a modular and production-optimized floating multi-purpose platform | Hauka Hartmann, GICON Großmann Ingenieur Consult GmbH | |||
| Offshore wind curtailment in future grids | Lars Andreas Hermansen, SINTEF/NTNU | |||
| Passivity characteristics of three virtual synchronous machine implementations | Andrew Macmillan Smith, SINTEF/NTNU | |||
| Long HVAC subsea cable connections: review of technical challenges and research needs | Thomas Treider, SINTEF Energi AS | |||
| Cost-saving potential of utilizing a shared electrical connection to shore for an offshore wind farm and a cluster of oil and gas platforms | Thomas Treider, SINTEF Energi AS | |||
| Wind-powered offshore energy hubs supplying offshore oil and gas installations | Harald Svendsen, SINTEF Energi AS | |||
Metocean conditions |
||||
| Model of the flow around offshore wind turbine foundations based on a one-way nesting technique | Marta Alvir, University of Rijeka | |||
| The infliuence of atmospheric stability on floating-lidar-observed turbulence intensity and its correction via machine learning | Marcos Araújo, EOLOS | |||
| Trends in Future of Offshore Wind Power Production: Wake, Fatigue Loads, and Climate Change Impacts | Mostafa Bakhoday Paskyabi, University of Bergen | |||
| Spatial Wind Energy Correlation and Intermittency: Wake Effects of 15MW Turbines in the North Sea | Victor Dahl, University of Bergen | |||
| Low-level jets representation in numerical models: insights from LiDAR observations | Hoang Hai Bui, University of Bergen | |||
| Environmental lumping methods for floating wind turbines | Aaron Henskens, Mocean Offshore | |||
| High resolution wind lidar observation of Kelvin-Helmholtz billows above an offshore wind farm | Shokoufeh Malekmohammadi, University of Bergen | |||
| An assessment of the metocean conditions between two North Sea offshore economic zones | Rebeca Marini, Vrije Universiteit Brussel | |||
| Improved Monte Carlo-Simulation method for OWT design exposed to tropical cyclones | Paul Renaud, France Energies Marines | |||
| Estimation of atmospheric stability from NORA3 for offshore wind applications | Joachim Reuder, GFI / UiB | |||
| SAMURAI - Making sonic anemometers fly | Joachim Reuder, GFI / UiB | |||
| Study of the impact on offshore wind energy of subtropical weather conditions | Irene Eguinoa Erdozain, CENER | |||
| The design wind seed and air density in mixed climate region | Atsushi Yamaguchi, University of Tokyo | |||
| Prediction of vertical profiles of offshore wind considering the effects of atmospheric stratification | Yunpeng Song, University of Tokyo | |||
Digitalisation and AI to optimise operation and maintenance |
||||
| Implementing Uncrewed Surface Vessels for subsea inspection and survey in offshore windfarm O&M | Alex Eckl, Fugro | |||
| Framework for Evaluating Influence of Physiological and Environmental Performance Shape Factors on Wind Turbine Maintenance | Arvind Keprate, Oslo Metropolitan University | |||
| Knowledge Graph-Driven Anomaly Detection in Wind Turbines Using SCADA Datasets | Arvind Keprate, Oslo Metropolitan University | |||
| Leveraging Data-Driven Techniques in LiDAR and SCADA Data to Enhance Analysis of Floating Offshore Windfarm | Bjørn Eirik Rognskog Nordbak, NMBU | |||
| Prediction of Mooring Tension of a Floating Wind Turbine Using Motion Sensors and Neural Networks | Mohammad Arif Payenda, University of Agder | |||
Substructures and mooring |
||||
| Application of OMA for Low-Frequency Modes Detection in FOWT: Numerical Study on OC4-DeepCwind Semi-Submersible | Abdulelah Abdullah AI-Ghuwaidi, OWI-Lab, VUB | |||
| Optimal jacket leg-joint transitions | Adriana Correia Da Silva, NTNU | |||
| On the preliminary integrated design of a 10MW floating wind turbine | Alessandro Croce, Politecnico di Milano | |||
| Dynamic Stiffness of Nylon Ropes under Harmonic and Stochastic Loading: Experimental Characterisation and Modelling | Mathis Feuvrie, GeM - Ecole Centrale de Nantes | |||
| Reference Mooring Design and Dynamic Cable Configuration for the Utsira Nord Floating Wind Farm | Dallán Friel, Gavin and Doherty Geosolutions | |||
| Numerical modeling and validation of the hydroelastic response of a flexible spar platform | Seung-Yoon Han, Ecole Centrale Nantes | |||
| Tight coupling of simulation tools for offshore wind turbines using a centralized solver | Ole Andreas Hermundstad, SINTEF Ocean AS | |||
| Response Analysis of Monopile-Supported Large Offshore Wind Turbine under Wind, Wave, and Earthquake Loads | Hiroaki Kashima, Port and Airport Research Institute | |||
| Power cable fatigue in floating wind turbines | Olav Katle Fleten, NTNU | |||
| The design of Offshore Green Hydrogen production platforms state-of-the-art and industrial practices | Erik Maatje, NTNU / TU Delft | |||
| Conditioning analysis of tower bending moment measurements from the TetraSpar Demonstrator floating wind turbine | Guy McCauley, University of Western Australia | |||
| Developing av MegaWatt Scale Array of Vertical-Axis Wind Turbines (VAWTs) on a Single Floating Platform | Joseph Mee, University of Galway | |||
| FEM formulations for nonlinear dynamics of shear- and torsion-free rods in mooring line applications | Thi-Hoa Nguyen, University of Bergen | |||
| Simplified wind turbine models for floating substructure design | Julien Pélé, Ekium (Sofresid Engineering) | |||
| Open-access simulation dataset of the floating wind turbine DeepCwind OC4 semi-submersible in wind and waves | Ajie Brama Krishna Pribadi, Ghent University | |||
| Converting laser scans of tubular joints to finite element models for detailed stress analysis | Jele Plets, Ghent University | |||
| On the effect of substructure motions on the aerodynamic loads of floating offshore wind turbines | Bruni Roccia, University of Bergen | |||
| Gradient-based design optimization of floating wind turbines using surrogate models for hydrodynamic coefficients | Peter Joshua Rohrer, NTNU | |||
| Dynamic Analysis of Anchor Loads for a Floating Offshore Wind Farm | Rune Schlanbusch, NORCE Norwegian Research Centre AS | |||
| A Concrete Floating Platform for large-scale Offshore Wind Turbines | Milad Shadman, Federal University of Rio de Janeiro | |||
| Estimation of Nonlinear Froude-Krylov Forces using a Fully Nonlinear Potential Flow Model | Ashlesh Sadashiv Sharma, Western Norway University of Applied Sciences | |||
| Influence of soil-structure interaction on aero-elastic multi-body dynamics of floating wind turbines | Long Teng, Zhejiang University | |||
| Dynamic cable optimisation using genetic algorithm for lazy wave, tethered lazy wave and suspended configurations | Caroline Valenchon, OWC | |||
| Surrogate Model Based Time-Domain Design Optimization of Floating Wind Turbines | Busra Yildirim, DTU Wind and Energy Systems | |||
Marine operations and logistics |
||||
| The impact of sea ice on offshore wind farm operations and maintenance | Orla Jane Donnelly, University of Strathclyde | |||
| Potential Benefits of Including Motion Sickness Predictions in an Offshore Wind Operational Planning Tool | Johan Peeringa, TNO | |||
| Tow-to-port operations for offshore floating wind farms: theoretical modelling informed by real-world insights | Paul Watissée, PEAK Wind | |||
Wind farm optimisation |
||||
| Relevance of life-cycle trade-offs in substructure concepts selection for floating wind turbines | Matteo Baudino Bessone, Delft University of Technology | |||
| Impact of reliability parameters on O&M costs and greenhouse gas emissions of offshore wind farms | Moritz Johann Gräfe, DTU Wind and Energy Systems | |||
| Farm-Level Risk Prioritization of Structural and Substructural Failure Modes in Floating Offshore Wind Arrays | Mitra Kamidelivand, University College Cork | |||
| Floating Offshore Wind Cost Optimization Strategy to Enable a Rapid Energy Transition | Yong Yook Kim, Institute for Advanced Engineering | |||
| MEGA4Wind - A floating megawatt scale VAWT for wind energy generation off the Irish Coast | Joseph Mee, University of Galway | |||
| Wind Farm Layout Optimization Using Machine Learning-Enhanced Wake Modeling and SLSQP Optimization Techniques | Bjørn Eirik Rognskog Nordbak, NMBU | |||
| A Wind to Hydrogen Model for Design of Off-Grid Wind to Hydrogen Systems | Adam Stock, Heriot-Watt University | |||
| Digital Twins for Offshore Wind Energy | Vasileios Tsiolakis, SINTEF | |||
Experimental testing and validation |
||||
| Force Analysis of HEave Plate Dynamics with Stochastic motion in Irregular waves | Sithik Aliyar, DTU | |||
| Load effect analysis of semi-submersible floating wind turbine tower, considering high-order wave loading excitation | Haozhe Bai, OUC/NTNU | |||
| Geographically distributed hybrid testing for wind turbine components using co-simulation | Elif Ecem Baş, RD Test Systems AS | |||
| Innovative calibration procedure of numerical models for FOWTs: an experimental validation | Andrea Bertozzi, Politecnico di Torino | |||
| Development of a Computational Model to replicate WARER Experiments for Blade Erosion Studies | Dylan S. Edirisinghe, South East Technological University | |||
| An Experimental Study on the Statistical Instability of a 15MW Class FOWT | Yoon-Jin Ha, Korea Research Institute of Ships and Ocean Engineering | |||
| Coupled vibrations of rigid floaters suporting flexible towers | Sylvain Jamet, SINTEF | |||
| Simulations of a floating offshore wind turbine in irregular waves by coupling OpenFOAM and OpenFAST | Young Jun Kim, Korea Research Institute of Ships and Ocean Engineering | |||
| Hydrodynamic comparison of 1:40 and 1:100 Froude-scale models of a lightly moored WINDMOOR semi-submersible | David Lande-Sudall, Western Norway University of Applied Sciences | |||
| Numerical model-of-the-model validation of a FOWT based on a real-time hybrid test campaign | Vincent Leroy, Centrale Nantes | |||
| Innovative Dual Scanning Lidar Campaign for Near-Shore Wind Resource Assessment: Insights into Coastal Wind Dynamics | Robert Menke, DNV Energy Systems Germany GmbH | |||
| Design of a two-bladed teetering downwind rotor for wind tunnel testing | Franz Volker Mühle, TUM WInd Energy Institute | |||
| Advancing Floating Offshore Wind Technology: Three-way validation of the 2MW DemoSATH Prototype | Borja Navascues, Saitec Offshore Technologies | |||
| Data-Driven Estimation of Quadratic Transfer Functions using NARX and Harmonic Probing | David Stamenov, Aarhus University | |||
| Optimal experimental design for estimating Low-Frequency Hydrodynamic Loads | David Stamenov, Aarhus University | |||
| In-simulation Wind Load Estimation on Floating Wind Turbines using High-fidelity Modeling | Bonaventura Tagliafierro, Uppsala University | |||
Wind farm control systems |
||||
| Integrated Control Strategy for Mitigating Yaw Drift in Single-Point Moored Floating Wind Turbines | Carlos Renan Dos Santos, Institute for Energy Technology | |||
| Optimal Control of a Floating Wind Farm Based on Turbine Repositioning | Leendert Starink, TU Delft | |||
Environmental Impact |
||||
| Investigating the interaction of structural vibration and noise in an offshore wind turbine using OpenFOAM | Kaan Akkaş, University of Bergen | |||
| Underwater Operational Noise from Floating Wind Turbines: A Casae Study in Hywind Tampen Offshore Park | Mostafa Bakhoday Paskyabi, University of Bergen | |||
| SEADOTs – Socio-ecological ocean management applications using Digital Ocean Twins | Ute Brönner, SINTEF | |||
| An initial study on the environmental value of wind farm control | Samuel Kainz, Technical University of Munich | |||
| Analysis of offshore wind energy harvesting potential in the Adriatic sea | Ivana Lučin, Faculty of Engineering, University of Rijeka | |||
| Life Cycle Assessment of a Floating LiDAR System for Offshore Wind Energy | Salma Yahiaoui, AKROCEAN | |||
Mass production and manufacturing |
||||
| Enhancement of Weld Seams by Shot Peening at off-shore Constructions | Prof.Dr. Eckehard Müller, Bochum University of Applied Sciences | |||
| Sensor technology for robotic welding of wind turbine substructures | Katharina Simmen, SINTEF Manufacturing |