Scientific themes & sessions
Select a scientific theme to see:
- Non-exhaustive list of topics covered in regular sessions
- List of mini-symposia
- #01 Wind resource, metocean and extreme conditions
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- Topics
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- Extremes and gusts
- Metocean modeling
- Multiscale modeling
- Modeling turbulence for siting
- Lidars/remote sensing for wind resource assessment
- Lidars/remote sensing for turbulence measurements
- Icing
- Erosion
- Precipitation and lightning
- Forecasting
- Wind variability
- Climate change
- Complex terrain
- Machine learning for wind conditions
- Measurements and uncertainties
- Modeling and uncertainties
- Atmospheric flow simulation
- Air density
- Mini-symposia
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- MS#01.1 (Dual) Doppler Wind Radar for Wind Energy Applications
B. LANGE¹, J. GOTTSCHALL¹, B. HIRTH², J. SCHROEDER²
¹ Fraunhofer IWES|² Texas Tech University
- MS#01.2 Over Two Decades of Accurate Offshore Metocean Data from the FINO Platforms: Supporting the Wind Energy Transition
B. CAÑADILLAS¹, K. HERKLOTZ ², M. MORITZ ², A. LAMPERT¹ - ¹ Technische Universität Braunschweig (TUBS)|² Federal Maritime and Hydrographic Agency of Germany, BSH
- MS#01.3 The role of air-sea interactions in offshore wind energy applications
A. AIYER¹, S. PORCHETTA², K. YOUSEFI³, J. FISCHEREIT⁴, M. HOWLAND⁵, X. GUO LARSÉN⁴
¹ Lehigh University|² TU Delft|³ University of Texas at Dallas|⁴ DTU Dept of Wind and Energy Systems|⁵ Massachusetts Institute of Technology
- MS#01.4 Icing of wind turbine blades
T. KARLSSON¹, T. KIM²
¹ VTT Technical Research Centre of Finland Ltd.|² DTU Dept of Wind and Energy Systems
- MS#01.5 Wind resource for next generation 25+MW wind turbines: high altitude profiles and deviations from MOST
B. CONAN¹, S. WATSON², J. REUDER³
¹ LHEEA Centrale Nantes - CNRS|² TU Delft|³ University of Bergen
- MS#01.6 Understanding the Impact of Tropical Cyclones and Winter Storms on Offshore Wind Turbines
G. DESKOS¹, X. GUO LARSÉN²
¹ National Renewable Energy Laboratory|² DTU Wind and Energy System
- MS#01.7 New methods for turbulence measurements and models in offshore wind
J. GOTTSCHALL¹, F. ROUHOLAHNEJAD¹, M. THIÉBAUT²
¹ Fraunhofer IWES|² France Energies Marines
- MS#01.8 Lidars In and Out of Simulations – a collaboration between IEA Tasks 52 and 57
J. GOTTSCHALL¹, P. DOUBRAWA², S. LETIZIA²
¹ Fraunhofer IWES|² National Renewable Energy Laboratory (NREL)
- MS#01.9 Wind energy optimization for challenging sites and climatic conditions with special focus on blade erosion
B. MENDEZ LOPEZ¹, H. KASSEM², . HANNESDOTTIR³, V. RINTA-HIIRO⁴, C. HASAGER³, K. DYER⁵
¹ CENER|² Fraunhofer Institute for Wind Energy Systems - IWES |³ DTU Wind and Energy Systems|⁴ VTT Technical Research Centre of Finland|⁵ Offshore Renewable Energy Catapult - MS#01.10 Wind meets ocean: Joint assessment of atmospheric and oceanographic parameters throughout the life of an offshore wind project
S. YAHIAOUI¹, J. COLLINS²
¹ AKROCEAN|² The Crown Estate
- MS#01.11 Understanding the physics and aerodynamics of atmospheric flow for predicting wind power production and evaluating loads
B. MENDEZ LOPEZ¹, J. MANN², S. WATSON³
¹ CENER|² DTU|³ TUDelft
- MS#01.12 Uncertainty Quantification [UQ] in Wind, as of 2024
M. KELLY¹, C. MÖHRLEN², T. GEER ³
¹ Danish Technical University (Risø Campus)|² WeProg, DE/DK|³ Ørsted, USA branch
- MS#01.1 (Dual) Doppler Wind Radar for Wind Energy Applications
- #02 Wind farms and wakes
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- Topics
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- Active wake manipulation
- Wakes of floating turbines
- Cluster/ wind farm wakes and blockage
- Turbine wake dynamics
- Turbine or farm wake modeling
- Turbine or farm wake observations
- Novel simulation techniques
- Mini-symposia
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- MS#02.1 Data-driven flow modeling and control of wind farms
M. ABKAR¹, G.V. IUNGO², X. YANG³
¹ Aarhus University|² University of Texas at Dallas|³ Chinese Academy of Sciences
- MS#02.2 Modeling atmospheric boundary layer impacts on wind power from rotors to wind farm wakes
M. HOWLAND¹, S. PORCHETTA²
¹ Massachusetts Institute of Technology|² TU Delft
- MS#02.3 Wind Farm Flow Control Research Symposium, Hosted by IEA Wind Task 44
P. FLEMING¹, I.E. ERDOZAIN², T. GOCMEN³, J. VAN WINGERDEN⁴, N. AMIR⁵
¹ National Renewable Energy Laboratory|² CENER|³ DTU|⁴ TU Delft|⁵ NTNU
- MS#02.4 Wind Turbine Wake Modelling
M. MANOLESOS¹, S. IVANELL²
¹ National Technical University of Athens|² Uppsala University
- MS#02.5 The American WAKE experiment (AWAKEN): Recent research
N. HAMILTON¹, G.V. IUNGO², P. MORIARTY¹
¹ National Renewable Energy Laboratory (NREL)|² University of Texas at Dallas
- MS#02.1 Data-driven flow modeling and control of wind farms
- #03 Aerodynamics, aeroelasticity and acoustics
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- Topics
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- Rotor aerodynamics and flow control
- Aerodynamics and aeroelasticity of offshore turbines
- Impact of the complex atmosphere on rotor and plants
- Air-borne, structure-borne, and ground-borne vibrations
- Aeroelastic stability and vibrations
- Icing, erosion, soiling and precipitations
- Modeling from low to high fidelity, including FSI
- Field and wind tunnel testing
- Mini-symposia
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- MS#03.1 Gust Generation in Wind Tunnels for Wind Energy Research
O. UZOL¹, M. PERCIN¹, M. HÖLLING²
¹ Middle East Technical University|² Carl von Ossietzky Universität Oldenburg, ForWind Germany
- MS#03.2 Leading Edge Erosion: An Aerodynamic Perspective
F. GRASSO¹, D. MANIACI², G. SCHEPERS³, A. OLSEN⁴
¹ Vestas Technology Centre Porto|² Sandia Lab|³ TNO|⁴ DTU Dept of Wind and Energy Systems
- MS#03.3 Open-acces field database for wind turbine loads, inflow and wake characterization
C. BRAUD¹, F. BLONDEL², C. KELLER³, J. DEPARDAY⁴
¹ CNRS|² IFPEN|³ Sandia |⁴ OST
- MS#03.4 Mechanisms and Suppression Techniques of Flutter in Offshore Wind Turbines
M. ZHANG¹, W. YU²
¹ Harbin Institute of Technology (Shenzhen)|² Delft University of Technology
- MS#03.1 Gust Generation in Wind Tunnels for Wind Energy Research
- #04 Turbine technology and Control
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- Topics
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- Wind turbine loads and control
- Wind farm performance and control
- Floating offshore modelling and control
- Multi Rotor control
- Multi wind turbine control
- Electrical control impact on wind turbine and its controller
- Mini-symposia
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- MS#04.1 Value-centred design and operation of wind turbines and farms
M. KÜHN¹, C.L. BOTTASSO², D. VON TERZI³, L. PAO⁴
¹ ForWind - University of Oldenburg|² TU Munich|³ TU Delft|⁴ University of Colorado Boulder
- MS#04.2 Modeling and Control for FOWT Performance Improvement
M. AIT-AHMED¹, M.A. HAMIDA², H. CHAOUI³
¹ Nantes Université|² Ecole Centrale de Nantes|³ Carleton University
- MS#04.3 Active Wake Mixing
G. YALLA¹, K. BROWN¹, J. GUTKNECHT², J. FREDERIK³
¹ Sandia National Laboratories|² TU Delft|³ National Renewable Energy Laboratory
- MS#04.1 Value-centred design and operation of wind turbines and farms
- #05 Structures, structural integrity, materials
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- Topics
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- Advanced Design of Support Structures
- Geotechnical Engineering and Soil-Structure-Interaction
- Wave Loads on Support Structures
- Structural load modeling and design integrity assesment
- Support Structures- Critical Details, Joints, Repair
- Mechanical components: bearings, actuators…
- Drive Train Mechanics, Gearbox
- Rotor Blades - Critical Details, Joints, Repair
- Structural design, modelling and optimization of wind turbine rotor blades
- Novel structural testing and validation methods
- Design for industrialization (manufacturability, installability and supply chain)
- Marine operations, installation and decomissioning
- Fatigue modeling and lifetime assesment
- Lightweight, sustainable material science and manufacturing
- Circular economy and recyclability of materials
- Materials and structures durability in harsh environment
- Optimal systems design: integrated, multidisciplinary design approaches
- Lifetime Extension of Support Structures and Blades
- Mini symposia
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- MS#05.1 Welded Details of Offshore Wind Support Structures - Improvements in Fabrication, Design and Verification Procedures
K. SCHÜRMANN¹, E. GHAFOORI²
¹ Ramboll Deutschland GmbH|² Institute for Steel Construction, Leibniz University Hannover
- MS#05.2 Corrosion Fatigue of Offshore Renewable Energy Structures
S. SHOJAI¹, A. MEHMANPARAST², E. GHAFOORI³, W. DE WAELE⁴
¹ DLR - Institute of Maritime Energy Systems|² University of Strathclyde|³ Institute for Steel Construction Leibniz University Hannover|⁴ University of Gent
- MS#05.3 Innovative circular materials and design methods for future offshore wind farms
A. NEJAD¹, S. PRIMI², B. PANJWANI³
¹ NTNU|² Acciona (Madrid)|³ SINTEF Industry
- MS#05.4 Structural design, modelling and simulation of wind turbine rotor blades
C. BALZANI¹, S. SCHEFFLER¹, A. DEAN¹
¹ ForWind - Leibniz University Hannover
- MS#05.5 Design for industrialization (manufacturability, installability and supply chain)
F. MOHAMMADI¹, E. GHAFOORI²
¹ Jörss - Blunck - Ordemann GmbH|² Institute for Steel Construction Leibniz University Hannover - MS#05.6 Advances in Blade Structural Testing
P. GREAVES¹, M. ROSEMEIER²
¹ Offshore Renewable Energy Catapult|² Fraunhofer Institute for Wind Energy Systems - IWES - MS#05.7 Innovation in materials for wind blades
B. ENNIS¹, T. GRIFFITH²
¹ Sandia National Laboratories|² University of Texas - Dallas
- MS#05.1 Welded Details of Offshore Wind Support Structures - Improvements in Fabrication, Design and Verification Procedures
- #06 Reliability, monitoring and sensing, O&M
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- Topics
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- Reliability-based design and optimization (including structural, material and electro-mechanical issues);
- Monitoring-based Risk Assessment
- Life-cycle assessment and optimization; Service lifetime extension;
- Structural and mechanical reliability, including electro-mechanical systems;
- Probabilistic degradation models;
- Structural health monitoring and Inspection,
- Preditive Maintenance Planning and O&M Optimization
- Failure consequences on human lives, activities and environmental damage ;
- Monitoring strategies;
- Sensor harware and validation;
- Data-driven and Hybrid Methods for Monitoring and Twinning
- IoT and connectivity
- Data integration, storage and accessibility
- FAIR data and data sharing
- O&M data analytics
- Operational strategies (curtailment, etc.)
- Logistics (drones, vessels etc.)
- Maintenance (scheduling, optimization etc.)
- Mini-symposia
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- MS#06.1 Data Synergies in Wind: Process Modelling Beyond Power Generation
T. GÖÇMEN¹, I. EGUINOA ERDOZAIN²
¹ DTU Wind and Energy Systems|² CENER
- MS#06.2 How does the way we operate wind turbines affect loads and lifetime?
L. ZIEGLER¹, W. WEIJTJENS²
¹ EnBW|² OWI-Lab, Vrije Universiteit Brussel
- MS#06.3 Recent Progress on Lifetime Extension, Decommissioning, Repowering and Repurposing of Onshore and Offshore Wind Turbines
A. MALEKJAFARIAN¹, A. KOLIOS², J. SANTOS³
¹ University College Dublin|² Technical University of Denmark|³ Nadara
- MS#06.4 Turbine Performance Monitoring
P. BRADSTOCK¹, Y. DING²
¹ Bitbloom|² Georgia Tech
- MS#06.5 Structural Monitoring as a Tool for Managing Wind Farms Operation
F. MAGALHÃES¹, E. CHATZI², C. DEVRIENDT³
¹ Faculty of Engineering, University of Porto|² ETHZ|³ OWI-Lab, Vrije Universiteit Brussel
- MS#06.6 Reliability modelling of current and future wind turbines
J. WALGERN¹, J. CARROLL², M. LI³
¹ Fraunhofer Institute for Wind Energy Systems IWES|² University of Strathclyde|³ The University of Tokyo
- MS#06.7 Lifetime extension of support structures of wind turbines
C. HÜBLER¹, E. GHAFOORI² J. HENG³
¹ TU Darmstadt|² Institute for Steel Construction Leibniz University Hannover |³ Sichuan University
- MS#06.8 Next-Generation Condition Monitoring and Maintenance Decision-Making: A Multi-Scale Digital Twin Perspective
M. LI¹, M. GALAGEDARAGE DON², X. JIANG³, M. NARAYANA⁴, J. CARROLL⁵, T. WANASINGHE⁶
¹ The University of Tokyo|² Aalto University, Finland|³ Delft University of Technology|⁴ University of Moratuwa, Sri Lanka|⁵ University of Strathclyde|⁶ Memorial University of Newfoundland, Canada
- MS#06.9 In-Field Monitoring of Wind Turbine Blades
S. WATSON¹, D. ZAPPALA¹, M. STAMM², S. CHAUDHURI², V. PAKRASHI³
¹ TU Delft|² BAM|³ University College Dublin
- MS#06.10 Impact of uncertainties in wind turbine design and operations
N. DIMITROV¹, E. ROGUET², M. MCWILLIAM¹
¹ Technical University of Denmark|² IFPEN
- MS#06.11 On service life management of wind turbines
S. THÖNS¹, J.D. SØRENSEN², F. SCHOEFS³, S. LOCKWOOD⁴
¹ Lund University, Sweden|² Aalborg University, Denmark|³ University of Nantes, France|⁴ Generating Better, Glasgow, Scotland, UK
- MS#06.12 Digital Twinning for Offshore Wind: Integrating Physics-Based, Data-Driven, and Hybrid Methods for Reliability and Performance Assessment
E. TRONCI¹, E. CHATZI², F. PIMENTA³, B. MOAVENI⁴
¹ Northeastern University|² ETH Zurich|³ Faculty of Engineering, University of Porto|⁴ Tufts University
- MS#06.1 Data Synergies in Wind: Process Modelling Beyond Power Generation
- #07 Electrical conversion, energy systems and grid integration
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- Topics
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- Drivetrain
- Electrical conversion
- Grid integration
- Wind to X
- Forecasting and market integration
- Condition monitoring and fault detection of electro-mechanical systems
- New design and innovative technologies for drivetrain and power conversion system
- The impact of advanced operations, e.g. grid forming, on mechanical parts of wind turbines
- The impact of grid code requirements on electro-mechanical interactions in wind turbines
- Mini-symposia
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- MS#07.1 Wind Turbine Drive Trains: Trends and Technologies
A. EBRAHIMI¹, T. JERSCH²
¹ Institute for Electrical Drives, Power Electronics and Devices |² Fraunhofer Institute for Wind Energy Systems - IWES
- MS#07.2 Rare Earth Elements in Offshore Wind and Hydrogen Production– Present status and future trends
A. NEJAD¹, J. HELSEN², M. KLOEPZIG³
¹ NTNU|² OWI-Lab, Vrije Universiteit Brussel|³ Siemens
- MS#07.3 Offshore Wind and AC/DC grids
N. CUTULULIS¹, J. LIANG², V. LACERDA³, D. VAN HERTEM⁴
¹ DTU|² Cardiff University|³ UPC|⁴ KU Leuven
- MS#07.4 Offshore Energy Hubs
D. MÜLLER¹, D. PAGNANI², H. LIANG³, Y. SHI¹
¹ DTU|² Ørsted|³ Aalborg University
- MS#07.5 Hybrid Power Plants
K. DAS¹, C. BAY², A. BAVISKAR¹
¹ Technical University of Denmark|² National Renewable Energy Laboratory
- MS#07.1 Wind Turbine Drive Trains: Trends and Technologies
- #08 Floating wind special features
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- Topics
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- Station-keeping system
- Dynamic power cables
- Floater motion effects on aerodynamics and wakes
- Floating wind turbine hydrodynamics
- Floating wind turbine/farm design optimization
- Experimental methods for floating wind
- Prototypes and pilots related to floating wind
- Offshore installation and maintenance operations and logistics for floating wind
- Wind turbine and wind farm control specificities for floating wind
- Novel concepts in floating wind
- Manufacturing and industrialization for floating wind
- Numerical simulation of floating wind
- Mini-symposia
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- MS#08.1 Nature Inclusive Designs for Floating Offshore Wind Turbines
G. VERAO FERNÁNDEZ¹, C. WINDT¹, M. STREICHER², M. PENALBA³
¹ TU Braunschweig|² Ghent University|³ Mondragón University
- MS#08.2 Floating Wind Turbine Design Optimization Methods
D. ZALKIND¹, F. MENG², F. PIERELLA², R. BEHRENS DE LUNA³
¹ National Renewable Energy Laboratory|² Technical University of Denmark|³ Technical University Berlin
- MS#08.3 Motion effects on aerodynamics and wake of a single floating offshore wind turbine
T. MESSMER¹, F. PAPI², Z. LI³
¹ Institute of Physics, Carl von Ossietzky Universität Oldenburg, 26129 Oldenburg, Germany / ForWind - Center for Wind Energy Research,|² Department of Industrial Engineering, Università degli Studi di Firenze, Florence, 50139, Italy|³ Institute of Mechanics, Chinese Academy of Sciences, Beijing 100190, PR China
- MS#08.4 Wake interactions in floating wind farms
A. BIANCHINI¹, R.B. CAL², A. FONTANELLA³, D. GAYME⁴, C. MENEVEAU⁴, S. MUGGIASCA³
¹ Università degli Studi di Firenze|² Portland State University|³ Politecnico di Milano|⁴ Johns Hopkins University
- MS#08.5 Hybrid testing for floating wind
F. TARUFFI¹, A. VIRɹ, S. GILLMEIER², M. NIJENHUIS³
¹ Delft University of Technology|² Eindhoven University of Technology|³ University of Twente
- MS#08.1 Nature Inclusive Designs for Floating Offshore Wind Turbines
- #09 Policy, economics, planification and environmental impacts
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- Topics
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- Regulatory framework applicable to wind energy
- Public policies
- Systems of marine planning and methods of integrating stakeholders
- Industrial and financial strategies
- Emerging threats and environmentals risks associated with wind energy
- Employment in the wind energy sector
- Wind energy litigation
- Energy transition process and its geopolitical, economic, and social challenges
- Mini-symposia
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- MS#09.1 Assessing wind power integration in Europe while considering impacts on society and the environment
A. HAHMANN¹, L.E. RAMIREZ², R. HUETING³, C. MADRID LÓPEZ⁴, C. MIKOVITS⁵
¹ DTU Dept of Wind and Energy Systems|² Copernicus Institute of Sustainable Development, Utrecht University|³ DeepBlue, Italy|⁴ Universitat Autonoma de Barcelona, Spain|⁵ Institute of Sustainable Economic Development, BOKU University, Austria
- MS#09.2 Social science for collaborative wind energy planning and participation
S. TEGEN¹, G. HÜBNER², M. DE SAIN³, J. ASTON⁴
¹ Associate Director, Center for the New Energy Economy, Colorado State University, US | IEA Wind Social Science task cooperating agent.|² Head of Research group Health and Environmental Psychology of Martin Luther University Halle-Wittenberg, Germany.|³ Strategic Renewable Energy Consultant, Pondera Consult, The Netherlands. |⁴ Founder, Earning Local Support Academy, Ireland | IEA Wind Social Science task cooperating agent
- MS#09.1 Assessing wind power integration in Europe while considering impacts on society and the environment
- #10 Emerging technologies and special sessions
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- Topics
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- Energy ship / Unmoored Floating Offshore Wind Turbines (UFOWT)
- Airborne Wind Energy
- Distributed wind / small wind turbines
- High-density wind farms
- Any other topics
- Mini-symposia
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- MS#10.1 "Voices of DEI in Wind Energy" community
S. BARBER¹, S. BARTH², S. FOGELSTRÖM³, J. GILBERT⁴, J. GOTTSCHALL⁵, D. ZAPPALÁ⁶, A.M. KAZEMII AMIRI⁷
¹ Eastern Switzerland University of Applied Sciences|² Carl von Ossietzky Universität Oldenburg, ForWind Germany|³ Chalmers University of Technology|⁴ University of Hull|⁵ Fraunhofer Institute for Wind Energy Systems - IWES |⁶ TU Delft|⁷ University of Strathclyde
- MS#10.2 Distributed wind energy: challenges and opportunities
M. RUNACRES¹, F. CASTELLANI², D. PREZIUSO³
¹ Thermo and Fluid Dynamics (FLOW), Vrije Universiteit Brussel|² Department of Engineering, University of Perugia |³ Pacific Northwest National Laboratory, USA
- MS#10.3 Airborne Wind Energy
R. SCHMEHL¹, A. CROCE², F. HEIN³
¹ TU Delft|² Politecnico di Milano|³ University of Stuttgart
- MS#10.4 Turbine control benchmarking, algorithms, and learning
S. MULDERS¹, D. ZALKIND², T. GYBEL HOVGAARD³, J. DELEURAN GRUNNET³
¹ Delft University of Technology|² National Renewable Energy Laboratory (NREL)|³ Shanghai Electric Wind Power Group (SEWPG)
- MS#10.5 Exploiting the potential of digitalisation in wind energy
S. BARBER¹, S. SHENG², Y. MARYKOVSKIY¹, C. PLUMLEY³
¹ Eastern Switzerland University of Applied Sciences|² National Renewable Energy Laboratory, USA|³ Nuveen Infrastructure | Clean Energy, UK
- MS#10.6 Advanced Machine Learning for Wind Farm Optimisation and Maintenance
L. LANDBERG¹, T. GÖÇMEN², A. MEYER³
¹ DNV|² DTU|³ BFH and TU Delft
- MS#10.7 Designs from International Small Wind Turbine Contest
G. SCHEPERS¹, N. ADEMA¹, C. BRAUD²
¹ Hanze University Groningen|² CSTB/CNRS
- MS#10.1 "Voices of DEI in Wind Energy" community