Publications

Reports

• HIPERWIND Final Project Report 
• Bottom Fixed and Floating Wind Turbine Reference Cases defined

Deliverables

• D2.1 - Atmospheric-Wave Multi-Scale Flow Modelling 
• D2.2 - Wave field characterization and associated uncertainties
• D2.3 - Environmental joint probability distributions and uncertainties, 
• D3.1 - Wind farm parameterization and turbulent wind box generation
• D3.2 - Turbine loading and wake model uncertainty
• D3.3 - Aero-servo-hydroelastic model uncertainty
• D4.1 - Novel surrogate modelling approaches for wind turbine reliability assessment
• D5.1 - Component life models, 
• D5.2 - Electrical grid model
  
• D7.3 - Dissemination Strategy
• D7.5 - Webinar recording

Publications

2023

• Quantifying and clustering the wake-induced perturbations within a wind farm for load analysis 

2022

• Wake parametrization and surrogate modeling for loads and power prediction
• Uncertainty evaluation of BEM approaches for offshore wind turbine design 
• Uncertainty analysis of hydrodynamic coefficients for floating wind turbine using CFD solvers 
• A comprehensive code-to-code comparison study with the modified IEA15MW-UMaine Floating Wind Turbine for H2020 HIPERWIND project
• Efficient techniques for fast uncertainty propagation in an offshore wind turbine multi-physics simulation tool 
• ANALYZING EXTREME SEA STATE CONDITIONS BY TIME-SERIES SIMULATION 
• Multiscale Simulation of Offshore Wind Variability During Frontal Passage: Brief Implication on Turbines' Wakes and Load 
• Mesoscale Simulation of Open Cellular Convection: Roles of Model Resolutions and Physics Parameterizations 
• Deep Learning-Based Modeling of Wake Induced Effects in Wind Farms