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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
D4.2 - Methods for efficient ULS reliability calculations and their impact on probabilistic design
D4.3 - Methods for adaptive calculation of FLS loads and reliability, and their impact on probabilistic fatigue design
D4.4 - Floating wind turbine structural design procedure including SLS
D4.5 - Validation of the newly developed FLS and ULS distribution predictions and quantification of the resulting uncertainty reduction
D5.1 - Component life models
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D5.2 - Electrical grid mode
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D5.3 - Physics-based component model validation
D5.4 - Development and implementation of probabilistic and uncertainty quantification methods for reliability sensitivity analysis
D6.1 - Development of advanced Operation and Maintenance Modelling
D6.2 - Quantification of the impacts of Hiperwind on Offshore Wind LCOE
D6.3 - Quantification of the impacts of HIPERWIND on Market Value
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
Updated by
Sarah Holmbo
Updated by
Sarah Holmbo