Title:	Marine Renewable Energy - Storage
DNr:	NAISS 2024/23-647
Project Type:	NAISS Small Storage
Principal Investigator:	Claes Eskilsson <claes.eskilsson@ri.se>
Affiliation:	RISE - Research Institutes of Sweden
Duration:	2024-11-30 – 2025-12-01
Classification:	20705
Homepage:	https://www.ri.se/en/what-we-do/projects/influence-of-wind-wave-interaction-on-the-offshore-wind-farms
Keywords:

Abstract

Control of wave energy motion is the key to increasing the power production of wave energy converters (WECs). In this project we will perform model-in-the-loop and software-in-the-loop simulations of a state-of-the-art non-linear model-based force control (MPC) for a heaving point-absorber (Ocean Harvestings Infinity buoy). The hydrodynamic part will here be OpenFOAM based CFD simulations which will give validation and training data to a reduced order model that will be used in a real-time hybrid test rig of a 1:3 scale power take-off system. We will continue with the wind-wave interaction simulations. These simulations are carried out using spectral/hp element models in the nektar++ framework and aim to see how the bathymetry influences the vertical momentum flux in the marine atmospheric boundary layer