Combination of local sea winds/land breezes and nearshore wave energy resource: Case study at MaRELab (Naples, Italy)

Co-located offshore wind turbines and wave energy converters are of great interests as several studies established that combined power productions are more predictable, less-fluctuating and more continuous than when wind and wave technologies are working individually. However, what happens at nearshore locations with special focus to thermal winds, has never been fully explained. The objective of the present work is to evaluate the effects of local sea winds and land breeze circulations on the wave-wind resources, proposing a method to estimate the quality of the co-exploitation by means of different multivariate techniques. The research is illustrated through a case study at the novel Marine Renewable Energy Laboratory (MaRELab, Italy), analyzing a 42-year hindcast dataset. While the bulk of the power is provided by southwest waves, the wind mostly blows from two widespread sectors, west and east-northeast, having frequencies of occurrence almost the same (i. e. 50.2% vs 49.2%). Clusters referring meteo-climatic conditions that should be dominant to maximize the advantage to combine wind and wave sources, have a total occurrence of 54.1% in sea breeze time series and 72.8% in land breeze dataset. In these situations, the combined production would be more available and less variable, leading the combined nearshore wave-wind farm more interesting.

Automated summary

This study evaluates the effects of local sea winds and land breeze circulations on wave-wind resources and proposes a method to estimate the quality of co-exploitation. The findings suggest that under specific thermal wind conditions, combined power production from wind and wave sources is more available and stable, making co-located offshore wind turbines and wave energy converters more attractive.