Entrainment in wind energy: From offshore to farm-farm

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Raúl Bayoán Cal

Vendredi 19 juin 2026 à 11h ; salle des séminaires IRPHE

Abstract: Wind farms interact with the incoming resource, the atmospheric boundary layer. In doing so, the mechanism for recovery in the wakes is entrainment. This mechanism is hereby discussed under various scenarios starting with terrestrial wind farms and arriving at the case of offshore wind farms, where offshore wind has the potential to unlock the vast wind energy resources over deep waters. Achieving the potential of this technology requires a deeper understanding of how the dynamics introduced by coupling between the wind, wakes, and turbine platform affect wake interactions and farm level power output. Experiments performed in the Portland State wind and wave tunnel to explore these dynamics under various wave conditions. The farm is constructed of a four-by-three layout spaced at 5D in x and 3D in z, with 15 cm diameter turbines. The farm’s flow field is measured using 2D-3C particle image velocimetry. Individual turbine motion is captured using optical tracking, and power output is measured through generators placed in the nacelle of each turbine. Flow field results are described in terms of both ensemble and wave-phase-averaged quantities. Phase averaging is shown to reveal different wave-dependent behavior and structures that are not evident in the ensemble sense thus revealing insights into entrainment. Perspectives in wind farm to wind farm entrainment will also be discussed.

Raúl Bayoán Cal - Daimler Professor in the Department of Mechanical and Materials Engineering at Portland State University