Litcius/Paper detail

Review of Wind–Wave Coupling Models for Large-Eddy Simulation of the Marine Atmospheric Boundary Layer

Georgios Deskos, Joseph Lee, Caroline Draxl, Michael Sprague

2021Journal of the Atmospheric Sciences54 citationsDOIOpen Access PDF

Abstract

Abstract We present a review of existing wind–wave coupling models and parameterizations used for large-eddy simulation of the marine atmospheric boundary layer. The models are classified into two main categories: (i) the wave-phase-averaged, sea surface–roughness models and (ii) the wave-phase-resolved models. Both categories are discussed from their implementation, validity, and computational efficiency viewpoints, with emphasis given on their applicability in offshore wind energy problems. In addition to the various models discussed, a review of laboratory-scale and field-measurement databases is presented thereafter. The majority of the presented data have been gathered over many decades of studying air–sea interaction phenomena, with the most recent ones compiled to reflect an offshore wind energy perspective. Both provide valuable data for model validation. We also discuss the modeling knowledge gaps and computational challenges ahead.

Topics & Concepts

Wind wave modelPlanetary boundary layerMeteorologyEnvironmental scienceLarge eddy simulationOffshore wind powerScale modelBoundary layerWind speedCoupling (piping)Computer scienceWind powerAerospace engineeringPhysicsEngineeringMechanical engineeringTurbulenceElectrical engineeringOcean Waves and Remote SensingTropical and Extratropical Cyclones ResearchWind Energy Research and Development