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A new meso-microscale coupled modelling framework for wind resource assessment: A validation study

Pablo Durán, Cathérine Meiβner, Pau Casso

2020Renewable Energy24 citationsDOIOpen Access PDF

Abstract

In this work the simulation results of a newly developed meso-microscale coupling methodology suited for steady-state computational fluid dynamic models (CFD) are compared with mesoscale and standalone microscale simulations at 5 sites. The coupling methodology uses averaged fields of wind speed and potential temperature simulated by the Weather Research and Forecasting model as boundary and initial conditions for the CFD model. In complex terrain, the coupled model reproduces the measured vertical profiles of horizontal wind speed better than the standalone microscale model or the mesoscale model. The coupled model also performs better in the horizontal extrapolation of measurements in complex terrain. In simpler terrain, it is beneficial to use the coupled model when the focus is on areas located downstream of even small terrain features. Otherwise, the mesoscale simulations perform as good or better than the coupled model.

Topics & Concepts

Mesoscale meteorologyMicroscale chemistryTerrainComputational fluid dynamicsExtrapolationMeteorologyEnvironmental scienceCoupling (piping)Computer scienceMechanicsPhysicsEngineeringGeographyMathematicsMathematics educationMechanical engineeringCartographyMathematical analysisMeteorological Phenomena and SimulationsWind and Air Flow StudiesWind Energy Research and Development