Hourly day-ahead wind power forecasting at two wind farms in northeast Brazil using WRF model

Wind energy is rapidly growing industry in Brazil. Wind speed forecasting is necessary in the planning, controlling, and monitoring for the reliable and efficient operation of the wind power systems. Thus, this study focuses on the impact of different physics parameterization in forecasting wind speed in two onshore wind farms using the Weather and Research Forecasting (WRF) model. The wind farms are located in Parazinho, in the northeast of Brazil, a region with high wind resource. Hindcasts are per-formed for a high (i.e., July 2017) and low (i.e., April 2017) wind speed regimes using different forecast lead-times (i.e., 24-48 h). The best performing setup consists of Thompson microphysics, Bougeault-Lacarrere PBL, Betts-Miller cumulus, New Goddard Longwave/Shortwave radiation, and Pleim-Xiu Land Surface schemes. Our findings also suggest that the model forecast setting with the TKE closure scheme, namely BouLac, performed better than that setting with first-order closure ACM2. The best mean monthly error (MAE) obtained is 1.1 m s(-1) for wind and 12.6% for wind power. (C) 2021 Elsevier Ltd. All rights reserved.

Automated summary

The study investigated the impact of different physics parameterization on wind speed forecasting in two onshore wind farms in Brazil. The findings suggest that specific model forecast settings perform better, with the TKE closure scheme showing superior performance.