Mesoscale wind speed simulation using CALMET model and reanalysis information: An application to wind potential

This work presents a simple methodology to simulate the mesoscale wind field using dynamic modeling and complementary meteorological data. Meteorological information obtained from the project developed by the National Center of Environmental Research (NCEP) and the National Center of Atmospheric Research (NCAR), meteorological stations, a digital elevation model and a land use data were used in this study. All these data were input for the simulation of wind fields at three different heights (20, 30 and 40 m) through the CALMET model. Simulations were made for an area corresponding to the south central region of Chile, known as the Maule Region. The results show that the simulated spatial resolution (1 × 1 km) in the CALMET model yields good results, yielding an RMSE value near 1 m s−1 for all the heights simulated, with a greater RMSE at 40 m (1.15 m s−1) and a lesser RMSE at 20 m (1.10 m s−1). The direction of the simulated wind fields was also evaluated, yielding an RMSE near 31° at 40 m. The determination of the wind potential is presented as a direct application of the method shown in this work.

► We propose a method to simulate wind fields with a model and meteorological data. ► The modeling included data of NCEP-1, surfer stations, and land surfer data. ► The results obtained with CALMET model yields good results. ► A application this methodology is presents for estimate the wind potential.