Characterization of Wind Resources of the East Coast of Maranhao, Brazil

The objective of this work is to assess the wind resources of the east coast of Maranhao, Brazil. Wind profilers were combined with micrometeorological towers and atmospheric reanalysis to investigate micro- and mesoscale aspects of wind variability. Field campaigns recorded winds in the dry and wet seasons, under the influence of the Intertropical Convergence Zone. The dry season was characterized by strong winds (8 to 12 m s(-1)) from the northeast. Surface heat fluxes were generally positive (250 to 320 W m(-2)) at midday and negative (-10 to -20 W m(-2)) during the night. Convective profiles predominated near the beach, with strongly stable conditions rarely occurring before sunrise. Further inland, convective to strongly convective profiles occurred during the day, and neutral to strongly stable profiles at night. Wind speeds decreased during the rainy season (4 to 8 m s(-1)), with increasingly easterly and southeasterly components. Cloud cover and precipitation reduced midday heat fluxes (77 W m(-2)). Profiles were convective during midday and stable to strongly stable at night. Terrain roughness increased with distance from the ocean ranging from smooth surfaces (z(o) = 0.95 mm) and rough pastures (z(o) = 15.33 mm) to crops and bushes (z(o) = 52.68 mm), and trees and small buildings (z(o) = 246.46 mm) farther inland. Seasonal variations of the mean flow and sea and land breezes produced distinct diurnal patterns of wind speeds. The strongest (weakest) breeze amplitudes were observed in the dry (rainy) period. Daily changes in heat fluxes and fetch over land controlled the characteristics of wind profiles. During sea breezes, winds approached the coast at right angles, resulting in shorter fetches over land that maintained or enhanced oceanic convective conditions. During land breezes, winds blew from the mainland or with acute angles against the coastline, resulting in large fetches with nighttime surface cooling, generating strongly stable profiles. Coastal observations demonstrated that with increasing monopiles from 100 to 130 m it is possible to obtain similar capacity factors of beachfront turbines.

Automated summary

The objective was to assess the wind resources of the east coast of Maranhao, Brazil using a combination of wind profilers, micrometeorological towers, and atmospheric reanalysis. Field campaigns recorded wind variations in the dry and wet seasons under the influence of the Intertropical Convergence Zone. The study found distinct diurnal patterns in wind speeds, with strong winds from the northeast during the dry season and decreased speeds with easterly and southeasterly components during the rainy season.