posted on 2010-11-24, 15:03authored byRolando Soler-Bientz, Simon J. Watson, David Infield
Extrapolations from 10m above the ground up to the wind turbine hub height are
frequently made to the data available for wind power assessments. Because of its
simplicity, the power law profile has been one of the most popular mathematical
formulations to predict the vertical wind shear. This paper presents an analysis of wind
speed and wind shear in terms of the directional, diurnal and seasonal patterns for a site at
the Autonomous University of Yucatan which experiences the tropical conditions of the
Yucatan Peninsula in Mexico. This analysis takes a detailed look at frequency distributions
to facilitate a comprehensive understanding of the local climatic conditions. Diurnal wind
speed variations are shown to be affected in particular by the differing wind conditions
associated with fetches over two distinct offshore regions. Seasonal behaviour suggests
some departure from the oscillations expected from temperature variation. In addition,
the use of rate of change of temperature at one height is proposed as an alternative to
vertical temperature gradient inferred from two heights as an indicator of atmospheric
stability which will affect the wind shear. The work presented is part of a regionally
funded research program to evaluate the onshore and offshore wind potential in the north
of the Yucatan Peninsula.
History
School
Mechanical, Electrical and Manufacturing Engineering
Citation
SOLER-BIENTZ, R., WATSON, S.J. and INFIELD, D., 2009. Evaluation of the wind shear at a site in the North-West of the Yucatan Peninsula, Mexico. Wind Engineering, 33 (1), pp. 93-107.