Investigation of the wind resource assessment over 2D continuous rolling hills due to tropical cyclones in the coastal region of southeastern China

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Abstract

The effect of tropical cyclones on the turbulent flow over 2D continuous rolling hills was numerically investigated based on a field test analysis of the coastal region of Southeast China. A computational fluid dynamics (CFD) method was first developed and verified using previously published experimental results. Then two typical beneficial and destructive cyclone cases were studied above different locations of the hills. Results showed that the continuous hilly flow was much more drastic and variable than previously reported normal wind; the mean and turbulent magnitudes became the strongest around the hill top, with the maximum speed-up ratio, turbulence intensity and gust-speed ratio of 1.1, 0.32 and 1.6; the flow over lower hill was greatly affected by the nearby higher hills; the mean and fluctuating quantities were mostly smaller than the corresponding single hill case. These phenomena were considered to be related with the rather strong detachment and attachment of the cyclone flow around the two hills. In addition, the mean and fluctuating wind velocities were found to be underestimated by at least 20% if the widely accepted IEC standard equations were utilized, suggesting the necessity to supplement the field test analysis in the standard for more reasonable wind resource evaluation within the Southeast China coastal area. © 2014 by the authors; licensee MDPI, Basel, Switzerland.

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Zhang, M., & Liu, M. (2014). Investigation of the wind resource assessment over 2D continuous rolling hills due to tropical cyclones in the coastal region of southeastern China. Energies, 7(2), 913–933. https://doi.org/10.3390/en7020913

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