Atmospheric stability assessment for the characterization of offshore wind conditions
| Autor: | Sergio Lozano, B García, J. Sanz Rodrigo, Fernando Borbón, U Irigoyen, R A Chávez, P M Fernande, Elena Cantero |
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| Rok vydání: | 2015 |
| Předmět: | |
| Zdroj: | Journal of Physics: Conference Series. 625:012044 |
| ISSN: | 1742-6596 1742-6588 |
| Popis: | Based on the Fino-1 offshore met mast database, different instrument set-ups and methodologies for stability characterization have been tested using non-dimensional numbers like the gradient and bulk Richardson number, and their equivalences with the Obukhov parameter ζ = z/L, which can be measured locally with the use of a sonic anemometer. These equivalences depend to a large extent on the suitability of empirical stability functions obtained in horizontally-homogeneous conditions. The bulk Richardson number method, based on Grachev and Fairall (1997) empirical function, is the least demanding measurement method for stability characterization offering a more practical approach to wind farm designers than using the sonic method. Alternatively, the AMOK method, used by FUGA wake model and also based on the bulk Richardson number, assumes surface-layer theory and avoids using stability functions, which results in a more robust formulation. A 9-class stability classification based on Sorbjan and Grachev (2010) is used to generalize the categorization of wind conditions. Based on flux-profile analysis it was concluded that unfortunately the local ζ is not sufficient to describe the scaling behaviour of the stable boundary layer. Indeed, larger wind shear than predicted by classical onshore stability functions is found, probably as a result of lower boundary layer depths. |
| Databáze: | OpenAIRE |
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