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Impact of turbulence and blade surface degradation on the annual energy production of small-scale wind turbines
  • +1
  • Ander Zarketa-Astigarraga,
  • Markel Penalba,
  • Alain Martin-Mayor,
  • Manex Martinez-Agirre
Ander Zarketa-Astigarraga
Mondragon Unibertsitatea

Corresponding Author:[email protected]

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Markel Penalba
Mondragon Goi Eskola Politeknikoa Jose Maria Arizmendiarrieta S Coop
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Alain Martin-Mayor
Mondragon Goi Eskola Politeknikoa Jose Maria Arizmendiarrieta S Coop
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Manex Martinez-Agirre
Mondragon Goi Eskola Politeknikoa Jose Maria Arizmendiarrieta S Coop
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Abstract

Small-scale horizontal axis wind-turbines (SHAWTs) are acquiring relevance within the regulatory policies of the wind sector aiming at net-zero-emissions, while reducing visual and environmental impact by means of distributed grids. SHAWTs operate transitionally, at Reynolds numbers that fall between 10^5 < Re < 5·10^5. Furthermore, environmental turbulence and roughness affect the energetic outcome of the turbines. In this study, the combined effect of turbulence and roughness is analysed via wind tunnel experiments upon a transitionally-operating NACA0021 airfoil. The combined effects cause a negative synergy, inducing higher drops in lift and efficiency values than when considering the perturbing agents individually. Besides, such losses are Reynolds-dependent, with higher numbers increasing the difference between clean and real configurations, reaching efficiency decrements above 60% in the worst-case scenario. Thus, these experimental measurements are employed for obtaining the power curves and estimating the annual energy production (AEP) of a 7.8 kW-rated SHAWT design by means of a BEM code. The simulations show a worst-case scenario in which the AEP reduces above 70% when compared to the baseline configuration, with such a loss getting attenuated when a pitch-regulated control is assumed. These results highlight the relevance of performing tests that consider the joint effect of turbulence and roughness.
07 May 20231st Revision Received
08 May 2023Submission Checks Completed
08 May 2023Assigned to Editor
08 May 2023Review(s) Completed, Editorial Evaluation Pending
09 Jun 2023Reviewer(s) Assigned
17 Jul 2023Editorial Decision: Revise Minor
17 Jul 20232nd Revision Received
19 Jul 2023Submission Checks Completed
19 Jul 2023Assigned to Editor
19 Jul 2023Review(s) Completed, Editorial Evaluation Pending
04 Aug 2023Editorial Decision: Accept