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The near wake of a model horizontal-axis wind turbine—I. Experimental arrangements and initial results

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  • Ebert, P.R.
  • Wood, D.H.

Abstract

This paper is the first of a series describing measurements in the near wake of a small horizontal-axis wind turbine over a range of tip speed ratios. The primary aim was to document the formation and development of the three-dimensional near-wake; this was done at six axial locations within two chord lengths of the blades. This paper describes the experimental arrangements, the measurement techniques based on hot-wire anemometry, and the results which relate directly to the simple wake models that lead, for instance, to the Betz limit and are used in traditional blade element theory. Later papers will describe the complex, three-dimensional flow field, the properties of the tip vortices, and the process by which the hub “vortices” may diffuse to form a cylindrical vortex sheet. For the conditions giving the largest power coefficient, the bound circulation of the blade is approximately constant with radius and the velocity distribution immediately behind a blade is similar to that behind an aerofoil with the same circulation. This good agreement with aerofoil behaviour extends to the highest tip speed ratio measured. At the lowest tip speed ratio, the turbulence level in the wake is very high, suggesting separation from the blades which are operating at high angles of attack. It is also shown that the three-dimensionality does not contribute significantly to the balance of angular momentum in the wake. There is evidence that increasing amounts of angular momentum reside in the tip vortices as the tip speed ratio increases.

Suggested Citation

  • Ebert, P.R. & Wood, D.H., 1997. "The near wake of a model horizontal-axis wind turbine—I. Experimental arrangements and initial results," Renewable Energy, Elsevier, vol. 12(3), pages 225-243.
    • Handle: RePEc:eee:renene:v:12:y:1997:i:3:p:225-243
    DOI: 10.1016/S0960-1481(97)00046-3
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    Citations

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    Cited by:

    1. Hossain, M.Z. & Hirahara, H. & Nonomura, Y. & Kawahashi, M., 2007. "The wake structure in a 2D grid installation of the horizontal axis micro wind turbines," Renewable Energy, Elsevier, vol. 32(13), pages 2247-2267.
    2. Li, Qing'an & Maeda, Takao & Kamada, Yasunari & Hiromori, Yuto, 2018. "Investigation of wake characteristic of a 30 kW rated power Horizontal Axis Wind Turbine with wake model and field measurement," Applied Energy, Elsevier, vol. 225(C), pages 1190-1204.
    3. Luo, Kun & Zhang, Sanxia & Gao, Zhiying & Wang, Jianwen & Zhang, Liru & Yuan, Renyu & Fan, Jianren & Cen, Kefa, 2015. "Large-eddy simulation and wind-tunnel measurement of aerodynamics and aeroacoustics of a horizontal-axis wind turbine," Renewable Energy, Elsevier, vol. 77(C), pages 351-362.
    4. Hirahara, Hiroyuki & Hossain, M. Zakir & Kawahashi, Masaaki & Nonomura, Yoshitami, 2005. "Testing basic performance of a very small wind turbine designed for multi-purposes," Renewable Energy, Elsevier, vol. 30(8), pages 1279-1297.
    5. Chehouri, Adam & Younes, Rafic & Ilinca, Adrian & Perron, Jean, 2015. "Review of performance optimization techniques applied to wind turbines," Applied Energy, Elsevier, vol. 142(C), pages 361-388.
    6. Ebert, P.R. & Wood, D.H., 1999. "The near wake of a model horizontal-axis wind turbine—II. General features of the three-dimensional flowfield," Renewable Energy, Elsevier, vol. 18(4), pages 513-534.
    7. Ebert, P.R & Wood, D.H, 2001. "The near wake of a model horizontal-axis wind turbine," Renewable Energy, Elsevier, vol. 22(4), pages 461-472.
    8. Xiaodong Wang & Yunong Liu & Luyao Wang & Lin Ding & Hui Hu, 2019. "Numerical Study of Nacelle Wind Speed Characteristics of a Horizontal Axis Wind Turbine under Time-Varying Flow," Energies, MDPI, vol. 12(20), pages 1-19, October.
    9. Ebert, P.R. & Wood, D.H., 2002. "The near wake of a model horizontal-axis wind turbine at runaway," Renewable Energy, Elsevier, vol. 25(1), pages 41-54.

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