Comparing Wilson method with complex optimal method using aerodynamic design parameters of an imported horizontal wind turbine

Xu Zhao; Jun Xiao; Deke Xi

Comparing Wilson method with complex optimal method using aerodynamic design parameters of an imported horizontal wind turbine

Xu Zhao, Jun Xiao, Deke Xi

School of Electronics and Information

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

The known aerodyanmic design parameters of a German XWEC-JACOBS600 kw horizontal wind turbine are given in Ref. 4. In section 1 of the full paper, we breifly introduce the Wilson method and the complex optimal method. Also in section 1, we point out that Xiao Jun et al developed the necessary program for complex optimal method. The calculated results, obtained with CFD (computational fluid dynamics) software FLUENT and shown in Figs. 2 and 4, show preliminarily that: (1) The chord length designed by the Wilson method is longer than that of the product while that designed by the complex optimal method is in good agreement with that of the product; (2) The complex optimal method is more accurate than the Wilson method, with less error of the designed power 4.6% to 12.3%.

Original language	English
Pages (from-to)	693-697
Number of pages	5
Journal	Xibei Gongye Daxue Xuebao/Journal of Northwestern Polytechnical University
Volume	26
Issue number	6
State	Published - Dec 2008

Keywords

Aerodynamics
Computational fluid dynamics
Horizontal wind turbine
Wilson method

Cite this

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title = "Comparing Wilson method with complex optimal method using aerodynamic design parameters of an imported horizontal wind turbine",

abstract = "The known aerodyanmic design parameters of a German XWEC-JACOBS600 kw horizontal wind turbine are given in Ref. 4. In section 1 of the full paper, we breifly introduce the Wilson method and the complex optimal method. Also in section 1, we point out that Xiao Jun et al developed the necessary program for complex optimal method. The calculated results, obtained with CFD (computational fluid dynamics) software FLUENT and shown in Figs. 2 and 4, show preliminarily that: (1) The chord length designed by the Wilson method is longer than that of the product while that designed by the complex optimal method is in good agreement with that of the product; (2) The complex optimal method is more accurate than the Wilson method, with less error of the designed power 4.6% to 12.3%.",

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author = "Xu Zhao and Jun Xiao and Deke Xi",

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AU - Xiao, Jun

AU - Xi, Deke

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N2 - The known aerodyanmic design parameters of a German XWEC-JACOBS600 kw horizontal wind turbine are given in Ref. 4. In section 1 of the full paper, we breifly introduce the Wilson method and the complex optimal method. Also in section 1, we point out that Xiao Jun et al developed the necessary program for complex optimal method. The calculated results, obtained with CFD (computational fluid dynamics) software FLUENT and shown in Figs. 2 and 4, show preliminarily that: (1) The chord length designed by the Wilson method is longer than that of the product while that designed by the complex optimal method is in good agreement with that of the product; (2) The complex optimal method is more accurate than the Wilson method, with less error of the designed power 4.6% to 12.3%.

AB - The known aerodyanmic design parameters of a German XWEC-JACOBS600 kw horizontal wind turbine are given in Ref. 4. In section 1 of the full paper, we breifly introduce the Wilson method and the complex optimal method. Also in section 1, we point out that Xiao Jun et al developed the necessary program for complex optimal method. The calculated results, obtained with CFD (computational fluid dynamics) software FLUENT and shown in Figs. 2 and 4, show preliminarily that: (1) The chord length designed by the Wilson method is longer than that of the product while that designed by the complex optimal method is in good agreement with that of the product; (2) The complex optimal method is more accurate than the Wilson method, with less error of the designed power 4.6% to 12.3%.

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Comparing Wilson method with complex optimal method using aerodynamic design parameters of an imported horizontal wind turbine

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