Downwind pre-aligned rotors for extreme-scale wind turbines
TLDR
In this paper, the authors investigated a two-bladed configuration by keeping the structural and aerodynamic characteristics of each blade fixed (to avoid a complete blade re-design) to examine potential rotor mass reduction.Abstract:
Downwind force angles are small for current turbines systems (1–5 MW) such that they may be readily accommodated by conventional upwind configurations. However, analysis indicates that extreme-scale systems (10–20 MW) will have larger angles that may benefit from downwind-aligned configurations. To examine potential rotor mass reduction, the pre-alignment concept was investigated a two-bladed configuration by keeping the structural and aerodynamic characteristics of each blade fixed (to avoids a complete blade re-design). Simulations for a 13.2 MW rated rotor at steady-state conditions show that this concept-level two-bladed design may yield 25% rotor mass savings while also reducing average blade stress over all wind speeds. These results employed a pre-alignment on the basis of a wind speed of 1.25 times the rated wind speed. The downwind pre-aligned concept may also reduce damage equivalent loads on the blades by 60% for steady rated wind conditions. Even higher mass and damage equivalent load savings (relative to conventional upwind designs) may be possible for larger systems (15–20 MW) for which load-alignment angles become even larger. However, much more work is needed to determine whether this concept can be translated into a practical design that must meet a wide myriad of other criteria. Copyright © 2017 John Wiley & Sons, Ltd.read more
Citations
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Journal ArticleDOI
Wind energy research: State-of-the-art and future research directions
David J. Willis,Christopher Niezrecki,D. Kuchma,Eric M. Hines,Sanjay R. Arwade,Rebecca Jane Barthelmie,Milo DiPaola,Patrick Drane,Christopher J. Hansen,Murat Inalpolat,J.H. Mack,Andrew T. Myers,Mario A. Rotea +12 more
TL;DR: The 2016 Wind Energy Research Workshop as mentioned in this paper examined the state-of-the-art in wind energy research within the following three core topic areas: (A) wind Turbine Design and Manufacturing including: blades, towers/foundations and nacelle, (B) wind Farm Development including: offshore installations/siting, flow characterization and loads/waves/wind characterization, and (C) wind farm Operations including: controls, power production, wind farms, sensing, diagnostics, testing, structural health monitoring, reliability, energy storage, the grid and power transmission.
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Pre-aligned downwind rotor for a 13.2 MW wind turbine
Carlos Noyes,Chao Qin,Eric Loth +2 more
TL;DR: In this paper, a downwind configuration with a coning angle prescribed to allow load alignment for critical conditions could be used to reduce ultimate bending moments and fatigue loadings in wind turbines, and the simulation results show that the two-bladed downwind pre-aligned rotor with 15° coning, decreases the blade damage equivalent loads by 19.0%, and decreases rotor blade mass by 27.4%.
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References
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TL;DR: In this article, a three-bladed, upwind, variable speed, variable blade-pitch-to-feather-controlled multimegawatt wind turbine model developed by NREL to support concept studies aimed at assessing offshore wind technology is described.
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Journal ArticleDOI
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