Aerodynamic performance enhancements of H-rotor Darrieus wind turbine

Aerodynamic performance enhancements of H-rotor Darrieus wind turbine

Vertical axis wind turbines like Darrieus turbines are very interesting type of wind turbines at domestic zones which have low wind speed, but this type has a low performance compared quantitatively to horizontal axis wind turbines. Further research work is needed to increase its performance to matc...

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Bibliographic Details
Published in:Energy (Oxford) Vol. 142; pp. 531 - 545
Main Authors: Hashem, I., Mohamed, M.H.
Format: Journal Article
Language:English
Published: Oxford Elsevier Ltd 01-01-2018
Elsevier BV
Subjects:
Aerodynamics
Airfoil shape
Augmentation
CFD
Coefficients
Computer simulation
Curved panels
Darrieus turbine
Diffusers
Electric power generation
Energy consumption
Flanges
Fluid dynamics
H-rotor
Horizontal Axis Wind Turbines
Maximum power
Performance assessment
Turbines
Vertical axis wind turbines
Wind effects
Wind power
Wind speed
Wind turbines
Wind-lens
H-rotor
CFD
Wind-lens
Airfoil shape
Darrieus turbine
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Summary:Vertical axis wind turbines like Darrieus turbines are very interesting type of wind turbines at domestic zones which have low wind speed, but this type has a low performance compared quantitatively to horizontal axis wind turbines. Further research work is needed to increase its performance to match the higher demand of the power generation in small-scale applications. The main target of the current work is to increase the output power coefficient Cp of a straight-bladed Darrieus wind turbine (H-rotor). The aerodynamic performance assessment will be carried out for 24 new airfoils (symmetric and non-symmetric) as the sectional profiles of the Darrieus turbine blade in order to improve the generated power. The present two-dimensional simulation concentrates on eight series of new airfoil shapes. Furthermore, the effect of using a wind-energy collecting structure called “wind-lens” which consists of a diffuser and flanges with Darrieus turbine is computationally examined. The current results indicated to some new shapes suitable for H-rotor Darrieus turbine with considerable performance improvement. It was demonstrated that the symmetric S1046-type is the best performing airfoil for typical tip-speed ratio ranging from 2 to 7. The three-bladed Darrieus turbine with S1046 as a sectional profile introduced a maximum power coefficient Cp,max equal to 0.3463. In this study, the performance of three wind-lens configurations with different diffuser types is investigated (i.e., flat-panel, curved-surface, and cycloidal-surface). Regarding power augmentation, the results affirmed that adopting diffuser with a cycloidal-surface is more effective than both flat-panel and curved-surface diffusers. The results indicated that the three-bladed Darrieus turbine (consists of S1046 airfoils) equipped with a cycloidal-surface diffuser introduced a maximum power coefficient Cp,maxand equals to 1.3662 and elucidated power augmentation by a factor of about 3.9 as compared to an open Darrieus turbine (conventional design). •The Present study considers a new concept to improve Darrieus turbine performance.•Investigation is performed depend on the Unsteady Reynolds Averaged Navier-Stokes.•Two main effects are examined, namely, airfoil shape and wind-lens type effects.•Darrieus turbine with S1046 airfoil showed the highest output performance.•The wind-lens with a cycloidal diffuser improved the performance by factor 3.9.
ISSN:0360-5442
1873-6785
DOI:10.1016/j.energy.2017.10.036