Oscar Pires scite author profile

Oscar Pires

5Publications

95Citation Statements Received

26Citation Statements Given

How they've been cited

117

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Affiliations

National Renewable Energy Centre

Publications

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Analysis of high Reynolds numbers effects on a wind turbine airfoil using 2D wind tunnel test data

Pires

Munduate

Ceyhan

et al. 2016

J. Phys.: Conf. Ser.

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Abstract. The aerodynamic behaviour of a wind turbine airfoil has been measured in a dedicated 2D wind tunnel test at the DNW High Pressure Wind Tunnel in Gottingen (HDG), Germany. The tests have been performed on the DU00W212 airfoil at different Reynolds numbers: 3, 6, 9, 12 and 15 million, and at low Mach numbers (below 0.1). Both clean and tripped conditions of the airfoil have been measured. An analysis of the impact of a wide Reynolds number variation over the aerodynamic characteristics of this airfoil has been performed.

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Summary of the Blind Test Campaign to predict the High Reynolds number performance of DU00-W-210 airfoil

Yilmaz

Pires²,

Munduate³

et al. 2017

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This paper summarizes the results of a blind test campaign organized in the AVATAR project to predict the high Reynolds number performance of a wind turbine airfoil for wind turbine applications. The DU00-W-210 airfoil was tested in the DNW-HDG pressurized wind tunnel in order to investigate the flow at high Reynolds number range from 3 to 15 million which is the operating condition of the future large 10MW+ offshore wind turbine rotors. The results of the experiment was used in a blind test campaign to test the prediction capability of the CFD tools used in the wind turbine rotor simulations. As a result of the blind test campaign it was found that although the codes are in general capable of predicting increased max lift and decreased minimum drag with Re number, the Re trend predictions in particular the glide ratio (lift over drag) need further improvement. In addition to that, the significant effect of the inflow turbulence on glide ratio especially at high Re numbers is found as the most important parameter where the prediction as well as the selection of the correct inflow turbulence levels is the key for correct airfoil designs for the future generation 10MW+ wind turbine blades.

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Experimental investigation of Surface Roughness effects and Transition on Wind Turbine performance

Pires

Munduate

Boorsma

et al. 2018

J. Phys.: Conf. Ser.

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Wind Tunnel Tests of Wind Turbine Airfoils at High Reynolds Numbers

Llorente

Gorostidi

Jacobs³

et al. 2014

J. Phys.: Conf. Ser.

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Hybrid scaled testing of a 10MW TLP floating wind turbine using the SiL method to integrate the rotor thrust and moments

Vittori¹,

Pires²,

Azcona³

et al. 2020

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Oscar Pires

Analysis of high Reynolds numbers effects on a wind turbine airfoil using 2D wind tunnel test data

Summary of the Blind Test Campaign to predict the High Reynolds number performance of DU00-W-210 airfoil

Experimental investigation of Surface Roughness effects and Transition on Wind Turbine performance

Wind Tunnel Tests of Wind Turbine Airfoils at High Reynolds Numbers

Hybrid scaled testing of a 10MW TLP floating wind turbine using the SiL method to integrate the rotor thrust and moments

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