A comparison of wake measurements in motor-driven and flow-driven turbine experiments

Bachant P, Wosnik M (2014) Reynolds number dependence of cross-flow turbine performance and near-wake characteristics. In: Proceedings of the 2nd Marine energy technology symposium, Seattle

Bahaj A, Batten W, McCann G (2007) Experimental verifications of numerical predictions for the hydrodynamic performance of horizontal axis marine current turbines. Renew Energ 32:2479–2490

Battisti L, Zanne L, Anna SD (2011) Aerodynamic measurements on a vertical axis wind turbine in a large scale wind tunnel. J Energ Resour 133:031201

Bazilevs Y, Hsu MC, Kiendl J, Wüchner R, Bletzinger KU (2011) 3D simulation of wind turbine rotors at full scale. Part II: fluid-structure interaction modeling with composite blades. Int J Numer Methods Fluids 65:236–253

Cal RB, Lebrón J, Castillo L, Kang HS, Meneveau C (2010) Experimental study of the horizontally averaged flow structure in a model wind-turbine array boundary layer. J Renew Sustain Energy 2:013106

Chamorro LP, Arndt REA, Sotiropoulos F (2011) Turbulent flow properties around a staggered wind farm. Bound-Lay Meteorol 141:349–367

Chan AS, Dewey PA, Jameson A, Liang C, Smits AJ (2011) Vortex suppression and drag reduction in the wake of counter-rotating cylinders. J Fluid Mech 679:343–382

Chao DD, van Dam CP (2007) Computational aerodynamic analysis of a blunt trailing-edge airfoil modification to the NREL Phase VI rotor. Wind Energy 10:529–550

Duque EP, Burklund MD, Johnson W (2003) Navier-Stokes and comprehensive analysis performance predictions of the NREL phase VI experiment. J Sol Energ 125:457–467

Ebert PR, Wood D (1997) The near wake of a model horizontal-axis wind turbine—I. Experimental arrangements and initial results. Renew Energ 12:225–243

Ferreira CS, van Kuik G, van Bussel G, Scarano F (2009) Visualization by PIV of dynamic stall on a vertical axis wind turbine. Exp Fluids 46:97–108

Fujisawa N, Shibuya S (2001) Observations of dynamic stall on Darrieus wind turbine blades. J Wind Eng Ind Aerod 89:201–214

Grant I, Parkin P (2000) A DPIV study of the trailing vortex elements from the blades of a horizontal axis wind turbine in yaw. Exp Fluids 28:368–376

Howell R, Qin N, Edwards J, Durrani N (2010) Wind tunnel and numerical study of a small vertical axis wind turbine. Renew Energ 35:412–422

Hsu MC, Bazilevs Y (2012) Fluid-structure interaction modeling of wind turbines: simulating the full machine. Comput Mech 50:821–833

Kang HS, Meneveau C (2010) Direct mechanical torque sensor for model wind turbines. Meas Sci Technol 21:105206

Korobenko A, Hsu MC, Akkerman I, Bazilevs Y (2014) Aerodynamic simulation of vertical-axis wind turbines. J Appl Mech 81:021011

Le TQ, Lee KS, Park JS, Ko JH (2014) Flow-driven rotor simulation of vertical axis tidal turbines: a comparison of helical and straight blades. Int J Nav Archit Ocean Eng 6:257–268

Li ZC, Sheng QH, Zhang L, Cong ZM, Jiang J (2012) Numerical simulation of blade-wake interaction of vertical axis tidal turbine. Adv Mat Res 346:318–323

Lida A, Kato K, Mizuno A (2007) Numerical simulation of unsteady flow and aerodynamic performance of vertical axis wind turbines with LES. In: Proceedings of the 16th Australasian fluid mechanics conference. Crown Plaza, Gold Coast

Martinelli L, Smits AJ (2012) High-fidelity computational fluid dynamics (CFD) for the wind/tidal energy industry. In: Proceedings of the HKIE civil division international conference, Hong Kong

Nini M, Motta V, Bindolino G, Guardone A (2014) Three-dimensional simulation of a complete vertical axis wind turbine using overlapping grids. J Comput Appl Math 270:78–87

Shamsoddin S, Porté-Agel F (2014) Large eddy simulation of vertical axis wind turbine wakes. Energies 7:890–912

Tescione G, Ragni D, He C, Ferreira CJS, van Bussel G (2014) Near wake flow analysis of a vertical axis wind turbine by stereoscopic particle image velocimetry. Renew Energ 70:47–61

Theunissen R, Sante AD, Riethmuller ML, den Braembussche RAV (2008) Confidence estimation using dependent circular block bootstrapping: application to the statistical analysis of PIV measurements. Exp Fluids 44:591–596

Welch PD (1967) The use of fast Fourier transform for the estimation of power spectra: a method based on time averaging over short, modified periodograms. IEEE Trans Audio Electroacoust 15:70–73

Whittlesey RW, Dabiri JO (2013) Optimal vortex formation in a self-propelled vehicle. J Fluid Mech 737:78–104

Xu G, Sankar LN (2000) Computational study of horizontal axis wind turbines. J Sol Energ 122:35–39