F. Blondel, R. Boisard, M. Milekovic, G. Ferrer, C. Lienard et al., Validation and comparison of aerodynamic modelling approaches for wind turbines, J. Phys.: Conf. Ser, vol.753, issue.022029, 2016.
DOI : 10.1088/1742-6596/753/2/022029

URL : https://hal.archives-ouvertes.fr/hal-01663647

F. Blondel, G. Ferrer, M. Cathelain, and D. Teixeira, Improving a BEM Yaw Model Based on NewMexico Experimental Data and Vortex/CFD Simulations, Congrs Franais de Mcanique, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01663643

F. Blondel and M. Cathelain, Benchmarking activities (code to code comparison) on the rigid 1HS 3-Bladed VAWT, IFPEN report Ref, 2017.

. Ph, T. Devinant, J. Laverne, and . Hureau, Experimental study of wind-turbine airfoil aerodynamics in high turbulence, J. Wind Eng. Ind. Aerodyn, vol.90, 2002.

T. D. Economon, F. Palacios, S. R. Copeland, T. W. Lukaczyk, and J. J. Alonso, SU2: An Open-Source Suite for Multiphysics Simulation and Design, AIAA Journal, vol.54, issue.3, 2016.

C. S. Ferreira, H. A. Madsen, M. Barone, B. Roscher, P. Deglaire et al., Comparison of Aerodynamic Models for Vertical Axis Wind Turbines, J. Phys.: Conf. Ser, vol.524, issue.012125, 2016.

M. H. Hansen, M. Gaunaa, and H. A. Madsen, A Beddoes-Leishman type Dynamic Stall Model in State-Space and Indicial Formulations, Denmark. Risoe-R, 2004.

J. W. Larsen, S. R. Nielsen, and S. Krenk, Dynamic Stall Model for Wind Turbine Airfoils, J. of Fluids and Structures, vol.23, pp.959-982, 2007.

T. J. Larsen and H. A. Madsen, On the Way to Reliable Aeroelastic Load Simulation on VAWT's, preprint, DTU, 2013.

T. J. Larsen, G. Larsen, H. A. Madsen, and S. M. Petersen, Wake effects above rated wind speed. An overlooked contributor to high loads in wind farms, EWEA, 2015.

C. L. Cunff, J. M. Heurtier, L. Piriou, C. Berhault, T. Perdrizet et al., Fully Coupled Floating Wind Turbine Simulator Based on Nonlinear Finite Element Method: Part IMethodology, pp.2013-10780, 2013.

C. L. Cunff, J. M. Heurtier, L. Piriou, C. Berhault, T. Perdrizet et al., Fully Coupled Floating Wind Turbine Simulator Based on Nonlinear Finite Element Method: Part IIValidation Results, pp.2013-10785, 2013.

H. A. Madsen, The Actuator Cylinder, A Flow Model for Vertical Axis Wind Turbine, Institute of Industrial Constructions and Energy Technology, Internal report, 1982.

H. A. Madsen, U. S. Paulsen, and L. Vitae, Analysis of VAWT aerodynamics and design using the Actuator Cylinder flow model, J. Phys.: Conf. Ser, vol.555, issue.012065, 2012.

H. A. Madsen, T. J. Larsen, U. S. Paulsen, and L. Vita, Implementation of the Actuator Cylinder Flow Model in the HAWC2 code for Aeroelastic Simulations on Vertical Axis Wind Turbines, 51st AIAA Aerospace Sciences Meeting, 2013.

S. Øye, Dynamic stall simulated as a time lag of separation, 4th IEA Symposium on the Aerodynamics of Wind Turbines, 1991.

G. R. Pirrung and M. Gaunaa, Dynamic Stall Model Modifications to Improve the Modeling of Vertical Axis Wind Turbines, 2016.

D. Pitance, S. Horb, J. Kluczewska-bordier, A. Immas, and F. Silvert, Experimental Validation of Pharwen Code Using Data From Vertical-Axis Wind Turbines, WindEurope PO, vol.123, 2016.

G. Venet, A. Immas, R. Fuchs, N. Parneix, F. Silvert et al., Development and numerical validation of an aero-servo-elastic code for floating vertical-axis wind turbines, EUROMECH COLLOQUIUM, vol.583, 2016.