A. Boglietti, A. Cavagnino, A. Tenconi, S. Vaschetto, P. di Torino, The safety critical electric machines and drives in the more electric aircraft: A survey, in: 2009 35th Annual Conference of IEEE Industrial Electronics, IEEE, 2009, pp. 2587-2594.
 B. Sarlioglu, C.T. Morris, More electric aircraft: Review, challenges, and opportunities for commercial transport aircraft, IEEE Transactions on Transportation Electrification, 1(1) (2015) 54-64.
 A. Parés Prat, D. Borhani Coca, Use of Ram Air Turbines for electrical taxiing in Airbus 320, Universitat Politècnica de Catalunya, 2012.
 D. Brière, P. Traverse, AIRBUS A320/A330/A340 electrical flight controls-A family of fault-tolerant systems, in: Fault-Tolerant Computing, 1993. FTCS-23. Digest of Papers, The Twenty-Third International Symposium on, IEEE, 1993, pp. 616-623.
 M.J. Zolidis, Emergency airplane RATs, Presentation, IEEE Rock River Valley Section, (2006).
 Airbus, Uncommanded Ram Air Turbine (RAT) extensions, Maintenance Briefing Notes.
 U. Huntemann, Emergency supply unit with a ram-air turbine adapted to be driven by an air stream and with an energy converter for aircraft, in, Google Patents, 2011.
 V.F. Villa, Evaluation of Design Tools for the MicroRam Air Turbine, (2015).
 W. Jian, L. Yue-liang, Z. Xiao-tian, Research on Ram Air Turbine Blade Properties, Applied Mechanics & Materials, 779 (2015).
 T. Moustafa, W. Moreno, RAM air and wind energy harvesting survey for electrical vehicles and transportation, in: SoutheastCon, 2017, IEEE, 2017, pp. 1-7.
 S.C.D.H.J.K.S. Liska, ME160 Final Project ReportRam-Air Turbine Blue Team, (2008).  H.C.R.R.T.S.S. Sorley, ME160 Final Project Report Ram-Air Turbine White Team, (2008).
 B. Song, Experimental and numerical investigations of optimized high-turning supercritical compressor blades, Virginia Tech, 2003.
 I. Urieta Nieto, An investigation of the dynamics of the horizontal wind turbine blades, (2015).
 M. Stiebler, Wind energy systems for electric power generation, Springer Science & Business Media, 2008.
 L. Battisti, A. Brighenti, E. Benini, M.R. Castelli, Analysis of Different Blade Architectures on small VAWT Performance, in: Journal of Physics: Conference Series, IOP Publishing, 2016, pp. 062009.
 Y.-T. Lee, H.-C. Lim, Numerical study of the aerodynamic performance of a 500 W Darrieus-type vertical-axis wind turbine, Renewable Energy, 83 (2015) 407-415.
 F. Scheurich, T. Fletcher, R. Brown, The influence of blade curvature and helical blade twist on the performance of a vertical-axis wind turbine, in: 48th AIAA aerospace sciences meeting including the new horizons forum and aerospace exposition, 2010, pp. 1579.
 M. Elkhoury, T. Kiwata, E. Aoun, Experimental and numerical investigation of a three-dimensional vertical-axis wind turbine with variable-pitch, Journal of wind engineering and Industrial aerodynamics, 139 (2015) 111-123.
 J. Hinze, Turbulence McGraw-Hill, New York, 218 (1975).
 F.R. Menter, Two-equation eddy-viscosity turbulence models for engineering applications, AIAA journal,32(8)(1994)1598-1605.
 K. McLaren, S. Tullis, S. Ziada, Computational fluid dynamics simulation of the aerodynamics of a high solidity, small‐scale vertical axis wind turbine, Wind Energy, 15(3) (2012) 349-361.
 R.E. Sheldahl, Comparison of field and wind tunnel Darrieus wind turbine data, Journal of Energy, 5(4) (1981) 254-256.
 A. Fluent, 15.0 User's Manual, ANSYS Documentation N Fluent N User's Guide & Theory Guide—Release 15.0, ANSYS Inc., ANSYS Inc.
 M. Vaughn, C. Chen, Error versus y+ for three turbulence models: Incompressible flow over a unit flat plate, in: 18th AIAA Computational Fluid Dynamics Conference, 2007, pp. 3968.
 S. Brusca, R. Lanzafame, M. Messina, Design of a vertical-axis wind turbine: how the aspect ratio affects the turbine’s performance, International Journal of Energy and Environmental Engineering, 5(4) (2014) 333-340.