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[45] Madsen, J.A., The actuator cylinder: a fl ow model for vertical axis wind
turbine.
Proc. of the
7th British Wind Energy Association (BWEA) Conf
.,
Oxford, UK, pp. 147-154, 1985.
[46] Sheldahl, R.E. & Klimas, P.C.,
Aerodynamic characteristics of seven sym-
metrical airfoil sections through 180-degree angle of attack for use in aero-
dynamic analysis of vertical axis wind turbines
, Albuquergue, NM: Sandia
National Laboratories, Report No.: SAND80-2114, 1980.
[47] Eppler, R.,
Airfoil Design and Data
, Heidelberg: Springer-Verlag, 1990.
[48] Oler, J.W., Strickland, J.H., Im, B.J. & Graham, G.H.,
Dynamic stall regula-
tion of the Darrieus turbine
, Albuquerque, New Mexico: Sandia National
Laboratories, Report No.: SAND83-7029, 1983.
[49] Major, S.R. & Paraschivoiu, I., Indicial method calculating dynamic stall
on a vertical axis wind turbine.
Journal of Propulsion and Power
,
8(4)
,
pp. 909-911, 1992.
[50] Liu, W.-Q., Paraschivoiu, I. & Martinuzzi, R., Calculation of dynamic stall
on Sandia 34-m VAWT using an Indicial Model.
Wind Engineering
,
16(6)
,
pp. 313-325, 1992.
[51] Berg, D.E., Recent improvements to the VDART3 VAWT code.
Proc. 1983
Wind and Solar Energy Conf
., Columbia, MO, pp. 31-41, 1983.
[52] Ferreira, C.S., van Kuik, G., van Bussel, G. & Scarano, F., Visualization by
PIV of dynamic stall on a vertical axis turbine.
Experiments in Fluids
,
46
,
pp. 97-108, 2009.
[53] Worstell, M.H.,
Aerodynamic performance of the 17-meter-diameter
Darrieus wind turbine
, Albuquerque, New Mexico: Sandia National
Laboratories, Report No.: SAND78-1737, 1979.
[54] Li, Y. & Calisal, S.M., Preliminary results of a vortex method for stand-
alone vertical axis marine current turbine.
OMAE2007, Proc. 26th Interna-
tional Conference on Offshore Mechanics and Arctic Engineering
, San Diego,
California, pp. 589-598, 2007.
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