Numerical Simulation of Horizontal Axis wind Turbine with Different Airfoils and Their Performance Comparison

Irfan Abdulhossein Jaber Jaber

Abstract

In this study, we choose 5 horizontal-axis wind turbine (HAWT) blade output has been designed by the blade, and the blade aerodynamics are also simulated to investigate flow structures and aerodynamic characteristics. The design conditions of the turbine blade in order to display the rated wind speed, design tip speed ratio and design angle of attack that have been set to 10-30 m/s, 0,5 and 10°, respectively turbine blade. The last selection is NACA 4412 that has the best performance between 5 selected airfoil. The simulation results are compared with the improved BEM theory at rated wind speed of 10-30 m/s and show that the CFD is a good method on aerodynamic investigation of a HAWT blade.in this study we use two soft wares(fluent &Q-Blade) for our computations.

keywords:

airfoil, power, lift & drag coefficient, hawt

References:

[1] Muyiwa Adaramola, Wind Turbin technology, prunciples and design, 2009
[2] S.M.Muyeen, Ahmad AL-Durra, Hany M.hasanien, 1996
[3] Felicia Elena Kurniadi., Key Factors airfoils The Competitiveness of Wind Energy in the
Electricity Market, Master of Science thesis report Freiberg University of Mining and
Technology, December 2002.
[4] Doynat and D.Tamson, Cost Optimization of Wind Turbines for Large scale Offshore Wind
Farms, Tech. Rep. Risø-R-1000(EN), Risø National Laboratory, Roskilde, 1998.
[5] K. Olmaz and A. Toffolo, Optimal Design of Horizontal-Axis Wind Turbines sling Blade
Element Theory and Evolutionary Computation, Journal of Solar Energy ngineering, vol. 124,
pp. 357–363, 2002.
[6] Y. Bagreyniyan and S. S. Rao, Robust Design of Horizontal Axis Wind Turbines Using
Taguchi Method, Journal of echanical Design, vol. 133, pp. 1–15, 2011.
[7]Y.Bahreyniyan, and G.Mehrdosti, Aerodynamic optimization of wind turbine airfoils using
response surface techniques, Proceedings of the IMechE Part A: Journal of Power and Energy,
vol.224, 2010.
[8] Duran, S., “Computer-Aided Design of Horizontal-Axis Wind Turbine Blades”, M.Sc.
Thesis, the Graduate School of Natural and Applied Sciences of Middle East Technical
University, 2005.
[9] San, li, GAO, A.T., ‘‘Numerical Modeling of Tidal Turbines: Methodology Development and
Potential Physical Environmental Effects’’, M.Sc. Thesis, University of Washington, 2010.
[10] Nicolte , C.E., ‘‘CFD-RANS Study of Horizontal Axis Wind Turbines’’, Ph.D. Thesis,
Università degli Studi di Cagliari, Dipartimento di Ingegneria Meccanica, Italy, 2008.
[11, 12, 13] F.Goezpvich ‘‘Computational Study of Stalled Wind Turbine Rotor Performance’’,
Ph.D. Thesis, Cranfield Institute of Technology School of Mechanical Engineering, 1991.

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