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Aerodynamic Optimization Of Horizontal Axis Wind Turbines Based On Potential Flow Solutions With BEM Theory And Genetic Algorithm
Date
2011-05-25
Author
Tonkal, Ozan Çağrı
Pehlivan, Sercan
Sezer Uzol, Nilay
İşler, Veysi
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URI
https://hdl.handle.net/11511/81431
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In this thesis, an aerodynamic design and optimization study for rotor airfoils and blades of Horizontal Axis Wind Turbines (HAWTs) is performed by using different airfoil representations and genetic algorithm. Two airfoil representations, the Class-Shape Transformation (CST) method and the Parametric Section (PARSEC) method, are used for the airfoil geometry designs. Their aerodynamic data is obtained by a potential flow solver software, XFOIL. The Blade Element Momentum (BEM) theory is used to calculate t...
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An aerodynamic design and optimization tool for wind turbines is developed by using both Blade Element Momentum (BEM) Theory and Genetic Algorithm. Turbine blades are optimized for the maximum power production for a given wind speed, a rotational speed, a number of blades and a blade radius. The optimization variables are taken as a fixed number of sectional airfoil profiles, chord lengths, and twist angles along the blade span. The airfoil profiles and their aerodynamic data are taken from an airfoil datab...
AERODYNAMIC OPTIMIZATION OF HORIZONTAL AXIS WIND TURBINE ROTOR BY USING BEM, CST METHOD AND GENETIC ALGORITHM
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O. Ç. Tonkal, S. Pehlivan, N. Sezer Uzol, and V. İşler, “Aerodynamic Optimization Of Horizontal Axis Wind Turbines Based On Potential Flow Solutions With BEM Theory And Genetic Algorithm,” 2011, Accessed: 00, 2021. [Online]. Available: https://hdl.handle.net/11511/81431.
