Effect of Rotor Thrust on the Average Tower Drag of Downwind Turbines

A new analysis method to calculate the rotor-induced average tower drag of downwind turbines in the blade element momentum (BEM) method was developed in this study. The method involves two parts: calculation of the wind speed distribution using computational fluid dynamics, with the rotor modeled as...

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Bibliographic Details
Published inEnergies (Basel) Vol. 12; no. 2; p. 227
Main Authors Yoshida, Shigeo, Fujii, Kazuyuki, Hamasaki, Masahiro, Takada, Ao
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 12.01.2019
Subjects
actuator disc
Actuators
Aerodynamics
BEM
Computational fluid dynamics
Computer applications
Design optimization
Deviation
Differential equations
downwind
Drag
Drag coefficients
Fluid dynamics
Hydrodynamics
Load
Loads (forces)
Mathematical models
Momentum
Pitch (inclination)
Pressure
Pressure effects
Rotors
Thrust
Tip speed
tower
tower shadow
Turbines
Vertical axis wind turbines
Wind power
Wind speed
Wind tunnel testing
Wind tunnels
wind turbine
United Kingdom > UK
United States > US
Switzerland
Japan
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Summary:A new analysis method to calculate the rotor-induced average tower drag of downwind turbines in the blade element momentum (BEM) method was developed in this study. The method involves two parts: calculation of the wind speed distribution using computational fluid dynamics, with the rotor modeled as a uniform loaded actuator disc, and calculation of the tower drag via the strip theory. The latter calculation considers two parameters, that is, the decrease in wind speed and the pressure gradient caused by the rotor thrust. The present method was validated by a wind tunnel test. Unlike the former BEM, which assumes the tower drag to be constant, the results obtained by the proposed method demonstrate much better agreement with the results of the wind tunnel test, with an accuracy of 30%.
ISSN:1996-1073
1996-1073
DOI:10.3390/en12020227