2013
DOI: 10.1002/we.1648
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An experimental and computational assessment of blockage effects on wind turbine wake development

Abstract: An experiment was conducted to evaluate the initial wake expansion in scaled wind turbine tests as a means to guide future wake interference studies. Five scaled wind turbine rotors with different diameters were designed for testing in a closedloop water channel to evaluate the effects of blockage on the initial wake expansion behind a wind turbine. The initial wake expansion was assessed by using quantitative dye visualization to identify the propagation of tip vortices downstream of the rotor. The thrust coe… Show more

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Cited by 50 publications
(57 citation statements)
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References 30 publications
(52 reference statements)
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“…The computations were therefore conducted in unbounded freestream conditions with uniform inflow, and the resulting turbine behaviour is representative of the wind farm's performance in the absence of walls or blockage. The ability of GENUVP to predict an appropriate level of wake expansion in unbounded freestream conditions was previously validated by McTavish et al , . A higher Reynolds number was selected for the computations than for the experiments because of the similarity of the E387 airfoil's lift curve with those of other airfoils at higher Reynolds numbers.…”
Section: Description Of the Computational Simulationssupporting
confidence: 74%
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“…The computations were therefore conducted in unbounded freestream conditions with uniform inflow, and the resulting turbine behaviour is representative of the wind farm's performance in the absence of walls or blockage. The ability of GENUVP to predict an appropriate level of wake expansion in unbounded freestream conditions was previously validated by McTavish et al , . A higher Reynolds number was selected for the computations than for the experiments because of the similarity of the E387 airfoil's lift curve with those of other airfoils at higher Reynolds numbers.…”
Section: Description Of the Computational Simulationssupporting
confidence: 74%
“…The chord and twist distributions of the rotor blades were developed using blade element momentum theory from ref., and the normalized chord of the scaled blades was increased relative to full‐scale designs in order to increase the Reynolds number of the blades. Additional details regarding the design of the MAAE wind turbine can be found in ref λ=ωRUhub …”
Section: Experimental Methodsmentioning
confidence: 99%
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“…This correction attempts to reflect the increased thrust and power generated by a turbine in an enclosed tunnel due to the constriction of the wake behind the turbine. The actuator disc approach fails to capture some key aspects of the blockage on the flow physics, including 255 the impact of blockage on details of the near-rotor vortex wake (see for example [21]) and neglects many aspects of the detailed geometry of the turbine in the tunnel such as the cross-section shape of the tunnel and the proximity of the turbine to flow boundaries. However, there is some experimental evidence to suggest that an actuator disc approach can represent the wake reasonably well far downstream (e.g.…”
Section: Blockage Effectsmentioning
confidence: 99%
“…This acts to reduce the Reynolds number as compared to the TUDelft turbine, however an increase on the result which would be achieved if the smaller turbine were to be operated in a wind tunnel. Also defined by McTavish et al and studied by McTavish and Feszty [10] is a 3 bladed, 0.25m diameter rotor for operation in a 0.6m x 0.8m water channel at Carleton University. The rotor loads and wake expansion are measured to determine the Reynolds number and blockage effects on the model.…”
Section: Traditional Small Scale Rotor Model Designmentioning
confidence: 99%