Abstract
Two, three and four bladed ϕ-shape Vertical Axis Wind Turbines are simulated using a free-wake vortex model. Two versions of the three and four bladed turbines are considered, one having the same chord length as the two-bladed turbine and the other having the same solidity as the two-bladed turbine. Results of the two-bladed turbine are validated against published experimental data of power coefficient and instantaneous torque. The effect of solidity on the power coefficient is presented and the instantaneous torque, thrust and lateral force of the two-, three- and four-bladed turbines are compared for the same solidity. It is found that increasing the number of blades from two to three significantly reduces the torque, thrust and lateral force ripples. Adding a fourth blade further reduces the ripples except for the torque at low tip speed ratio. This work aims to help choosing the number of blades during the design phase of a vertical axis wind turbine.
Highlights
Vertical Axis Wind Turbines (VAWT’s) have been receiving increasing interest
Wind turbines and test conditions The baseline wind turbine used in this study is the second version of the 17m-diameter (D) VAWT tested by Sandia National Laboratories in the 1980’s (Fig. 1(a), [9])
This study focuses on the rotational speed 38.7rpm at which torque measurements are available from tip speed ratio (TSR) = 2 to TSR = 8 for the two-bladed turbine [10]
Summary
Vertical Axis Wind Turbines (VAWT’s) have been receiving increasing interest They are seen as a good candidate for installation in highly turbulent flows (urban areas) [1] and as a potential candidate for the future of large scale offshore wind turbines [2, 3, 4]. Bedon et al [7] have shown the effect of the number of blades on the torque ripple, thrust and lateral forces at a given solidity and for a single tip speed ratio (TSR), using a Double Muliple Streamtube (DMST) model.
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