Experimental analysis of co-rotating and counter-rotating tandem horizontal-axis wind turbine performance and wake dynamics

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Abstract

This experimental study investigates the performance and wake of tandem wind turbines utilising co-rotating and counter-rotating rotor configurations. Measurements for turbine power, tip-speed ratio, and wake velocity were obtained across various arrangements of single and tandem turbines. Conducted at a Reynolds number of 9.6×104 based on turbine diameter, the study evaluates in-line configurations with separation distances from 1.25DT to 8DT, DT being the turbine diameter, and different tip-speed ratios. Power measurements indicate that the downstream turbine performs better when its rotational direction opposes that of the upstream turbine, showing a 20% increase in performance compared to the co-rotating arrangement at a separation distance of 1.25DT. Nevertheless, the results show the tandem wind turbines’ power generation depends on the spacing between the turbines and the upstream turbine's optimal tip-speed ratio. This indicates that as the distance between the turbines increases, the advantageous impacts of a counter-rotating setup diminish. Velocity measurements behind the downwind turbine reveal negligible effects on the streamwise velocity due to relative rotational directions but a significant impact on turbulent kinetic energy. Specifically, the co-rotating arrangement exhibits 33% higher turbulence levels than the counter-rotating arrangement. These findings hold considerable implications for designing and optimising wind turbine systems in arrays, both onshore and offshore wind farms.

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Bayron, P., Kelso, R., & Chin, R. (2024). Experimental analysis of co-rotating and counter-rotating tandem horizontal-axis wind turbine performance and wake dynamics. Journal of Wind Engineering and Industrial Aerodynamics, 253. https://doi.org/10.1016/j.jweia.2024.105840

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