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Large-eddy simulations of turbulent wake flows behind helical- and straight-bladed vertical axis wind turbines rotating at low tip speed ratios

Masoumeh Gharaati, Shuolin Xiao, Luis A. Martínez‐Tossas, Daniel Araya, Di Yang

2024Physical Review Fluids13 citationsDOIOpen Access PDF

Abstract

We use large-eddy simulations to study the effects of helical-shaped blades on the wake flow characteristics of vertical axis wind turbines (VAWTs) at low tip speed ratios. Compared with the straight-bladed VAWT, our study shows that the helical-bladed VAWT generates near-wake flow structures with more three-dimensional features, which accelerate the wake transition to turbulence, enhance the small-scale turbulent dissipation, and result in a more rapid decay of the wake turbulence intensity. Moreover, the helical-bladed VAWT also exhibits much smaller temporal variations for the torque and power coefficients than the straight-bladed VAWT, resulting in smoother wind power generation.

Topics & Concepts

WakeTurbulenceMechanicsVertical axisLarge eddy simulationDetached eddy simulationWind powerPhysicsMeteorologyEnvironmental scienceGeologyGeometryEngineeringReynolds-averaged Navier–Stokes equationsMathematicsElectrical engineeringWind Energy Research and DevelopmentWind and Air Flow StudiesFluid Dynamics and Vibration Analysis
Large-eddy simulations of turbulent wake flows behind helical- and straight-bladed vertical axis wind turbines rotating at low tip speed ratios | Litcius