Do ambient shear and thermal stratification impact wind turbine tip-vortex breakdown?

Hodgkin, Amy; Laizet, Sylvain; Deskos, Georgios

doi:10.1088/1742-6596/2265/2/022061

Title: Do ambient shear and thermal stratification impact wind turbine tip-vortex breakdown?

Journal Article · Thu Jun 02 00:00:00 EDT 2022 · Journal of Physics. Conference Series

DOI:https://doi.org/10.1088/1742-6596/2265/2/022061· OSTI ID:1874252

Hodgkin, Amy ^[1]; Laizet, Sylvain ^[1]; Deskos, Georgios ^[2]

Imperial College, London (United Kingdom)
National Renewable Energy Lab. (NREL), Golden, CO (United States)

Modern wind turbines experience uneven inflow conditions across the rotor, due to the ambient flow’s shear and thermal stratification. Such conditions alter the shape and length of turbine wakes and thus impact the loads and power generation of downstream turbines. To this end, understanding the spatial evolution of the individual wakes under different atmospheric conditions is key to controlling and optimising turbine arrays. With this numerical study we aim to obtain a better understanding of the fundamental physics governing the near-wake dynamics of wind turbines under shear and thermal stability, by examining their tip-vortex breakup mechanisms. Our approach considers scale-resolving simulations of a single turbine wake under a linear shear profile as well as the application of harmonic tip perturbations to trigger flow instabilities. For the subsequent analysis we use the proper orthogonal decomposition (POD) method to extract coherent structures from the flow, and we also calculate mean kinetic energy fluxes to quantify each coherent structure’s contribution to wake recovery. The wake’s helical spiral is found to hinder wake recovery for all studied ambient flow conditions, whereas the mutual inductance instability has positive MKE flux leading to an enhanced wake recovery. Finally, the ambient shear has the largest impact on the local MKE flux with respect to downstream location by changing the shape of the curve and location of extrema, whereas thermal stratification has only a minimal impact on the magnitude of the near-wake local MKE flux distribution.

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Research Organization:: National Renewable Energy Lab. (NREL), Golden, CO (United States)

Sponsoring Organization:: USDOE Office of Energy Efficiency and Renewable Energy (EERE), Renewable Power Office. Wind Energy Technologies Office; Imperial College London; UK Turbulence Consortium

Grant/Contract Number:: AC36-08GO28308; 2019215138; EP/R029326/1; EP/V000942/1

OSTI ID:: 1874252

Report Number(s):: NREL/JA-5000-82492; MainId:83265; UUID:107163d8-d54f-4902-8e0c-ab7a07ebbc7c; MainAdminID:64560

Journal Information:: Journal of Physics. Conference Series, Vol. 2265, Issue 2; ISSN 1742-6588

Publisher:: IOP PublishingCopyright Statement

Country of Publication:: United States

Language:: English

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