Flow modulation by a mushroom-like coating around the separation region of a wind-turbine airfoil section

Doosttalab, Ali; Dharmarathne, Suranga; Evans, Humberto Bocanegra; Hamed, Ali M.; Gorumlu, Serdar; Aksak, Burak; Chamorro, Leonardo P.; Tutkun, Murat; Castillo, Luciano

doi:10.1063/1.5022819

Cited by 6 publications

(2 citation statements)

References 42 publications

(42 reference statements)

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“…A novel approach to defining the cut-off is employed by Doosttalab et al [13]. In the study of a bio-inspired coating on an airfoil, the cut-off is determined by considering the streamwise auto-correlation.…”

Section: Proper Orthogonal Decompositionmentioning

confidence: 99%

Cross-Correlation of POD Spatial Modes for the Separation of Stochastic Turbulence and Coherent Structures

Butcher

Spencer

2019

Fluids

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This article describes a proper-orthogonal-decomposition (POD) based methodology proposed for the identification and separation of coherent and turbulent velocity fluctuations. Typically, POD filtering requires assumptions to be made on the cumulative energy content of coherent modes and can therefore exclude smaller, but important contributions from lower energy modes. This work introduces a suggested new metric to consider in the selection of POD modes to be included in a reconstruction of coherent and turbulent features. Cross-correlation of POD spatial modes derived from independent samples is used to identify modes descriptive of either coherent (high-correlation) or incoherent (low-correlation) features. The technique is demonstrated through application to a cylinder in cross-flow allowing appropriate analysis to be carried out on the coherent and turbulent velocity fields separately. This approach allows identification of coherent motions associated with cross-flow transport and vortex shedding, such as integral length scales. Turbulent flow characteristics may be analysed independently from the coherent motions, allowing for the extraction of properties such as turbulent length scale.

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Section: Proper Orthogonal Decompositionmentioning

confidence: 99%

Cross-Correlation of POD Spatial Modes for the Separation of Stochastic Turbulence and Coherent Structures

Butcher

Spencer

2019

Fluids

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“…[207] High-resolution particle image velocimetry was used to explore the separation flow of a bioinspired coating in an annular channel. [208] Afroz et al observed the separation data of laminar and turbulent boundary layers on smooth surfaces and shark skin surfaces using a time-resolved digital particle image velocimeter (TR-DPIV) at a given adverse pressure gradient. [37] Time-resolved particle image velocimetry (TRPIV) was used to study the drag reduction mechanism of a turbulent boundary layer on superhydrophobic surfaces, which were measured to achieve a drag reduction rate of 10% by Tian et al [201] Lang et al also applied DPIV to study the contribution of grooves to delaying turbulent boundary layer separation under adverse pressure gradient conditions.…”

Section: Pivmentioning

confidence: 99%

Focus on Bioinspired Textured Surfaces toward Fluid Drag Reduction: Recent Progresses and Challenges

et al. 2021

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After a long period of biological evolution, natural creatures will inevitably evolve body surfaces suitable for the living environment. The functions of natural biological surfaces are abundant and powerful, including antiadhesion, self‐cleaning, drag reduction, anti‐icing, wear resistance, and other characteristics. In the context of coping with the energy crisis, inspired by natural biological surface microstructures, researchers explore biomimetic surface microstructures that reduce fluid drag and investigate the mechanisms of drag reduction. Herein, mainly the current state of research on biomimetic textured surfaces that can be applied to fluid drag reduction is reviewed and the microstructures’ morphology, drag reduction mechanisms, and the fabrication techniques of textured surfaces are discussed in detail. In particular, the experimental methods for measuring the drag reduction effect of textured surfaces are introduced, which is extremely rare. The article concludes with a summary of existing problems and future directions in the research of biomimetic surface drag reduction technology. This Review can provide a reference for practical application and laboratory research of drag reduction in marine transportation, military weapons, aviation, and pipeline systems.

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On the aerodynamic loads and flow statistics of airfoil with deformable vortex generators

2022

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The aerodynamic performances and flow statistics for a DU(Delft University)-91-W2-250 airfoil with deformable vortex generators (DVG) were experimentally studied in a wind tunnel across various angle of attacks and wind speeds. A high-resolution force sensor was used to measure the time-averaged lift force, while a planar particle image velocimetry system was applied to characterize the mean velocity and vortex shedding over airfoil surface. The results highlighted that, similar to conventional rigid vortex generators (RVG), DVG can effectively enhance lift coefficient after the stall angle of airfoil with clean surface under low incoming winds. However, the deformation of DVGs increased with the growth of wind speed; this suppressed the effectiveness of wake mixing where the aerodynamic performance of DVGs gradually converged to clean surface configurations. The flow measurements demonstrated that deformation of DVG can lead to significant decrease of near-wall flow velocities close to the airfoil trailing edge and generate more dispersed vorticity distributions. To further investigate the linkage between DVG deformation and its wake mixing effectiveness, complementary tomographic particle image velocimetry measurements were conducted. The results indicated that the vorticity strength presented monotonic decay with the bending angle of DVG within both near and intermediate wake regions. The capability of DVGs to passively adjust their bending angle and therefore the airfoil lift coefficients provides a novel approach to reduce aerodynamic load fluctuations for aircraft within unsteady flows.

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Flow modulation by a mushroom-like coating around the separation region of a wind-turbine airfoil section

Cited by 6 publications

References 42 publications

Cross-Correlation of POD Spatial Modes for the Separation of Stochastic Turbulence and Coherent Structures

Cross-Correlation of POD Spatial Modes for the Separation of Stochastic Turbulence and Coherent Structures

Focus on Bioinspired Textured Surfaces toward Fluid Drag Reduction: Recent Progresses and Challenges

On the aerodynamic loads and flow statistics of airfoil with deformable vortex generators

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