2022
DOI: 10.1017/jfm.2022.165
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Analysis of the onset and evolution of a dynamic stall vortex on a periodic plunging aerofoil

Abstract: The onset and evolution of the dynamic stall vortex (DSV) are analysed by means of large eddy simulations of an SD7003 aerofoil undergoing periodic plunging motion in a transitional Reynolds number flow ( $Re =6\times 10^{4}$ ). Interactions between upstream propagating Kelvin–Helmholtz instabilities and a shear layer formed at the leading edge trigger flow separation. The former appear to be related to acoustic waves scattered at the trailing edge due to initial vortex shedding. Two … Show more

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Cited by 22 publications
(17 citation statements)
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“…The starting point of the method is the input images of flowfields obtained from numerical simulations or experiments, such as those from a 2D cross section. The images are obtained from the high-fidelity simulations of Miotto et al [1,2] in terms of spanwise-averaged flowfields. In these references, the authors were interested in understanding the mechanisms of dynamic stall onset and the conditions for pitch and plunge equivalence to occur.…”
Section: Regression Task 211 Input Datamentioning
confidence: 99%
See 3 more Smart Citations
“…The starting point of the method is the input images of flowfields obtained from numerical simulations or experiments, such as those from a 2D cross section. The images are obtained from the high-fidelity simulations of Miotto et al [1,2] in terms of spanwise-averaged flowfields. In these references, the authors were interested in understanding the mechanisms of dynamic stall onset and the conditions for pitch and plunge equivalence to occur.…”
Section: Regression Task 211 Input Datamentioning
confidence: 99%
“…These images consider all simulations of dynamic stall cases reported in Refs. [2,1], which include a periodic plunging airfoil and constant ramp pitching and plunging airfoils for Mach numbers 0.1 and 0.4. When generating these images, it is important to keep Data augmentation is used to artificially increase the size of the training set.…”
Section: Regression Task 211 Input Datamentioning
confidence: 99%
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“…Therefore, they are nondimensionalized by freestream velocity as t = t * U * ∞ /L * and St = f * L * /U * ∞ , respectively. The present numerical tool has been validated for several simulations of compressible flows around turbine blades and airfoils [16,[33][34][35][36][37].…”
Section: A Large Eddy Simulationsmentioning
confidence: 99%