SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2648653857> ?p ?o ?g. }

Showing items 1 to 100 of ±147 with 100 items per page.

W2648653857 endingPage "657" @default.
W2648653857 startingPage "617" @default.
W2648653857 abstract "We analyse the low-frequency dynamics of a high Reynolds number impinging shock-wave/turbulent boundary-layer interaction (SWBLI) with strong mean-flow separation. The flow configuration for our grid-converged large-eddy simulations (LES) reproduces recent experiments for the interaction of a Mach 3 turbulent boundary layer with an impinging shock that nominally deflects the incoming flow by $19.6^{circ }$ . The Reynolds number based on the incoming boundary-layer thickness of $Re_{unicode[STIX]{x1D6FF}_{0}}approx 203times 10^{3}$ is considerably higher than in previous LES studies. The very long integration time of $3805unicode[STIX]{x1D6FF}_{0}/U_{0}$ allows for an accurate analysis of low-frequency unsteady effects. Experimental wall-pressure measurements are in good agreement with the LES data. Both datasets exhibit the distinct plateau within the separated-flow region of a strong SWBLI. The filtered three-dimensional flow field shows clear evidence of counter-rotating streamwise vortices originating in the proximity of the bubble apex. Contrary to previous numerical results on compression ramp configurations, these Görtler-like vortices are not fixed at a specific spanwise position, but rather undergo a slow motion coupled to the separation-bubble dynamics. Consistent with experimental data, power spectral densities (PSD) of wall-pressure probes exhibit a broadband and very energetic low-frequency component associated with the separation-shock unsteadiness. Sparsity-promoting dynamic mode decompositions (SPDMD) for both spanwise-averaged data and wall-plane snapshots yield a classical and well-known low-frequency breathing mode of the separation bubble, as well as a medium-frequency shedding mode responsible for reflected and reattachment shock corrugation. SPDMD of the two-dimensional skin-friction coefficient further identifies streamwise streaks at low frequencies that cause large-scale flapping of the reattachment line. The PSD and SPDMD results of our impinging SWBLI support the theory that an intrinsic mechanism of the interaction zone is responsible for the low-frequency unsteadiness, in which Görtler-like vortices might be seen as a continuous (coherent) forcing for strong SWBLI." @default.
W2648653857 created "2017-06-30" @default.
W2648653857 creator A5013561349 @default.
W2648653857 creator A5067430426 @default.
W2648653857 creator A5078293402 @default.
W2648653857 date "2017-06-22" @default.
W2648653857 modified "2023-10-18" @default.
W2648653857 title "Unsteady effects of strong shock-wave/boundary-layer interaction at high Reynolds number" @default.
W2648653857 cites W1565256545 @default.
W2648653857 cites W1841125124 @default.
W2648653857 cites W185903334 @default.
W2648653857 cites W1967914174 @default.
W2648653857 cites W1969647398 @default.
W2648653857 cites W1971397751 @default.
W2648653857 cites W1974346535 @default.
W2648653857 cites W1975236741 @default.
W2648653857 cites W1975238244 @default.
W2648653857 cites W1978824077 @default.
W2648653857 cites W1983839464 @default.
W2648653857 cites W1985955770 @default.
W2648653857 cites W1988916147 @default.
W2648653857 cites W1989856047 @default.
W2648653857 cites W2000355774 @default.
W2648653857 cites W2002647381 @default.
W2648653857 cites W2004482955 @default.
W2648653857 cites W2008139794 @default.
W2648653857 cites W2014356541 @default.
W2648653857 cites W2015159187 @default.
W2648653857 cites W2022840017 @default.
W2648653857 cites W2025536235 @default.
W2648653857 cites W2032569932 @default.
W2648653857 cites W2035537545 @default.
W2648653857 cites W2037212603 @default.
W2648653857 cites W2040571824 @default.
W2648653857 cites W2040998279 @default.
W2648653857 cites W2042980489 @default.
W2648653857 cites W2045531911 @default.
W2648653857 cites W2051030499 @default.
W2648653857 cites W2052922281 @default.
W2648653857 cites W2053828742 @default.
W2648653857 cites W2057169907 @default.
W2648653857 cites W2057393236 @default.
W2648653857 cites W2061048870 @default.
W2648653857 cites W2069304855 @default.
W2648653857 cites W2069611087 @default.
W2648653857 cites W2074541450 @default.
W2648653857 cites W2074712603 @default.
W2648653857 cites W2078921654 @default.
W2648653857 cites W2080914886 @default.
W2648653857 cites W2086720063 @default.
W2648653857 cites W2089755007 @default.
W2648653857 cites W2090846249 @default.
W2648653857 cites W2092421235 @default.
W2648653857 cites W2093637468 @default.
W2648653857 cites W2097098299 @default.
W2648653857 cites W2098482200 @default.
W2648653857 cites W2100332121 @default.
W2648653857 cites W2104119132 @default.
W2648653857 cites W2108870758 @default.
W2648653857 cites W2118982895 @default.
W2648653857 cites W2142975363 @default.
W2648653857 cites W2144362465 @default.
W2648653857 cites W2147041309 @default.
W2648653857 cites W2148302906 @default.
W2648653857 cites W2150067748 @default.
W2648653857 cites W2155155203 @default.
W2648653857 cites W2164954534 @default.
W2648653857 cites W2165540792 @default.
W2648653857 cites W2169936509 @default.
W2648653857 cites W2212357383 @default.
W2648653857 cites W2256255938 @default.
W2648653857 cites W2313514225 @default.
W2648653857 cites W2315764759 @default.
W2648653857 cites W2322979221 @default.
W2648653857 cites W2339113382 @default.
W2648653857 cites W2460100368 @default.
W2648653857 cites W2465710510 @default.
W2648653857 cites W2532817592 @default.
W2648653857 cites W2605292940 @default.
W2648653857 cites W2979285947 @default.
W2648653857 cites W48998817 @default.
W2648653857 cites W3145537184 @default.
W2648653857 doi "https://doi.org/10.1017/jfm.2017.308" @default.
W2648653857 hasPublicationYear "2017" @default.
W2648653857 type Work @default.
W2648653857 sameAs 2648653857 @default.
W2648653857 citedByCount "112" @default.
W2648653857 countsByYear W26486538572018 @default.
W2648653857 countsByYear W26486538572019 @default.
W2648653857 countsByYear W26486538572020 @default.
W2648653857 countsByYear W26486538572021 @default.
W2648653857 countsByYear W26486538572022 @default.
W2648653857 countsByYear W26486538572023 @default.
W2648653857 crossrefType "journal-article" @default.
W2648653857 hasAuthorship W2648653857A5013561349 @default.
W2648653857 hasAuthorship W2648653857A5067430426 @default.
W2648653857 hasAuthorship W2648653857A5078293402 @default.
W2648653857 hasConcept C111603439 @default.