SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2116760946> ?p ?o ?g. }

Showing items 1 to 100 of ±123 with 100 items per page.

W2116760946 endingPage "594" @default.
W2116760946 startingPage "567" @default.
W2116760946 abstract "Abstract A recent numerical study by Rao et al. ( J. Fluid Mech. , vol. 717, 2013, pp. 1–29) predicted the existence of several previously unobserved linearly unstable three-dimensional modes in the wake of a spinning cylinder in cross-flow. While linear stability analysis suggests that some of these modes exist for relatively limited ranges of Reynolds numbers and rotation rates, this may not be true for fully developed nonlinear wakes. In the current paper, we present the results of water channel experiments on a rotating cylinder in cross-flow, for Reynolds numbers $200leqslant mathit{Re}leqslant 275$ and non-dimensional rotation rates $0leqslant alpha leqslant 2. 5$ . Using particle image velocimetry and digitally post-processed hydrogen bubble flow visualizations, we confirm the existence of the predicted modes for the first time experimentally. For instance, for $mathit{Re}= 275$ and a rotation rate of $alpha = 1. 7$ , we observe a subharmonic mode, mode C, with a spanwise wavelength of ${lambda }_{z} / dapprox 1. 1$ . On increasing the rotation rate, two modes with a wavelength of ${lambda }_{z} / dapprox 2$ become unstable in rapid succession, termed modes D and E. Mode D grows on a shedding wake, whereas mode E consists of streamwise vortices on an otherwise steady wake. For $alpha gt 2. 2$ , a short-wavelength mode F appears localized close to the cylinder surface with ${lambda }_{z} / dapprox 0. 5$ , which is presumably a manifestation of centrifugal instability. Unlike the other modes, mode F is a travelling wave with a spanwise frequency of ${mathit{St}}_{3D} approx 0. 1$ . In addition to these new modes, observations on the one-sided shedding process, known as the ‘second shedding’, are reported for $alpha = 5. 1$ . Despite suggestions from the literature, this process seems to be intrinsically three-dimensional. In summary, our experiments confirm the linear predictions by Rao et al. , with very good agreement of wavelengths, symmetries and the phase velocity for the travelling mode. Apart from this, these experiments examine the nonlinear saturated state of these modes and explore how the existence of multiple unstable modes can affect the selected final state. Finally, our results establish that several distinct three-dimensional instabilities exist in a relatively confined area on the $mathit{Re}$ – $alpha $ parameter map, which could account for their non-detection previously." @default.
W2116760946 created "2016-06-24" @default.
W2116760946 creator A5052033466 @default.
W2116760946 creator A5065118707 @default.
W2116760946 creator A5067678921 @default.
W2116760946 creator A5072960486 @default.
W2116760946 creator A5075807234 @default.
W2116760946 date "2013-10-14" @default.
W2116760946 modified "2023-10-18" @default.
W2116760946 title "Experimental evidence of new three-dimensional modes in the wake of a rotating cylinder" @default.
W2116760946 cites W1933722800 @default.
W2116760946 cites W1975781390 @default.
W2116760946 cites W1978098781 @default.
W2116760946 cites W1985212289 @default.
W2116760946 cites W1989085497 @default.
W2116760946 cites W1989102977 @default.
W2116760946 cites W2001383012 @default.
W2116760946 cites W2008408578 @default.
W2116760946 cites W2010142565 @default.
W2116760946 cites W2017944985 @default.
W2116760946 cites W2023750399 @default.
W2116760946 cites W2024759575 @default.
W2116760946 cites W2035570689 @default.
W2116760946 cites W2046908856 @default.
W2116760946 cites W2051297352 @default.
W2116760946 cites W2054250311 @default.
W2116760946 cites W2060484905 @default.
W2116760946 cites W2063167513 @default.
W2116760946 cites W2066361687 @default.
W2116760946 cites W2066727144 @default.
W2116760946 cites W2075950396 @default.
W2116760946 cites W2079321577 @default.
W2116760946 cites W2079440087 @default.
W2116760946 cites W2080641281 @default.
W2116760946 cites W2081531096 @default.
W2116760946 cites W2082659767 @default.
W2116760946 cites W2085623372 @default.
W2116760946 cites W2095940806 @default.
W2116760946 cites W2101969763 @default.
W2116760946 cites W2106890164 @default.
W2116760946 cites W2107668980 @default.
W2116760946 cites W2112368155 @default.
W2116760946 cites W2112681946 @default.
W2116760946 cites W2113002458 @default.
W2116760946 cites W2113098636 @default.
W2116760946 cites W2116835924 @default.
W2116760946 cites W2120167776 @default.
W2116760946 cites W2128334646 @default.
W2116760946 cites W2133558427 @default.
W2116760946 cites W2139611469 @default.
W2116760946 cites W2154350262 @default.
W2116760946 cites W2159015294 @default.
W2116760946 cites W2164668853 @default.
W2116760946 cites W4231737103 @default.
W2116760946 doi "https://doi.org/10.1017/jfm.2013.486" @default.
W2116760946 hasPublicationYear "2013" @default.
W2116760946 type Work @default.
W2116760946 sameAs 2116760946 @default.
W2116760946 citedByCount "42" @default.
W2116760946 countsByYear W21167609462014 @default.
W2116760946 countsByYear W21167609462015 @default.
W2116760946 countsByYear W21167609462016 @default.
W2116760946 countsByYear W21167609462017 @default.
W2116760946 countsByYear W21167609462018 @default.
W2116760946 countsByYear W21167609462019 @default.
W2116760946 countsByYear W21167609462020 @default.
W2116760946 countsByYear W21167609462021 @default.
W2116760946 countsByYear W21167609462022 @default.
W2116760946 countsByYear W21167609462023 @default.
W2116760946 crossrefType "journal-article" @default.
W2116760946 hasAuthorship W2116760946A5052033466 @default.
W2116760946 hasAuthorship W2116760946A5065118707 @default.
W2116760946 hasAuthorship W2116760946A5067678921 @default.
W2116760946 hasAuthorship W2116760946A5072960486 @default.
W2116760946 hasAuthorship W2116760946A5075807234 @default.
W2116760946 hasConcept C120665830 @default.
W2116760946 hasConcept C121332964 @default.
W2116760946 hasConcept C140820882 @default.
W2116760946 hasConcept C182748727 @default.
W2116760946 hasConcept C196558001 @default.
W2116760946 hasConcept C203311528 @default.
W2116760946 hasConcept C207821765 @default.
W2116760946 hasConcept C207857233 @default.
W2116760946 hasConcept C2524010 @default.
W2116760946 hasConcept C2778113609 @default.
W2116760946 hasConcept C33923547 @default.
W2116760946 hasConcept C48939323 @default.
W2116760946 hasConcept C57879066 @default.
W2116760946 hasConcept C74050887 @default.
W2116760946 hasConceptScore W2116760946C120665830 @default.
W2116760946 hasConceptScore W2116760946C121332964 @default.
W2116760946 hasConceptScore W2116760946C140820882 @default.
W2116760946 hasConceptScore W2116760946C182748727 @default.
W2116760946 hasConceptScore W2116760946C196558001 @default.
W2116760946 hasConceptScore W2116760946C203311528 @default.
W2116760946 hasConceptScore W2116760946C207821765 @default.
W2116760946 hasConceptScore W2116760946C207857233 @default.
W2116760946 hasConceptScore W2116760946C2524010 @default.