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On the bi-stabilities of vortex shedding flows behind a pair of square solids
Low Reynolds number flows behind two side-by-side square solids with a gap were studied by both numerical simulation and experimental flow-visualization methods. The numerical simulations were conducted by solving the two-dimensional incompressible Navier-Stokes equations. The spatial discretization...
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| Published in: | Journal of the Chinese Institute of Engineers 2004-05, Vol.27 (3), p.385-393 |
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| Language: | English |
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| cites | cdi_FETCH-LOGICAL-c339t-eeee23069dd0119a5ce630b0f67855c903d5f2f9c6bc211273a5efd15893b82c3 |
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| container_title | Journal of the Chinese Institute of Engineers |
| container_volume | 27 |
| creator | Peng, Yih-Ferng |
| description | Low Reynolds number flows behind two side-by-side square solids with a gap were studied by both numerical simulation and experimental flow-visualization methods. The numerical simulations were conducted by solving the two-dimensional incompressible Navier-Stokes equations. The spatial discretization consists of a seventh-order accurate upwind-biased method for the convective terms and a sixth-order central difference method for the diffusive terms. Arranging the shedding vortices from the upper and lower solids in a synchronal phase and non-synchronal phase as the initial conditions, the stationary in-phase and anti-phase vortex shedding flows take place, respectively. The anti-phase vortex streets remain stable and proceed to the far wake zone. While the in-phase vortex pair, during downstream motion, is observed to rotate around one another. The process eventually leads to the development of a single large-scale wake. The vortex shedding patterns are experimentally studied in a water tunnel by using a Particle Tracing Visualization (PTV) method. The developed in-phase and anti-phase vortex shedding flows along with time-velocity histories are presented and analyzed with the help of signal analysis, i.e., Fourier power spectrum analysis of the velocity evolution and the phase-space trajectory of the velocities. Interestingly, spatially inverse period-doubling phenomena are observed for the in-phase vortex shedding flows. |
| doi_str_mv | 10.1080/02533839.2004.9670885 |
| format | article |
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The numerical simulations were conducted by solving the two-dimensional incompressible Navier-Stokes equations. The spatial discretization consists of a seventh-order accurate upwind-biased method for the convective terms and a sixth-order central difference method for the diffusive terms. Arranging the shedding vortices from the upper and lower solids in a synchronal phase and non-synchronal phase as the initial conditions, the stationary in-phase and anti-phase vortex shedding flows take place, respectively. The anti-phase vortex streets remain stable and proceed to the far wake zone. While the in-phase vortex pair, during downstream motion, is observed to rotate around one another. The process eventually leads to the development of a single large-scale wake. The vortex shedding patterns are experimentally studied in a water tunnel by using a Particle Tracing Visualization (PTV) method. The developed in-phase and anti-phase vortex shedding flows along with time-velocity histories are presented and analyzed with the help of signal analysis, i.e., Fourier power spectrum analysis of the velocity evolution and the phase-space trajectory of the velocities. Interestingly, spatially inverse period-doubling phenomena are observed for the in-phase vortex shedding flows.</description><identifier>ISSN: 0253-3839</identifier><identifier>EISSN: 2158-7299</identifier><identifier>DOI: 10.1080/02533839.2004.9670885</identifier><language>eng</language><publisher>Taylor & Francis Group</publisher><subject>a pair of square solids ; flow-visualization ; numerical simulation ; vortex shedding flow</subject><ispartof>Journal of the Chinese Institute of Engineers, 2004-05, Vol.27 (3), p.385-393</ispartof><rights>Copyright Taylor & Francis Group, LLC 2004</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c339t-eeee23069dd0119a5ce630b0f67855c903d5f2f9c6bc211273a5efd15893b82c3</citedby><cites>FETCH-LOGICAL-c339t-eeee23069dd0119a5ce630b0f67855c903d5f2f9c6bc211273a5efd15893b82c3</cites></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,780,784,27922,27923</link.rule.ids></links><search><creatorcontrib>Peng, Yih-Ferng</creatorcontrib><title>On the bi-stabilities of vortex shedding flows behind a pair of square solids</title><title>Journal of the Chinese Institute of Engineers</title><description>Low Reynolds number flows behind two side-by-side square solids with a gap were studied by both numerical simulation and experimental flow-visualization methods. The numerical simulations were conducted by solving the two-dimensional incompressible Navier-Stokes equations. The spatial discretization consists of a seventh-order accurate upwind-biased method for the convective terms and a sixth-order central difference method for the diffusive terms. Arranging the shedding vortices from the upper and lower solids in a synchronal phase and non-synchronal phase as the initial conditions, the stationary in-phase and anti-phase vortex shedding flows take place, respectively. The anti-phase vortex streets remain stable and proceed to the far wake zone. While the in-phase vortex pair, during downstream motion, is observed to rotate around one another. The process eventually leads to the development of a single large-scale wake. The vortex shedding patterns are experimentally studied in a water tunnel by using a Particle Tracing Visualization (PTV) method. The developed in-phase and anti-phase vortex shedding flows along with time-velocity histories are presented and analyzed with the help of signal analysis, i.e., Fourier power spectrum analysis of the velocity evolution and the phase-space trajectory of the velocities. 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The numerical simulations were conducted by solving the two-dimensional incompressible Navier-Stokes equations. The spatial discretization consists of a seventh-order accurate upwind-biased method for the convective terms and a sixth-order central difference method for the diffusive terms. Arranging the shedding vortices from the upper and lower solids in a synchronal phase and non-synchronal phase as the initial conditions, the stationary in-phase and anti-phase vortex shedding flows take place, respectively. The anti-phase vortex streets remain stable and proceed to the far wake zone. While the in-phase vortex pair, during downstream motion, is observed to rotate around one another. The process eventually leads to the development of a single large-scale wake. The vortex shedding patterns are experimentally studied in a water tunnel by using a Particle Tracing Visualization (PTV) method. The developed in-phase and anti-phase vortex shedding flows along with time-velocity histories are presented and analyzed with the help of signal analysis, i.e., Fourier power spectrum analysis of the velocity evolution and the phase-space trajectory of the velocities. Interestingly, spatially inverse period-doubling phenomena are observed for the in-phase vortex shedding flows.</abstract><pub>Taylor & Francis Group</pub><doi>10.1080/02533839.2004.9670885</doi><tpages>9</tpages></addata></record> |
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| ispartof | Journal of the Chinese Institute of Engineers, 2004-05, Vol.27 (3), p.385-393 |
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| language | eng |
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| source | Taylor and Francis Science and Technology Collection |
| subjects | a pair of square solids flow-visualization numerical simulation vortex shedding flow |
| title | On the bi-stabilities of vortex shedding flows behind a pair of square solids |
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