Vibroconvective Patterns in a Layer under Translational Vibrations of Circular Polarization
This article experimentally investigates thermal vibrational convection in horizontal layers, subject to circular translational oscillations in the horizontal plane. The definite direction of translational vibrations lacks investigation, and the case of a layer heated from above is considered. At la...
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| Vydáno v: | Fluids (Basel) Ročník 6; číslo 3; s. 108 |
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| Jazyk: | angličtina |
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MDPI AG
01.03.2021
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| ISSN: | 2311-5521, 2311-5521 |
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| Abstract | This article experimentally investigates thermal vibrational convection in horizontal layers, subject to circular translational oscillations in the horizontal plane. The definite direction of translational vibrations lacks investigation, and the case of a layer heated from above is considered. At large negative values of the gravitational Rayleigh number, the thermovibrational convection appears in a threshold manner with an increase in the vibration intensity. Our results show that in the case of strong gravitational stabilization, thermovibrational convection develops in the form of patterns with strong anisotropy of spatial periods in orthogonal directions. The vibroconvective patterns have the form of parallel rolls divided along their length into relatively short segments. The layer thickness determines the distance between the rolls, and the longitudinal wavelength, depends on the Rayleigh number. Convective cells are studied using the noninvasive thermohromic methodic. It is found that when using the tracers for flow visualization, the concentration and type of the visualizer particles have a serious impact on the shape of the observed vibroconvective structures. In particular, the presence of even a small number of tracers (used in the study of velocity fields by the PIV method) generates flows and intensifies the heat transfer below the threshold of thermovibrational convection excitation. |
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| AbstractList | This article experimentally investigates thermal vibrational convection in horizontal layers, subject to circular translational oscillations in the horizontal plane. The definite direction of translational vibrations lacks investigation, and the case of a layer heated from above is considered. At large negative values of the gravitational Rayleigh number, the thermovibrational convection appears in a threshold manner with an increase in the vibration intensity. Our results show that in the case of strong gravitational stabilization, thermovibrational convection develops in the form of patterns with strong anisotropy of spatial periods in orthogonal directions. The vibroconvective patterns have the form of parallel rolls divided along their length into relatively short segments. The layer thickness determines the distance between the rolls, and the longitudinal wavelength, depends on the Rayleigh number. Convective cells are studied using the noninvasive thermohromic methodic. It is found that when using the tracers for flow visualization, the concentration and type of the visualizer particles have a serious impact on the shape of the observed vibroconvective structures. In particular, the presence of even a small number of tracers (used in the study of velocity fields by the PIV method) generates flows and intensifies the heat transfer below the threshold of thermovibrational convection excitation. |
| Author | Vjatkin, Aleksei Rysin, Kirill Kozlov, Victor |
| Author_xml | – sequence: 1 givenname: Victor orcidid: 0000-0003-0327-8764 surname: Kozlov fullname: Kozlov, Victor – sequence: 2 givenname: Kirill orcidid: 0000-0002-4506-3043 surname: Rysin fullname: Rysin, Kirill – sequence: 3 givenname: Aleksei surname: Vjatkin fullname: Vjatkin, Aleksei |
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| CitedBy_id | crossref_primary_10_1080_10407782_2023_2214698 crossref_primary_10_3390_fluids6060227 crossref_primary_10_1007_s12217_022_09975_y crossref_primary_10_1088_1742_6596_2127_1_012004 |
| Cites_doi | 10.1007/s12217-019-09707-9 10.1007/BF02078217 10.1146/annurev.fluid.33.1.43 10.1103/PhysRevLett.101.084501 10.1002/9780470749982 10.1007/BF01054754 10.1023/A:1015866518221 10.1017/S0022112007009457 10.3390/fluids6010030 10.1023/A:1025189804914 10.1063/1.4893078 10.1007/s12217-017-9582-5 10.1017/jfm.2019.282 |
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| References | Lappa (ref_17) 2014; 26 Riley (ref_16) 2001; 33 Kozlov (ref_15) 2006; 2 Kozlov (ref_14) 1988; 23 Kozlov (ref_12) 2019; 31 Ivanova (ref_13) 2003; 38 Simonenko (ref_4) 1966; 5 ref_20 Mialdun (ref_3) 2008; 101 Vorobev (ref_7) 2019; 870 ref_1 Pesch (ref_11) 2008; 596 ref_18 Smorodin (ref_6) 2018; 30 Gershuni (ref_5) 1996; 31 Kozlov (ref_10) 1991; 23 Ivanova (ref_19) 2002; 37 ref_9 ref_8 Gershuni (ref_2) 1979; 24 |
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| SubjectTerms | circular translational vibrations convective patterns plane layer thermal vibrational convection |
| Title | Vibroconvective Patterns in a Layer under Translational Vibrations of Circular Polarization |
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