Experimental study on flow and turbulence characteristics of jet impinging on cylinder using three-dimensional Lagrangian particle tracking velocimetry
When a round jet impinges on a convex cylindrical surface, complex three-dimensional (3D) flow structures occur, accompanied by the Coanda effect. To characterize the flow and turbulence properties of the general system, ensemble averages of 3D Lagrangian particle tracking velocimetry measurements w...
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| Published in: | Scientific reports Vol. 13; no. 1; p. 10929 |
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| Main Authors: | , , , , , |
| Format: | Journal Article |
| Language: | English |
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06-07-2023
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| Abstract | When a round jet impinges on a convex cylindrical surface, complex three-dimensional (3D) flow structures occur, accompanied by the Coanda effect. To characterize the flow and turbulence properties of the general system, ensemble averages of 3D Lagrangian particle tracking velocimetry measurements were taken. The radial bin-averaging method was used in post-processing the tracked particles and corresponding instantaneous velocity vectors to generate appropriate ensemble-averaged statistics. Two impinging angles were selected, and at a fixed Reynolds number, the ensemble-averaged volumetric velocity field and turbulent stress tensor components were measured. The flow and turbulence characteristics of the impinging jet on the cylinder were notably different based on the impinging angle, especially in the downstream region. Surprisingly, the attached wall jet with a half-elliptic shape was abruptly thickened in the wall-normal direction, similar to the axis switching phenomenon observed in elliptic jets in the case of oblique impingement. In the jet-impinging region, the flow spread in all directions with high mean vorticity values. With the development of a 3D curved wall jet, both the Coanda effect and centrifugal force played a significant role in the flow behavior. A notable feature of the self-preserving region was the similarity of mean velocity profiles with scaling by the maximum velocity and the jet half-width for both impinging angle cases. Local isotropy of turbulent normal stresses was observed in this region, supporting the existence of self-preservation in the 3D curved wall jet. The volumetric ensemble-averaged Reynolds stress tensor revealed strong inhomogeneous turbulence in the boundary layer region and the curvature effect on the Reynolds shear stress in the free shear layer. |
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| AbstractList | When a round jet impinges on a convex cylindrical surface, complex three-dimensional (3D) flow structures occur, accompanied by the Coanda effect. To characterize the flow and turbulence properties of the general system, ensemble averages of 3D Lagrangian particle tracking velocimetry measurements were taken. The radial bin-averaging method was used in post-processing the tracked particles and corresponding instantaneous velocity vectors to generate appropriate ensemble-averaged statistics. Two impinging angles were selected, and at a fixed Reynolds number, the ensemble-averaged volumetric velocity field and turbulent stress tensor components were measured. The flow and turbulence characteristics of the impinging jet on the cylinder were notably different based on the impinging angle, especially in the downstream region. Surprisingly, the attached wall jet with a half-elliptic shape was abruptly thickened in the wall-normal direction, similar to the axis switching phenomenon observed in elliptic jets in the case of oblique impingement. In the jet-impinging region, the flow spread in all directions with high mean vorticity values. With the development of a 3D curved wall jet, both the Coanda effect and centrifugal force played a significant role in the flow behavior. A notable feature of the self-preserving region was the similarity of mean velocity profiles with scaling by the maximum velocity and the jet half-width for both impinging angle cases. Local isotropy of turbulent normal stresses was observed in this region, supporting the existence of self-preservation in the 3D curved wall jet. The volumetric ensemble-averaged Reynolds stress tensor revealed strong inhomogeneous turbulence in the boundary layer region and the curvature effect on the Reynolds shear stress in the free shear layer. Abstract When a round jet impinges on a convex cylindrical surface, complex three-dimensional (3D) flow structures occur, accompanied by the Coanda effect. To characterize the flow and turbulence properties of the general system, ensemble averages of 3D Lagrangian particle tracking velocimetry measurements were taken. The radial bin-averaging method was used in post-processing the tracked particles and corresponding instantaneous velocity vectors to generate appropriate ensemble-averaged statistics. Two impinging angles were selected, and at a fixed Reynolds number, the ensemble-averaged volumetric velocity field and turbulent stress tensor components were measured. The flow and turbulence characteristics of the impinging jet on the cylinder were notably different based on the impinging angle, especially in the downstream region. Surprisingly, the attached wall jet with a half-elliptic shape was abruptly thickened in the wall-normal direction, similar to the axis switching phenomenon observed in elliptic jets in the case of oblique impingement. In the jet-impinging region, the flow spread in all directions with high mean vorticity values. With the development of a 3D curved wall jet, both the Coanda effect and centrifugal force played a significant role in the flow behavior. A notable feature of the self-preserving region was the similarity of mean velocity profiles with scaling by the maximum velocity and the jet half-width for both impinging angle cases. Local isotropy of turbulent normal stresses was observed in this region, supporting the existence of self-preservation in the 3D curved wall jet. The volumetric ensemble-averaged Reynolds stress tensor revealed strong inhomogeneous turbulence in the boundary layer region and the curvature effect on the Reynolds shear stress in the free shear layer. |
| ArticleNumber | 10929 |
| Author | Novara, Matteo Yeom, Eunseop Schanz, Daniel Godbersen, Philipp Schröder, Andreas Kim, Mirae |
| Author_xml | – sequence: 1 givenname: Mirae surname: Kim fullname: Kim, Mirae organization: Rolls-Royce University Technology Center, Pusan National University – sequence: 2 givenname: Daniel surname: Schanz fullname: Schanz, Daniel organization: Institute of Aerodynamics and Flow Technology, German Aerospace Center (DLR) – sequence: 3 givenname: Matteo surname: Novara fullname: Novara, Matteo organization: Institute of Aerodynamics and Flow Technology, German Aerospace Center (DLR) – sequence: 4 givenname: Philipp surname: Godbersen fullname: Godbersen, Philipp organization: Institute of Aerodynamics and Flow Technology, German Aerospace Center (DLR) – sequence: 5 givenname: Eunseop surname: Yeom fullname: Yeom, Eunseop email: esyeom@pusan.ac.kr organization: School of Mechanical Engineering, Pusan National University, Eco-Friendly Smart Ship Parts Technology Innovation Center, Pusan National University – sequence: 6 givenname: Andreas surname: Schröder fullname: Schröder, Andreas organization: Institute of Aerodynamics and Flow Technology, German Aerospace Center (DLR) |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/37414852$$D View this record in MEDLINE/PubMed |
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| Cites_doi | 10.1063/1.4955167 10.1016/j.ijheatmasstransfer.2020.120085 10.1088/0957-0233/24/2/024008 10.1063/1.5001161 10.1016/j.applthermaleng.2014.12.043 10.1017/jfm.2019.162 10.1007/s00348-018-2533-0 10.1016/j.expthermflusci.2019.03.018 10.1017/S0022112096001711 10.1007/s00348-005-0991-7 10.1007/BF03181565 10.1115/1.4038089 10.1080/14685248.2013.850171 10.1007/s12650-017-0466-y 10.1016/j.ijheatmasstransfer.2020.120279 10.1038/s41598-021-90734-1 10.1016/j.ijheatfluidflow.2012.06.003 10.1016/j.ijthermalsci.2018.09.037 10.1017/S0022112098003668 10.1007/s10494-015-9616-2 10.1088/1361-6501/ab8f46 10.1007/s00348-021-03276-7 10.1063/1.2353403 10.1088/0957-0233/24/2/024009 10.1007/s00348-016-2157-1 |
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| References | Kim, Kim, Yeom (CR1) 2020; 161 Kim, Karbasian, Yeom (CR11) 2018; 21 Shademan, Balachandar, Roussinova, Barron (CR2) 2016; 28 Neuendorf, Wygnanski (CR13) 1999; 381 Adrian (CR14) 2005; 39 Kim, Li, Peng, Yeom, Kim (CR10) 2019; 105 Kim, Kim, Yeom, Kim (CR6) 2020; 159 Wieneke (CR16) 2012; 24 Zhou, Heine, Wygnanski (CR24) 2006; 310 Yadav, Agrawal (CR3) 2018; 30 Violato, Ianiro, Cardone, Scarano (CR4) 2012; 37 Han, de Zhou, Wygnanski (CR12) 2006; 18 Kim, Kim, Yeom, Kim (CR9) 2018; 140 Meldi, Sagaut (CR23) 2013; 14 Schanz, Gesemann, Schroder (CR17) 2016; 57 Wannassi, Monnoyer (CR7) 2015; 78 Schröder (CR15) 2015; 95 Kim, Safdari, Kim (CR19) 2021; 11 Jahn, Schanz, Schroder (CR18) 2021; 62 CR21 Alnak, Varol, Firat, Oztop, Ozalp (CR8) 2019; 135 Schanz, Gesemann, Schröder, Wieneke, Novara (CR20) 2012; 24 Jux, Sciacchitano, Scarano (CR22) 2020; 31 Huhn, Schanz, Manovski, Gesemann, Schroder (CR5) 2018; 59 Ramesh, Venkatakrishnan, Prabhu (CR25) 2006; 9 Shi, Feng, Wang (CR26) 2019; 868 C Jux (37970_CR22) 2020; 31 G Ramesh (37970_CR25) 2006; 9 M Kim (37970_CR1) 2020; 161 D Kim (37970_CR19) 2021; 11 D Violato (37970_CR4) 2012; 37 G Han (37970_CR12) 2006; 18 M Kim (37970_CR10) 2019; 105 H Yadav (37970_CR3) 2018; 30 RJ Adrian (37970_CR14) 2005; 39 F Huhn (37970_CR5) 2018; 59 M Kim (37970_CR11) 2018; 21 D Schanz (37970_CR17) 2016; 57 M Kim (37970_CR9) 2018; 140 D Schanz (37970_CR20) 2012; 24 XD Shi (37970_CR26) 2019; 868 37970_CR21 M Wannassi (37970_CR7) 2015; 78 A Schröder (37970_CR15) 2015; 95 T Jahn (37970_CR18) 2021; 62 M Kim (37970_CR6) 2020; 159 MD Zhou (37970_CR24) 2006; 310 DE Alnak (37970_CR8) 2019; 135 B Wieneke (37970_CR16) 2012; 24 R Neuendorf (37970_CR13) 1999; 381 M Meldi (37970_CR23) 2013; 14 M Shademan (37970_CR2) 2016; 28 |
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| Snippet | When a round jet impinges on a convex cylindrical surface, complex three-dimensional (3D) flow structures occur, accompanied by the Coanda effect. To... Abstract When a round jet impinges on a convex cylindrical surface, complex three-dimensional (3D) flow structures occur, accompanied by the Coanda effect. To... |
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| SubjectTerms | 639/166 639/166/988 Boundary layers Flow Humanities and Social Sciences Isotropy multidisciplinary Reynolds number Science Science (multidisciplinary) Shear stress Turbulence Velocity |
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| Title | Experimental study on flow and turbulence characteristics of jet impinging on cylinder using three-dimensional Lagrangian particle tracking velocimetry |
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