From Boussinesq-Type to Quasi-3D Models: A Comparative AnalysisSource: Journal of Hydraulic Engineering:;2023:;Volume ( 149 ):;issue: 008::page 04023025-1DOI: 10.1061/JHEND8.HYENG-13508Publisher: ASCE
Abstract: By comparing model results from tests of steady and oscillatory flows over a submerged bar (of interest for both riverine and marine environments), we highlight similarities and differences between a state-of-the-art Boussinesq model and a recently developed non-hydrostatic, quasi-three-dimensional (3D) model. To make the comparison as clean as possible, the complexities due to breaking-induced turbulence are avoided by suitably tuning the flow strength. Although the main flow features are similarly described by the two models, the non-hydrostatic model predicts the occurrence of extra, small-scale stationary oscillations on top of a submerged obstacle in the case of a steady current. This is attributed to a pattern of alternating upward and downward vertical velocity over the sill top, presumably due to rapidly converging flows as they climb over the submerged obstacle. The non-hydrostatic model overall allows for a more complete representation of flow dynamics in the vertical direction, with respect to the Boussinesq-type solver. This becomes necessary when tackling fundamental and applicative problems characterized by intense vertical flows (e.g., interactions of fluids with structures).
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| contributor author | Lorenzo Melito | |
| contributor author | Matteo Antuono | |
| contributor author | Maurizio Brocchini | |
| date accessioned | 2023-11-27T23:30:15Z | |
| date available | 2023-11-27T23:30:15Z | |
| date issued | 5/24/2023 12:00:00 AM | |
| date issued | 2023-05-24 | |
| identifier other | JHEND8.HYENG-13508.pdf | |
| identifier uri | http://yetl.yabesh.ir/yetl1/handle/yetl/4293610 | |
| description abstract | By comparing model results from tests of steady and oscillatory flows over a submerged bar (of interest for both riverine and marine environments), we highlight similarities and differences between a state-of-the-art Boussinesq model and a recently developed non-hydrostatic, quasi-three-dimensional (3D) model. To make the comparison as clean as possible, the complexities due to breaking-induced turbulence are avoided by suitably tuning the flow strength. Although the main flow features are similarly described by the two models, the non-hydrostatic model predicts the occurrence of extra, small-scale stationary oscillations on top of a submerged obstacle in the case of a steady current. This is attributed to a pattern of alternating upward and downward vertical velocity over the sill top, presumably due to rapidly converging flows as they climb over the submerged obstacle. The non-hydrostatic model overall allows for a more complete representation of flow dynamics in the vertical direction, with respect to the Boussinesq-type solver. This becomes necessary when tackling fundamental and applicative problems characterized by intense vertical flows (e.g., interactions of fluids with structures). | |
| publisher | ASCE | |
| title | From Boussinesq-Type to Quasi-3D Models: A Comparative Analysis | |
| type | Journal Article | |
| journal volume | 149 | |
| journal issue | 8 | |
| journal title | Journal of Hydraulic Engineering | |
| identifier doi | 10.1061/JHEND8.HYENG-13508 | |
| journal fristpage | 04023025-1 | |
| journal lastpage | 04023025-13 | |
| page | 13 | |
| tree | Journal of Hydraulic Engineering:;2023:;Volume ( 149 ):;issue: 008 | |
| contenttype | Fulltext |