Numerical simulation of the transverse flow over spans of girder bridges
Introduction. The technique of numerical modeling of the transverse flow over span structures of bridges on the basis of the two-dimensional URANS (Unsteady Reynolds-averaged Navier-Stokes) approach used in the modern methods and software packages for computational fluid dynamics is verified. The wo...
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| Language: | Russian |
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Don State Technical University
2018-12-01
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| Series: | Advanced Engineering Research |
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| Online Access: | https://www.vestnik-donstu.ru/jour/article/view/1430 |
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| author | Yu. A. Gosteev A. D. Obukhovskiy S. D. Salenko |
| author_facet | Yu. A. Gosteev A. D. Obukhovskiy S. D. Salenko |
| author_sort | Yu. A. Gosteev |
| collection | DOAJ |
| description | Introduction. The technique of numerical modeling of the transverse flow over span structures of bridges on the basis of the two-dimensional URANS (Unsteady Reynolds-averaged Navier-Stokes) approach used in the modern methods and software packages for computational fluid dynamics is verified. The work objective was debugging and experimental substantiation of this technique with the use of the database on the aerodynamic characteristics of the cross-sections of span structures of girder bridges of standard shapes pre-developed by the authors.Materials and Methods. A numerical simulation of the transverse flow of low-turbulent (smooth) and turbulent air flows around the bridge structures in a range of practically interesting attack angles is carried out. SST k − ω turbulence model was used as the closing one. The technique was preliminarily tested on the check problem for the flow of the rectangular crosssection beams. Calculations were carried out using the licensed ANSYS software.Research Results. The calculated dependences on the attack angle of the aerodynamic coefficients of forces (drag and lift) and the moment of the cross sections of the girder bridges of standard shapes are obtained. These data refer to the span structures at the construction phase (without deck and parapets, without parapets) and operation phase, under the conditions of model smooth and turbulent incoming flow. The latter allows us to outline the boundaries for more weighted estimates of the aerodynamic characteristics of thegirder bridges in a real wind current. The best agreement with the experimental data was obtained from the drag of the cross-section. The magnitude of the lifting force is more sensitive to the presence and extent of the separation regions, so its numerical determination is less accurate. The reproduction of the angle-of-attack effect on the aerodynamic moment of the cross-section is the most challenging for the majority of configurations.Discussion and Conclusions. Comparison of the calculated and experimental data indicates the applicability of the URANS approach to the operational prediction of the aerodynamic characteristics of the single-beam span structures. In the case of multi-beam span structures, where the aerodynamic interference between separate girders plays an important role, the URANS approach must apparently give way to more accurate eddy-resolving methods. The results obtained can be used in the aerodynamic analysis of structures and in practice of the relevant design organizations in the field of transport construction. |
| format | Article |
| id | doaj-art-92751efda60c4daf9e57964aa326d70d |
| institution | Kabale University |
| issn | 2687-1653 |
| language | Russian |
| publishDate | 2018-12-01 |
| publisher | Don State Technical University |
| record_format | Article |
| series | Advanced Engineering Research |
| spelling | doaj-art-92751efda60c4daf9e57964aa326d70d2025-08-20T03:35:40ZrusDon State Technical UniversityAdvanced Engineering Research2687-16532018-12-0118436237810.23947/1992-5980-2018-18-4-362-3781382Numerical simulation of the transverse flow over spans of girder bridgesYu. A. Gosteev0A. D. Obukhovskiy1S. D. Salenko2Novosibirsk State Technical UniversityNovosibirsk State Technical UniversityNovosibirsk State Technical UniversityIntroduction. The technique of numerical modeling of the transverse flow over span structures of bridges on the basis of the two-dimensional URANS (Unsteady Reynolds-averaged Navier-Stokes) approach used in the modern methods and software packages for computational fluid dynamics is verified. The work objective was debugging and experimental substantiation of this technique with the use of the database on the aerodynamic characteristics of the cross-sections of span structures of girder bridges of standard shapes pre-developed by the authors.Materials and Methods. A numerical simulation of the transverse flow of low-turbulent (smooth) and turbulent air flows around the bridge structures in a range of practically interesting attack angles is carried out. SST k − ω turbulence model was used as the closing one. The technique was preliminarily tested on the check problem for the flow of the rectangular crosssection beams. Calculations were carried out using the licensed ANSYS software.Research Results. The calculated dependences on the attack angle of the aerodynamic coefficients of forces (drag and lift) and the moment of the cross sections of the girder bridges of standard shapes are obtained. These data refer to the span structures at the construction phase (without deck and parapets, without parapets) and operation phase, under the conditions of model smooth and turbulent incoming flow. The latter allows us to outline the boundaries for more weighted estimates of the aerodynamic characteristics of thegirder bridges in a real wind current. The best agreement with the experimental data was obtained from the drag of the cross-section. The magnitude of the lifting force is more sensitive to the presence and extent of the separation regions, so its numerical determination is less accurate. The reproduction of the angle-of-attack effect on the aerodynamic moment of the cross-section is the most challenging for the majority of configurations.Discussion and Conclusions. Comparison of the calculated and experimental data indicates the applicability of the URANS approach to the operational prediction of the aerodynamic characteristics of the single-beam span structures. In the case of multi-beam span structures, where the aerodynamic interference between separate girders plays an important role, the URANS approach must apparently give way to more accurate eddy-resolving methods. The results obtained can be used in the aerodynamic analysis of structures and in practice of the relevant design organizations in the field of transport construction.https://www.vestnik-donstu.ru/jour/article/view/1430mechanics of fluidgas and plasmamathematical simulationcomputational aerohydrodynamicsurans approachbridge spansaerodynamic characteristics |
| spellingShingle | Yu. A. Gosteev A. D. Obukhovskiy S. D. Salenko Numerical simulation of the transverse flow over spans of girder bridges Advanced Engineering Research mechanics of fluid gas and plasma mathematical simulation computational aerohydrodynamics urans approach bridge spans aerodynamic characteristics |
| title | Numerical simulation of the transverse flow over spans of girder bridges |
| title_full | Numerical simulation of the transverse flow over spans of girder bridges |
| title_fullStr | Numerical simulation of the transverse flow over spans of girder bridges |
| title_full_unstemmed | Numerical simulation of the transverse flow over spans of girder bridges |
| title_short | Numerical simulation of the transverse flow over spans of girder bridges |
| title_sort | numerical simulation of the transverse flow over spans of girder bridges |
| topic | mechanics of fluid gas and plasma mathematical simulation computational aerohydrodynamics urans approach bridge spans aerodynamic characteristics |
| url | https://www.vestnik-donstu.ru/jour/article/view/1430 |
| work_keys_str_mv | AT yuagosteev numericalsimulationofthetransverseflowoverspansofgirderbridges AT adobukhovskiy numericalsimulationofthetransverseflowoverspansofgirderbridges AT sdsalenko numericalsimulationofthetransverseflowoverspansofgirderbridges |