Research on the wind-sheltering performance of different forms of corrugated wind barriers on railway bridges

The variation laws of flow field structure leeward a corrugated wind barrier with different bending angles and their sheltering performance on a train above a railway bridge were studied in the present work. Wind tunnel tests with and without a vehicle body were carried out, and the corresponding nu...

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Bibliographic Details
Published in:Journal of wind engineering and industrial aerodynamics 2020-06, Vol.201, p.104166, Article 104166
Main Authors: Gu, Houyu, Liu, Tanghong, Jiang, Zhiwei, Guo, Zijian
Format: Article
Language:English
Subjects:
Corrugated wind barrier
Crosswind
High-speed train
Numerical simulation
Wind tunnel test
Wind-sheltering performance
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Summary:The variation laws of flow field structure leeward a corrugated wind barrier with different bending angles and their sheltering performance on a train above a railway bridge were studied in the present work. Wind tunnel tests with and without a vehicle body were carried out, and the corresponding numerical simulations were conducted. A good agreement between the simulation and the corrected experimental results were obtained. As the bending angle increased, wind barriers’ protection performance on the train, as well as the wind load of the barriers themselves decreased. The distributions of velocity, turbulence intensity and the turbulence kinetic energy were compared and analyzed. Based on the flow patterns caused by different bending angles, various applications can be presented. Wind barriers with a bending angle of 60° had a reliable velocity reduction performance and a lower aerodynamic coefficient, can be a good choice as a trade-off between wind sheltering and added loads on the bridge. No corrugated barrier was considered a good choice when the railway lines were suffered from the dust environment. A higher bending angle (75° and 90°) should be better to weaken the contact wire vibrations. •Variation law of aerodynamic forces of wind barrier with different bending angles were compared.•Aerodynamic performance of train body behind different wind barriers were evaluated.•Pressure distribution on the train model surface was obtained by wind tunnel tests.•Variations of the velocity profiles and the turbulence intensity behind wind barriers were analyzed.
ISSN:0167-6105
1872-8197
DOI:10.1016/j.jweia.2020.104166