Effect of non-Gaussian turbulence on extreme buffeting response of a high-speed railway sea-crossing bridge
The non-Gaussian property of turbulence has been emphasized in some measured wind data. However, the classic Scanlan buffeting theory with the Gaussian distribution assumption of turbulence may cause errors in predicting the structural extreme response. In this study, a hybrid approach for predictin...
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sg-ntu-dr.10356-1619012022-09-26T01:16:57Z Effect of non-Gaussian turbulence on extreme buffeting response of a high-speed railway sea-crossing bridge Xu, Zhiwei Dai, Gonglian Zhang, Limao Chen, Y. Frank Flay, Richard G. J. Rao, Huiming School of Civil and Environmental Engineering Engineering::Civil engineering Non-Gaussian Turbulence Extreme Response The non-Gaussian property of turbulence has been emphasized in some measured wind data. However, the classic Scanlan buffeting theory with the Gaussian distribution assumption of turbulence may cause errors in predicting the structural extreme response. In this study, a hybrid approach for predicting bridge's extreme buffeting response is proposed and validated, which considers multi-dimensional non-Gaussian random variables. Then the extreme buffeting response of a cable-stayed bridge under the attack of non-Gaussian wind is investigated, where the in-situ measured wind data of Typhoon ‘Bailu’ is adopted. The sensitivity of extreme buffeting response to turbulence skewness and kurtosis is also analyzed. The study results show that the lateral and vertical buffeting displacements are in skewed distributions under the attack of Typhoon ‘Bailu’. Compared to the Gaussian wind assumption, the non-Gaussian typhoon decreases the lateral extreme response, while increases the vertical extreme response. The results from the sensitivity analysis reveal a strong correlation between the non-Gaussian intensity of component u and that of the lateral buffeting response. In addition, the lateral extreme buffeting response increases significantly with the skewness and kurtosis of component u at a high probability level. The research described in this paper was supported by the Fundamental Research Funds for the Central Universities of Central South University (No. 2020zzts156) and the Project of Science and Technology Research and Development Program of China Railway Corporation (No. 2017G006-N, NO. K2018G017), to which the authors are very grateful. 2022-09-26T01:16:57Z 2022-09-26T01:16:57Z 2022 Journal Article Xu, Z., Dai, G., Zhang, L., Chen, Y. F., Flay, R. G. J. & Rao, H. (2022). Effect of non-Gaussian turbulence on extreme buffeting response of a high-speed railway sea-crossing bridge. Journal of Wind Engineering and Industrial Aerodynamics, 224, 104981-. https://dx.doi.org/10.1016/j.jweia.2022.104981 0167-6105 https://hdl.handle.net/10356/161901 10.1016/j.jweia.2022.104981 2-s2.0-85126885455 224 104981 en Journal of Wind Engineering and Industrial Aerodynamics © 2022 Elsevier Ltd. All rights reserved. |
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Engineering::Civil engineering Non-Gaussian Turbulence Extreme Response Xu, Zhiwei Dai, Gonglian Zhang, Limao Chen, Y. Frank Flay, Richard G. J. Rao, Huiming Effect of non-Gaussian turbulence on extreme buffeting response of a high-speed railway sea-crossing bridge |
| description |
The non-Gaussian property of turbulence has been emphasized in some measured wind data. However, the classic Scanlan buffeting theory with the Gaussian distribution assumption of turbulence may cause errors in predicting the structural extreme response. In this study, a hybrid approach for predicting bridge's extreme buffeting response is proposed and validated, which considers multi-dimensional non-Gaussian random variables. Then the extreme buffeting response of a cable-stayed bridge under the attack of non-Gaussian wind is investigated, where the in-situ measured wind data of Typhoon ‘Bailu’ is adopted. The sensitivity of extreme buffeting response to turbulence skewness and kurtosis is also analyzed. The study results show that the lateral and vertical buffeting displacements are in skewed distributions under the attack of Typhoon ‘Bailu’. Compared to the Gaussian wind assumption, the non-Gaussian typhoon decreases the lateral extreme response, while increases the vertical extreme response. The results from the sensitivity analysis reveal a strong correlation between the non-Gaussian intensity of component u and that of the lateral buffeting response. In addition, the lateral extreme buffeting response increases significantly with the skewness and kurtosis of component u at a high probability level. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Xu, Zhiwei Dai, Gonglian Zhang, Limao Chen, Y. Frank Flay, Richard G. J. Rao, Huiming |
| format |
Article |
| author |
Xu, Zhiwei Dai, Gonglian Zhang, Limao Chen, Y. Frank Flay, Richard G. J. Rao, Huiming |
| author_sort |
Xu, Zhiwei |
| title |
Effect of non-Gaussian turbulence on extreme buffeting response of a high-speed railway sea-crossing bridge |
| title_short |
Effect of non-Gaussian turbulence on extreme buffeting response of a high-speed railway sea-crossing bridge |
| title_full |
Effect of non-Gaussian turbulence on extreme buffeting response of a high-speed railway sea-crossing bridge |
| title_fullStr |
Effect of non-Gaussian turbulence on extreme buffeting response of a high-speed railway sea-crossing bridge |
| title_full_unstemmed |
Effect of non-Gaussian turbulence on extreme buffeting response of a high-speed railway sea-crossing bridge |
| title_sort |
effect of non-gaussian turbulence on extreme buffeting response of a high-speed railway sea-crossing bridge |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/161901 |
| _version_ |
1745574638100938752 |