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New challenges in the IABSE TG3.1 benchmark on super long span bridge aerodynamics

 New challenges in the IABSE TG3.1 benchmark on super long span bridge aerodynamics
Auteur(s): , , , ,
Présenté pendant IABSE Symposium: Long Span Bridges, Istanbul, Turkey, 26-28 April 2023, publié dans , pp. 285-293
DOI: 10.2749/istanbul.2023.0285
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In the last years, extreme climate events as thunderstorm and downburst are becoming increasingly frequent and widespread. These phenomena could significantly impact on the dynamic response of supe...
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Détails bibliographiques

Auteur(s): (Politecnico di Milano, Department of Mechanical Engineering Milan, Italy)
(RWDI, Guelph, Canada)
(IABSE TG3.1 Member)
(IABSE TG3.1 Member)
(IABSE TG3.1 Member)
(IABSE TG3.1 Member)
(IABSE TG3.1 Member)
(IABSE TG3.1 Member)
(IABSE TG3.1 Member)
(IABSE TG3.1 Member)
(IABSE TG3.1 Member)
(IABSE TG3.1 Member)
(IABSE TG3.1 Member)
(IABSE TG3.1 Member)
(IABSE TG3.1 Member)
(IABSE TG3.1 Member)
(IABSE TG3.1 Member)
(IABSE TG3.1 Member)
(IABSE TG3.1 Member)
(IABSE TG3.1 Member)
(IABSE TG3.1 Member)
Médium: papier de conférence
Langue(s): anglais
Conférence: IABSE Symposium: Long Span Bridges, Istanbul, Turkey, 26-28 April 2023
Publié dans:
Page(s): 285-293 Nombre total de pages (du PDF): 9
Page(s): 285-293
Nombre total de pages (du PDF): 9
Année: 2023
DOI: 10.2749/istanbul.2023.0285
Abstrait:

In the last years, extreme climate events as thunderstorm and downburst are becoming increasingly frequent and widespread. These phenomena could significantly impact on the dynamic response of super long-span bridges since they are typically characterized by a sudden variations of the mean wind speed combined with large vertical angles of attack. This contingency is considered an interesting opportunity for the IABSE Task group 3.1, involved for the last 5 years in the benchmark of the software for the computation of the bridge response to the turbulent wind, to extend the applicability of the consolidated numerical procedures to a case of study characterized by a non-synoptic wind. To reach this purpose, taking as a target the full-scale data measured on the Gjemnessund Bridge during two different incoming wind conditions, a comparison with numerical results is proposed. Specifically, the working group has defined two steps of increasing complexity. The first, given the same input data to the participants, consists of a preliminary numerical benchmark while, the second, concerns the comparison between the outcomes and the dynamic response of the real bridge. In this paper, the results of the wind tunnel tests, performed to measure all the aerodynamic coefficients required for numerically simulating the bridge response, are reported. Finally, the first step is presented and some preliminary outcomes are shown.

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