IABSE TG3.1 final analysis: Comparison between full-scale measurements and numerical simulations of a long-span bridge during a non-synoptic event

Giorgio Diana; Stoyan Stoyanoff; Tommaso Argentini; Niccolò Barni; Filippo Calamelli; Miguel Cid Montoya; Santiago Hernández; Allan Larsen; Claudio Mannini; Daniele Rocchi; Roberto Rossi; Martin Svendsen; Teng Wu

doi:10.2749/ghent.2025.2111

IABSE TG3.1 final analysis: Comparison between full-scale measurements and numerical simulations of a long-span bridge during a non-synoptic event

Giorgio Diana
, Stoyan Stoyanoff
, Tommaso Argentini
, Niccolò Barni
, Filippo Calamelli
, Miguel Cid Montoya
, Santiago Hernández
, Allan Larsen
, Claudio Mannini
, Daniele Rocchi
, Roberto Rossi
, Martin Svendsen
, Teng Wu

Department of Civil, Structural & Environmental Engineering

Polytechnic University of Milan
Rowan Williams Davies and Irwin Inc.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Over the past few years, the frequency and intensity of extreme climate events such as thunderstorms and downbursts have increased. These non-synoptic events involve large fluctuations in wind speed and angle of attack, potentially inducing critical conditions for bridge decks. Technological advancements in full-scale monitoring have not only confirmed these characteristics but have also enabled deeper investigations of long-span bridges aeroelastic behavior. These circumstances have proven to be a valuable opportunity for the IABSE TG3.1, which has been involved for the past 6 years in benchmarking software to compute bridge responses to turbulent winds, to extend the validation of numerical methods to extreme weather phenomena. To achieve this goal, it was decided to compare the results of numerical simulations obtained by the participants with the measured full-scale response of the Hardanger Bridge during the storm “Tor”, which struck the bridge in 2016. To provide a suitable input for the simulations, wind tunnel tests were carried out in the Politecnico di Milano wind tunnel on a deck sectional model of the bridge. This paper presents the first numerical results and compares them with the monitored bridge response.

Original language	English
Title of host publication	IABSE Congress Ghent 2025
Subtitle of host publication	The Essence of Structural Engineering for Society, Proceedings
Editors	Davide Leonetti, Bert Snijder, Bart De Pauw, Bart De Pauw, Sander van Alphen
Publisher	International Association for Bridge and Structural Engineering (IABSE)
Pages	2111-2119
Number of pages	9
ISBN (Electronic)	9783857482106
DOIs	https://doi.org/10.2749/ghent.2025.2111
State	Published - 2025
Event	2025 International Association for Bridge and Structural Engineering, IABSE 2025 - Ghent, Belgium Duration: Aug 27 2025 → Aug 29 2025

Publication series

Name	IABSE Congress Ghent 2025: The Essence of Structural Engineering for Society, Proceedings

Conference

Conference	2025 International Association for Bridge and Structural Engineering, IABSE 2025
Country/Territory	Belgium
City	Ghent
Period	08/27/25 → 08/29/25

Keywords

aeroelasticity
Long-span bridges
non-synoptic winds
numerical methods

Access to Document

10.2749/ghent.2025.2111

Cite this

Diana, G., Stoyanoff, S., Argentini, T., Barni, N., Calamelli, F., Montoya, M. C., Hernández, S., Larsen, A., Mannini, C., Rocchi, D., Rossi, R., Svendsen, M., & Wu, T. (2025). IABSE TG3.1 final analysis: Comparison between full-scale measurements and numerical simulations of a long-span bridge during a non-synoptic event. In D. Leonetti, B. Snijder, B. De Pauw, B. De Pauw, & S. van Alphen (Eds.), IABSE Congress Ghent 2025: The Essence of Structural Engineering for Society, Proceedings (pp. 2111-2119). (IABSE Congress Ghent 2025: The Essence of Structural Engineering for Society, Proceedings). International Association for Bridge and Structural Engineering (IABSE). https://doi.org/10.2749/ghent.2025.2111

Diana, Giorgio ; Stoyanoff, Stoyan ; Argentini, Tommaso et al. / IABSE TG3.1 final analysis : Comparison between full-scale measurements and numerical simulations of a long-span bridge during a non-synoptic event. IABSE Congress Ghent 2025: The Essence of Structural Engineering for Society, Proceedings. editor / Davide Leonetti ; Bert Snijder ; Bart De Pauw ; Bart De Pauw ; Sander van Alphen. International Association for Bridge and Structural Engineering (IABSE), 2025. pp. 2111-2119 (IABSE Congress Ghent 2025: The Essence of Structural Engineering for Society, Proceedings).

@inproceedings{4e4664bac4964548a9cef07366d6c531,

title = "IABSE TG3.1 final analysis: Comparison between full-scale measurements and numerical simulations of a long-span bridge during a non-synoptic event",

abstract = "Over the past few years, the frequency and intensity of extreme climate events such as thunderstorms and downbursts have increased. These non-synoptic events involve large fluctuations in wind speed and angle of attack, potentially inducing critical conditions for bridge decks. Technological advancements in full-scale monitoring have not only confirmed these characteristics but have also enabled deeper investigations of long-span bridges aeroelastic behavior. These circumstances have proven to be a valuable opportunity for the IABSE TG3.1, which has been involved for the past 6 years in benchmarking software to compute bridge responses to turbulent winds, to extend the validation of numerical methods to extreme weather phenomena. To achieve this goal, it was decided to compare the results of numerical simulations obtained by the participants with the measured full-scale response of the Hardanger Bridge during the storm “Tor”, which struck the bridge in 2016. To provide a suitable input for the simulations, wind tunnel tests were carried out in the Politecnico di Milano wind tunnel on a deck sectional model of the bridge. This paper presents the first numerical results and compares them with the monitored bridge response.",

keywords = "aeroelasticity, Long-span bridges, non-synoptic winds, numerical methods",

author = "Giorgio Diana and Stoyan Stoyanoff and Tommaso Argentini and Niccol{\`o} Barni and Filippo Calamelli and Montoya, \{Miguel Cid\} and Santiago Hern{\'a}ndez and Allan Larsen and Claudio Mannini and Daniele Rocchi and Roberto Rossi and Martin Svendsen and Teng Wu",

note = "Publisher Copyright: {\textcopyright} 2025 IABSE Congress Ghent 2025: The Essence of Structural Engineering for Society, Proceedings. All rights reserved.; 2025 International Association for Bridge and Structural Engineering, IABSE 2025 ; Conference date: 27-08-2025 Through 29-08-2025",

year = "2025",

doi = "10.2749/ghent.2025.2111",

language = "English",

series = "IABSE Congress Ghent 2025: The Essence of Structural Engineering for Society, Proceedings",

publisher = "International Association for Bridge and Structural Engineering (IABSE)",

pages = "2111--2119",

editor = "Davide Leonetti and Bert Snijder and \{De Pauw\}, Bart and \{De Pauw\}, Bart and \{van Alphen\}, Sander",

booktitle = "IABSE Congress Ghent 2025",

}

Diana, G, Stoyanoff, S, Argentini, T, Barni, N, Calamelli, F, Montoya, MC, Hernández, S, Larsen, A, Mannini, C, Rocchi, D, Rossi, R, Svendsen, M & Wu, T 2025, IABSE TG3.1 final analysis: Comparison between full-scale measurements and numerical simulations of a long-span bridge during a non-synoptic event. in D Leonetti, B Snijder, B De Pauw, B De Pauw & S van Alphen (eds), IABSE Congress Ghent 2025: The Essence of Structural Engineering for Society, Proceedings. IABSE Congress Ghent 2025: The Essence of Structural Engineering for Society, Proceedings, International Association for Bridge and Structural Engineering (IABSE), pp. 2111-2119, 2025 International Association for Bridge and Structural Engineering, IABSE 2025, Ghent, Belgium, 08/27/25. https://doi.org/10.2749/ghent.2025.2111

IABSE TG3.1 final analysis: Comparison between full-scale measurements and numerical simulations of a long-span bridge during a non-synoptic event. / Diana, Giorgio; Stoyanoff, Stoyan; Argentini, Tommaso et al.
IABSE Congress Ghent 2025: The Essence of Structural Engineering for Society, Proceedings. ed. / Davide Leonetti; Bert Snijder; Bart De Pauw; Bart De Pauw; Sander van Alphen. International Association for Bridge and Structural Engineering (IABSE), 2025. p. 2111-2119 (IABSE Congress Ghent 2025: The Essence of Structural Engineering for Society, Proceedings).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - IABSE TG3.1 final analysis

T2 - 2025 International Association for Bridge and Structural Engineering, IABSE 2025

AU - Diana, Giorgio

AU - Stoyanoff, Stoyan

AU - Argentini, Tommaso

AU - Barni, Niccolò

AU - Calamelli, Filippo

AU - Montoya, Miguel Cid

AU - Hernández, Santiago

AU - Larsen, Allan

AU - Mannini, Claudio

AU - Rocchi, Daniele

AU - Rossi, Roberto

AU - Svendsen, Martin

AU - Wu, Teng

PY - 2025

Y1 - 2025

N2 - Over the past few years, the frequency and intensity of extreme climate events such as thunderstorms and downbursts have increased. These non-synoptic events involve large fluctuations in wind speed and angle of attack, potentially inducing critical conditions for bridge decks. Technological advancements in full-scale monitoring have not only confirmed these characteristics but have also enabled deeper investigations of long-span bridges aeroelastic behavior. These circumstances have proven to be a valuable opportunity for the IABSE TG3.1, which has been involved for the past 6 years in benchmarking software to compute bridge responses to turbulent winds, to extend the validation of numerical methods to extreme weather phenomena. To achieve this goal, it was decided to compare the results of numerical simulations obtained by the participants with the measured full-scale response of the Hardanger Bridge during the storm “Tor”, which struck the bridge in 2016. To provide a suitable input for the simulations, wind tunnel tests were carried out in the Politecnico di Milano wind tunnel on a deck sectional model of the bridge. This paper presents the first numerical results and compares them with the monitored bridge response.

AB - Over the past few years, the frequency and intensity of extreme climate events such as thunderstorms and downbursts have increased. These non-synoptic events involve large fluctuations in wind speed and angle of attack, potentially inducing critical conditions for bridge decks. Technological advancements in full-scale monitoring have not only confirmed these characteristics but have also enabled deeper investigations of long-span bridges aeroelastic behavior. These circumstances have proven to be a valuable opportunity for the IABSE TG3.1, which has been involved for the past 6 years in benchmarking software to compute bridge responses to turbulent winds, to extend the validation of numerical methods to extreme weather phenomena. To achieve this goal, it was decided to compare the results of numerical simulations obtained by the participants with the measured full-scale response of the Hardanger Bridge during the storm “Tor”, which struck the bridge in 2016. To provide a suitable input for the simulations, wind tunnel tests were carried out in the Politecnico di Milano wind tunnel on a deck sectional model of the bridge. This paper presents the first numerical results and compares them with the monitored bridge response.

KW - aeroelasticity

KW - Long-span bridges

KW - non-synoptic winds

KW - numerical methods

UR - https://www.scopus.com/pages/publications/105021083414

U2 - 10.2749/ghent.2025.2111

DO - 10.2749/ghent.2025.2111

M3 - Conference contribution

AN - SCOPUS:105021083414

T3 - IABSE Congress Ghent 2025: The Essence of Structural Engineering for Society, Proceedings

SP - 2111

EP - 2119

BT - IABSE Congress Ghent 2025

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A2 - Snijder, Bert

A2 - De Pauw, Bart

A2 - van Alphen, Sander

PB - International Association for Bridge and Structural Engineering (IABSE)

Y2 - 27 August 2025 through 29 August 2025

ER -

Diana G, Stoyanoff S, Argentini T, Barni N, Calamelli F, Montoya MC et al. IABSE TG3.1 final analysis: Comparison between full-scale measurements and numerical simulations of a long-span bridge during a non-synoptic event. In Leonetti D, Snijder B, De Pauw B, De Pauw B, van Alphen S, editors, IABSE Congress Ghent 2025: The Essence of Structural Engineering for Society, Proceedings. International Association for Bridge and Structural Engineering (IABSE). 2025. p. 2111-2119. (IABSE Congress Ghent 2025: The Essence of Structural Engineering for Society, Proceedings). doi: 10.2749/ghent.2025.2111

IABSE TG3.1 final analysis: Comparison between full-scale measurements and numerical simulations of a long-span bridge during a non-synoptic event

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