Development of a prototype bridge scour sensor exploiting vortex-induced vibrations

Kristopher Campbell; Myra Lydon; Su Taylor; Gerard Hamill; Connor O'Higgins; Luke J. Prendergast; Alan O'Connor; Remco Nieuwland

doi:10.1680/jbren.23.00034

Development of a prototype bridge scour sensor exploiting vortex-induced vibrations

Kristopher Campbell, Myra Lydon, Su Taylor, Gerard Hamill, Connor O'Higgins, Luke J. Prendergast, Alan O'Connor, Remco Nieuwland

Civil Engineering

Research output: Contribution to a Journal (Peer & Non Peer) › Article › peer-review

Abstract

The ability to effectively manage the deterioration of a network-wide bridge stock condition from year to year is vital for the effective use of finite resources while maintaining public safety. The leading cause of bridge failures and deterioration globally is bed scour. This paper looks at the development of a novel Fibre Bragg Grating (FBG) Vortex Flow Sensor (VFS) for scour utilising vortex-induced vibration flow effects. These sensors can provide early warnings to bridge managers and allow for a proactive approach to scour management at vulnerable bridges. This paper briefly reviews the current types of scour sensors available before outlining the initial development of the novel VFS setup and associated prototype development. The initial findings of lab trials are presented before outlining the selection process for a masonry arch bridge test site.

Original language	English
Journal	Proceedings of the Institution of Civil Engineers: Bridge Engineering
DOIs	https://doi.org/10.1680/jbren.23.00034
Publication status	Accepted/In press - 2024

Keywords

bridges
fibre bragg grating
scour sensor
UN SDG 11
UN SDG 12
UN SDG 13
UN SDG 9
vortex flow

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10.1680/jbren.23.00034

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title = "Development of a prototype bridge scour sensor exploiting vortex-induced vibrations",

abstract = "The ability to effectively manage the deterioration of a network-wide bridge stock condition from year to year is vital for the effective use of finite resources while maintaining public safety. The leading cause of bridge failures and deterioration globally is bed scour. This paper looks at the development of a novel Fibre Bragg Grating (FBG) Vortex Flow Sensor (VFS) for scour utilising vortex-induced vibration flow effects. These sensors can provide early warnings to bridge managers and allow for a proactive approach to scour management at vulnerable bridges. This paper briefly reviews the current types of scour sensors available before outlining the initial development of the novel VFS setup and associated prototype development. The initial findings of lab trials are presented before outlining the selection process for a masonry arch bridge test site.",

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doi = "10.1680/jbren.23.00034",

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AU - Campbell, Kristopher

AU - Lydon, Myra

AU - Taylor, Su

AU - Hamill, Gerard

AU - O'Higgins, Connor

AU - Prendergast, Luke J.

AU - O'Connor, Alan

AU - Nieuwland, Remco

PY - 2024

Y1 - 2024

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AB - The ability to effectively manage the deterioration of a network-wide bridge stock condition from year to year is vital for the effective use of finite resources while maintaining public safety. The leading cause of bridge failures and deterioration globally is bed scour. This paper looks at the development of a novel Fibre Bragg Grating (FBG) Vortex Flow Sensor (VFS) for scour utilising vortex-induced vibration flow effects. These sensors can provide early warnings to bridge managers and allow for a proactive approach to scour management at vulnerable bridges. This paper briefly reviews the current types of scour sensors available before outlining the initial development of the novel VFS setup and associated prototype development. The initial findings of lab trials are presented before outlining the selection process for a masonry arch bridge test site.

KW - bridges

KW - fibre bragg grating

KW - scour sensor

KW - UN SDG 11

KW - UN SDG 12

KW - UN SDG 13

KW - UN SDG 9

KW - vortex flow

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JO - Proceedings of the Institution of Civil Engineers: Bridge Engineering

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Development of a prototype bridge scour sensor exploiting vortex-induced vibrations

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Keywords

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