Effect of Girder Spacing and Depth on the Solitary Wave Impact on Coastal Bridge Deck for Different Airgaps

Moideen, Rameeza; Behera, Manasa Ranjan; Kamath, Arun; Bihs, Hans

doi:10.3390/jmse7050140

Cited by 23 publications

(21 citation statements)

References 22 publications

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“…Montoya et al (2019) numerically evaluated two damaged bridges in Hurricane Katrina using the Coupled Eulerian-Lagrangian (CEL) approach in Abaqus and analyzed the effects of foundation flexibilities on the uplift and shear forces. Moideen et al (2019) generated solitary wave in the open source model REEF3D and studied its vertical impact force on the bridge deck. Qu et al (2019b) implemented the SIFUM-FVCOM multiscale system to study the hydrodynamic loads on coastal highway bridges under the impact of real-world tsunami.…”

Section: Low-rise Bridgementioning

confidence: 99%

Review of annual progress of bridge engineering in 2019

Zhao

Yuan

Wei

et al. 2020

ABEN

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Bridge construction is one of the cores of traffic infrastructure construction. To better develop relevant bridge science, this paper introduces the main research progress in China and abroad in 2019 from 13 aspects, including concrete bridges and the high-performance materials, the latest research on steel-concrete composite girders, advances in box girder and cable-supported bridge analysis theories, advance in steel bridges, the theory of bridge evaluation and reinforcement, bridge model tests and new testing techniques, steel bridge fatigue, wind resistance of bridges, vehicle-bridge interactions, progress in seismic design of bridges, bridge hydrodynamics, bridge informatization and intelligent bridge and prefabricated concrete bridge structures.

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Section: Low-rise Bridgementioning

confidence: 99%

Review of annual progress of bridge engineering in 2019

Zhao

Yuan

Wei

et al. 2020

ABEN

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“…This case is often used as a reference for numerical simulations to evaluate the representation of flow phenomena using a simple geometry (Eaton and Johnston 1981, Le et al 1997, Ratha and Sarkar 2015, Chovet et al 2018, Wang et al 2019). Johnston (1988a, 1988b) More recently, studies such as Seiffert et al (2015), Moideen et al (2019) and Seiffert et al (2014) have started to look into total vertical forces of solitary and cnoidal waves on coastal bridge decks with openings where entrapped air has the potential to add to the overall force balance by increasing buoyancy. For future studies, it would be crucial to investigate the destabilizing effect of entrapped air within structures exposed to extreme flow conditions, such as broken solitary waves or bores.…”

Section: Uplift Forcesmentioning

confidence: 99%

“…Seiffert et al (2015) experimentally analysed the effects of air relief openings and found a significant reduction of vertical uplift forces when large openings are present. Further, Moideen et al (2019) built upon the experimental data to perform a parametric study on vertical impact forces with the computational fluid dynamics (CFD) model REEF3D (Bihs et al 2016), analysing the effect of wave heights, girders spacing and depth for varying air gaps. That study confirmed higher vertical impact forces for bridge decks with girders where air can be trapped.…”

Section: Introductionmentioning

confidence: 99%

Engineering Lessons from September 28, 2018 Indonesian Tsunami: Scouring Mechanisms and Effects on Infrastructure

Krautwald

Stolle

Robertson

et al. 2021

J. Waterway, Port, Coastal, Ocean Eng.

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The 28th of September 2018 earthquake and tsunami north of Palu, Indonesia, attracted widespread interest from the scientific community due to the unusually large tsunami which occurred after a strike slip earthquake with a relatively small moment magnitude (M W = 7.5). To understand the structural performance of buildings and infrastructure under hydrodynamic loads and its associated effects the authors conducted field surveys of Palu City. Light wooden frame constructions and masonry infill walls were common in the area, some of which were severely damaged by the earthquake and tsunami. Reinforced concrete structures remained predominantly intact, though suffered soil-related issues such as scour around rigid building members. Local structural failures caused by the loss of supporting soil were also observed during the field survey, resulting in an overall reduction in the stability of the inspected structures. Based on the observations made, knowledge gaps and research needs concerning coastal and structural scouring are discussed. These are tied into the latest community research activities and put in the context of the published tsunami design standard in Chapter 6 of ASCE 7-16 (2017).

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“…They employed Ansys commercial software for solving RANS equations with the k-omega turbulence model in this numerical study. The solitary wave forces on a coastal bridge deck were investigated by Moideen et al [15]. The effects of the girder spacing and girder depth were considered on a coastal bridge deck.…”

Section: Introductionmentioning

confidence: 99%

Numerical Investigation on the Collision between a Solitary Wave and a Moving Cylinder

Eren

Malazi

Temir

2020

Water

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A 2-D numerical wave tank (NWT) was applied for solving the interaction between a solitary wave and a moving circular cylinder. The cylinder was placed at various positions from the tank bed floor. The cylinder can move at a constant horizontal velocity towards the solitary wave. The collision between a solitary wave and a moving cylinder is investigated at various conditions. A total of fifteen cases were studied. Ten different numerical simulations were used, including five submergence depths and two different moving velocities. The other five different numerical simulations were studied when the cylinder was unmoved in the NWT for comparing wave-structure interaction results between the moving and unmoved cylinders. The numerical results were obtained by calculating Reynolds-Averaged Navier-Stokes (RANS) equations and the volume of fluid (VOF) equations. Two different codes (User-Define-Function-UDF) were used for the generation of a solitary wave by moving a wave paddle and traveling cylinder in the NWT. The dynamic mesh method was applied for recreating mesh. First, the ability of CFD codes to generate a solitary wave by using wave paddle movement and the hydrodynamic forces of a moving cylinder were validated by numerical results. Further, the free-surface elevation and hydrodynamic forces were considered at various conditions. The numerical results show that moving cylinder velocity and the space between the cylinder and the tank bed floor have significant effects on surface displacement and hydrodynamic forces.

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Effect of Girder Spacing and Depth on the Solitary Wave Impact on Coastal Bridge Deck for Different Airgaps

Cited by 23 publications

References 22 publications

Review of annual progress of bridge engineering in 2019

Review of annual progress of bridge engineering in 2019

Engineering Lessons from September 28, 2018 Indonesian Tsunami: Scouring Mechanisms and Effects on Infrastructure

Numerical Investigation on the Collision between a Solitary Wave and a Moving Cylinder

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