Influence of Orientation and Arrangement of Structures on Tsunami Impact Forces: Numerical Investigation with Smoothed Particle Hydrodynamics

Pringgana, Gede; Cunningham, Lee S.; Rogers, Benedict D.

doi:10.1061/(asce)ww.1943-5460.0000629

Cited by 20 publications

(8 citation statements)

References 56 publications

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“…Regularly applied methods that have been used in the tsunami interaction studies are the Finite Volume method [45][46][47], the Arbitrary Lagrangian-Eulerian method [48], the Finite Element method [49], the coupled FEM and meshless method [50,51], the coupled FEM and FVM methods [52] and particle-based methods, such as the Smoothed Particle Hydrodynamics [53], the Moving Semi-Implicit method and the Meshless Local Petrov Galerkin method [50,54]. With increasing computational resources in recent decades, numerical simulations can provide a more in-depth understanding of flow interaction processes [55,56]. From the range of available methods, the open-source FVM solver OpenFOAM is applied in the present study to investigate the interaction processes between tsunamis and inland structures in the presence of seawalls.…”

Section: Introductionmentioning

confidence: 99%

Tsunami-like Flow-Induced Forces on the Landward Structure behind a Vertical Seawall with and without Recurve Using OpenFOAM

Harish

Sriram

Schüttrumpf

et al. 2022

Water

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It is more common to introduce the parapet/recurve/wave return wall over the existing structure, such as a vertical seawall or composite structure, to reduce the overtopping efficiently. The advantage of a recurve wall on top of the sea wall has been studied in the past in regards to wave interaction and overtopping. However, their efficiency in protecting the inland structure during extreme events such as flooding during a tsunami is unexplored. The present study addresses the effect of a vertical seawall with recurve in reducing the dam break surge simulating tsunami-induced forces on an inland structure. The study compares the momentum transferred on the landward structure behind a Vertical seaWall (VW) and a vertical wall with the Large ReCurve on the top (LRC) during overtopped conditions. The outcome from the numerical simulation shows an insignificant contribution due to the LRC in reducing the force on the inland structure compared to the VW, albeit delaying the impact time. However, the LRC performed slightly better in the case of a low-rise wall located near the inland structure than the VW. Furthermore, a low-rise VW increases the force and overturning moment on the inland structure compared to no-wall conditions. Both the LRC and the VW reduced the horizontal force on the structure linearly with the increase in height. An exponential decrease in the overturning moment was observed on the landward structure with the increase in the height of the VW or the LRC. Design equations are proposed for the forces and overturning moment reduction based on the height of the VW or the LRC.

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Section: Introductionmentioning

confidence: 99%

Tsunami-like Flow-Induced Forces on the Landward Structure behind a Vertical Seawall with and without Recurve Using OpenFOAM

Harish

Sriram

Schüttrumpf

et al. 2022

Water

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“…Cunningham et al (2014) has also demonstrated the suitability of SPH modelling to predict the tsunami wave force on discrete, non-orthogonal structures in comparison to the corresponding experimental results by Zhang (2009). More recently, Pringgana et al (2021) confirmed that the SPH numerical modelling using DualSPHysics was capable of predicting the tsunami wave and structure interaction for an array of structures reproducing and extending the experiments conducted in a large wave basin by Thomas et al (2015).…”

Section: Introductionmentioning

confidence: 57%

“…Generally, the SPH pressure distribution over a surface of a structure is measured by numerical probes. Pressures measured on a surface can be multiplied by the area of structure's surface to obtain force, as described in Pringgana et al (2021). The inter-particle spacing of a group of measuring pressure probes and their distances from the surface of structures are sensitive to the resulting numerical prediction so that prior sensitivity studies are required to achieve numerical pressure predictions comparable to the experimental data.…”

Section: Methodsmentioning

confidence: 99%

“…The ComputeForce tool has a similar function to the force measurement tool by using measuring probes placed on the front of certain surfaces. The use of measuring probes to determine force can be found in Cunningham et al (2014), Pringgana et al (2016 and Pringgana et al (2021). Other functionality available in DualSPHysics 5.0 is the FlowTool that can be used to calculate the number of fluid particles that enters or leaves a certain domain specified by the users.…”

Section: Methodsmentioning

confidence: 99%

“…Tomiczek et al (2016) used experiments to examine shielding effects of an array of regularly spaced structures showing that peak pressures of the breaking waves can be reduced by 30-70%. Pringgana et al (2021), using a smoothed particle hydrodynamics (SPH) numerical simulation approach, showed that the tsunami load reduction on a building is heavily influenced by its orientation and that of neighbouring structures to the oncoming tsunami wave direction. Moris et al (2021) studied the influence of a building array on tsunami-driven run-up loads and found that the number of rows of buildings providing shelter is an explanatory variable for the maximum wave run-up load reduction.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Mitigating tsunami effects on buildings via novel use of discrete onshore protection systems

Pringgana

Cunningham

Rogers

2023

Coastal Engineering Journal

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This study investigates the effectiveness of a new discrete V-shape coastal barrier (V-wall) to reduce multiple tsunami-bore impacts on a group of idealized coastal structures. The performance comparison has been made between a baseline model (BM), continuous straight wall models (SW) and V-wall (VW) models. A number of key parameters including the barrier height and length along with the arrangement of the landward structures are investigated numerically using the 3-D smoothed particle hydrodynamics (SPH) approach. From the SPH models output the bore velocity, maximum force, total impulse and pressure distribution on the structures are examined. The results indicate that the V-walls can provide a similar level of protection to continuous seawalls of the same height and hence can be considered as an economic alternative to protection in tsunami prone regions. However, in order to gain the greatest benefit from the V-walls, strategic planning of the position and orientation of landward structures and the walls themselves is needed to avoid bore flow focusing and reflection effects.

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SPH Simulation of Solitary Wave Impact on Coastal Bridge Superstructures

Cai,

Xia,

Zhan

et al. 2023

Mechanisms and Machine Science

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Influence of Orientation and Arrangement of Structures on Tsunami Impact Forces: Numerical Investigation with Smoothed Particle Hydrodynamics

Cited by 20 publications

References 56 publications

Tsunami-like Flow-Induced Forces on the Landward Structure behind a Vertical Seawall with and without Recurve Using OpenFOAM

Tsunami-like Flow-Induced Forces on the Landward Structure behind a Vertical Seawall with and without Recurve Using OpenFOAM

Mitigating tsunami effects on buildings via novel use of discrete onshore protection systems

SPH Simulation of Solitary Wave Impact on Coastal Bridge Superstructures

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