Development of a Three‐Dimensional Fully Nonlinear Potential Numerical Wave Tank for a Heaving Buoy Wave Energy Converter

Kim, Sung-Jae; Koo, Weoncheol

doi:10.1155/2019/5163597

Cited by 8 publications

(6 citation statements)

References 44 publications

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“…where  denotes a three-dimensional angle, and  denotes the kernel function. The three-dimensional basic Rankine source expression in 3D is , where  denotes the distance between the source and field points (Kim and Koo, 2019).…”

Section: Problem Formulationmentioning

confidence: 99%

“…The least square technique is employed for reconstructing the gradient for spatial differentiation, and the inverse distance weighting (IDW) method is employed for interpolation of the nodes. Further details can be found in Kim and Koo (2019).…”

Section:       mentioning

confidence: 99%

“…Bai and Eatock Taylor (2007) In this study, a wave run-up phenomenon that acts on a cylinder having a circular cross section, which is a typical shape for a marine structure column, was studied using a three dimensional NWT. To this end, the three-dimensional fully nonlinear potential NWT technique developed by Kim and Koo (2019)…”

Section: Introductionmentioning

confidence: 99%

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Numerical Study on Wave Run-up of a Circular Cylinder with Various Diffraction Parameters and Body Drafts

Jeong

Koo

Kim

2020

J. Ocean Eng. Technol.

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Wave run-up is an important phenomenon that should be considered in ocean structure design. In this study, the wave run-up of a surface-piercing circular cylinder was calculated in the time domain using the three-dimensional linear and fully nonlinear numerical wave tank (NWT) techniques. The NWT was based on the boundary element method and the mixed Eulerian and Lagrangian method. Stokes second-order waves were applied to evaluate the effect of the nonlinear waves on wave run-up, and an artificial damping zone was adopted to reduce the amount of reflected and re-reflected waves from the sidewall of the NWT. Parametric studies were conducted to determine the effect of wavelength, wave steepness, and the draft of the cylinder on the wave run-up of the cylinder. The maximum wave run-up value occurred at 0°, which was in front of the cylinder, and the minimum value occurred near the circumferential angle of 135°. As the diffraction parameter increased, the wave run-up increased up to 1.7 times the wave height. Furthermore, the wave run-up was 4% higher than the linear wave when the wave steepness was 1/35. In particular, the crest height of the wave run-up increased by 8%.

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Section: Problem Formulationmentioning

confidence: 99%

Section:       mentioning

confidence: 99%

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Numerical Study on Wave Run-up of a Circular Cylinder with Various Diffraction Parameters and Body Drafts

Jeong

Koo

Kim

2020

J. Ocean Eng. Technol.

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“…The Mixed Eulerian-Lagrangian (MEL) approach coupled with a high-order time integration scheme has been employed for time marching the fluid particle on the free surface and updating the fully nonlinear free surface boundary conditions for the next time step. The MEL method has been implemented using the material node approach discussed in (Abbasnia and Guedes Soares, 2020) and the semi-Lagrangian scheme (Kim and Koo, 2019). To solve the equation of body motions, various methodologies have been proposed to calculate the instantaneous hydrodynamic pressure on the exact wet surface.…”

mentioning

confidence: 99%

“…To solve the equation of body motions, various methodologies have been proposed to calculate the instantaneous hydrodynamic pressure on the exact wet surface. An acceleration potential formulation (Vinje and Brevig, 1981) based upon the modal decomposition method can obtain the time derivative of the velocity potential field on the instantaneous wet surface implicitly; for instance Coslovich et al (2021); Ganesan and Sen (2019); Kim and Koo (2019). The implicit body boundary condition algorithm was implemented by Abbasnia and Guedes Soares (2017) to calculate the responses of a ship-shaped freely floating body under strong nonlinear incident waves.…”

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confidence: 99%

Fully nonlinear dynamics of floating solar platform with twin hull by tubular floaters in ocean waves

et al. 2022

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A Long-Term Earthquake Catalog for the Endeavour Segment: Constraints on the Extensional Cycle and Evidence for Hydrothermal Venting Supported by Propagating Rifts

Krauss

Wilcock

Martin

et al. 2022

Preprint

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We use ocean bottom seismometer data from the Endeavour segment of the Juan de Fuca ridge to construct a long-term earthquake catalog for an intermediate-rate spreading ridge. We present > 50,000 new earthquake locations for 2016-2021 from the Ocean Networks Canada NEPTUNE cabled observatory and relocate earthquakes from two autonomous networks in 1995 and 2003-2006. The catalog comprises > 85,000 earthquakes located using three-dimensional segment-scale P-and S-wave velocity models from a prior tomography experiment. Despite the small footprints of networks near the segment center, locations show good agreement with geologic features at segment ends. The improved locations show that the northern Endeavour segment ruptured southwards from 48.3°N to 48.05°N during two diking events in early 2005, possibly accompanied by diking on the West Valley propagator. Persistent off-axis seismicity near the segment center appears to be related to the West Valley and Cobb propagating rifts which we infer extend ˜10 km closer to the Endeavour segment center than is apparent in bathymetry. We suggest that the proximity of the propagators to the Endeavour vent fields contributes to the localization, vigor and longevity of the fields by focusing permeability through ongoing fracturing and by limiting extrusive magmatism through degassing of the axial magma lens. Increasing rates of seismicity beneath the vent fields beginning in late 2018 and a deepening of earthquakes in 2020 indicate that the central portion of the segment may be entering the later stages of the eruptive cycle.

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Development of a Three‐Dimensional Fully Nonlinear Potential Numerical Wave Tank for a Heaving Buoy Wave Energy Converter

Cited by 8 publications

References 44 publications

Numerical Study on Wave Run-up of a Circular Cylinder with Various Diffraction Parameters and Body Drafts

Numerical Study on Wave Run-up of a Circular Cylinder with Various Diffraction Parameters and Body Drafts

Fully nonlinear dynamics of floating solar platform with twin hull by tubular floaters in ocean waves

A Long-Term Earthquake Catalog for the Endeavour Segment: Constraints on the Extensional Cycle and Evidence for Hydrothermal Venting Supported by Propagating Rifts

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