A laboratory study on the loading and motion of a heaving box

Rodriguez, Marcos; Spinneken, Johannes

doi:10.1016/j.jfluidstructs.2016.05.001

Cited by 29 publications

(7 citation statements)

References 23 publications

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“…To the best of our knowledge, for the gap resonance problem, the experimental data on the higher-order harmonic components of the free-surface elevation or the wave loads are rare. However, Rodríguez et al (2016) implemented physical experiments on the interactions between regular waves and one fixed box, and the experimental data of the vertical wave force on the box (including the first-and second-order harmonic components) were presented in that paper. The numerical reproduction for part of their experiments will be implemented in Section 4.2.…”

Section: Numerical Model Validationsmentioning

confidence: 99%

On hydrodynamic characteristics of gap resonance between two fixed bodies in close proximity

et al. 2019

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The resonant water motion inside a narrow gap between two identical fixed boxes that are in side-by-side configuration is investigated using a two-dimensional (2D) numerical wave tank based on OpenFOAM ® , an open source CFD package. Gap resonance is excited by regular waves with various wave heights, ranging from linear waves to strong nonlinear waves. This paper mainly focuses on the harmonic analyses of the free-surface elevation in the narrow gap and wave loads (including the horizontal wave forces, the vertical wave forces and the moments) on the bodies. It is found that the influences of the incident wave height on the higher-order harmonic components of different physical quantities are quite different. The effects of the incident wave height on the reflection, transmission and energy loss coefficients are also discussed. Finally, aiming at the quantitative estimation of the response time and the damping time of gap resonance, two different methods are proposed and verified for the first time on gap resonance.

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Section: Numerical Model Validationsmentioning

confidence: 99%

On hydrodynamic characteristics of gap resonance between two fixed bodies in close proximity

et al. 2019

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“…Drag forces are also commonly included in parametrised form as in the Morison equation [15], but this requires calibration of drag coefficients. Such calibration is then made via experiments (see e.g., Rodriguez and Spinnekens work on a heaving box [16,17]) or via CFD simulations (as in the viscous correction method of Bhinder et al [18]). The work of Stansby et al [19] and Gu et al [20] present RANS simulations of different cylinder bottom geometries in surge and heave decay.…”

Section: Introductionmentioning

confidence: 99%

Assessment of Scale Effects, Viscous Forces and Induced Drag on a Point-Absorbing Wave Energy Converter by CFD Simulations

Palm

Eskilsson

Bergdahl

et al. 2018

JMSE

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This paper analyses the nonlinear forces on a moored point-absorbing wave energy converter (WEC) in resonance at prototype scale (1:1) and at model scale (1:16). Three simulation types were used: Reynolds Averaged Navier-Stokes (RANS), Euler and the linear radiation-diffraction method (linear). Results show that when the wave steepness is doubled, the response reduction is: (i) 3% due to the nonlinear mooring response and the Froude-Krylov force; (ii) 1-4% due to viscous forces; and (iii) 18-19% due to induced drag and non-linear added mass and radiation forces. The effect of the induced drag is shown to be largely scale-independent. It is caused by local pressure variations due to vortex generation below the body, which reduce the total pressure force on the hull. Euler simulations are shown to be scale-independent and the scale effects of the WEC are limited by the purely viscous contribution (1-4%) for the two waves studied. We recommend that experimental model scale test campaigns of WECs should be accompanied by RANS simulations, and the analysis complemented by scale-independent Euler simulations to quantify the scale-dependent part of the nonlinear effects.

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“…the experiment proposed in Rodrguez and Spinneken [22] was used. In the latter experiment, where k is the wave number.…”

Section: Wave Force Validationmentioning

confidence: 99%

On the hydrodynamic performance of a vertical pile-restrained WEC-type floating breakwater

et al. 2020

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A laboratory study on the loading and motion of a heaving box

Cited by 29 publications

References 23 publications

On hydrodynamic characteristics of gap resonance between two fixed bodies in close proximity

On hydrodynamic characteristics of gap resonance between two fixed bodies in close proximity

Assessment of Scale Effects, Viscous Forces and Induced Drag on a Point-Absorbing Wave Energy Converter by CFD Simulations

On the hydrodynamic performance of a vertical pile-restrained WEC-type floating breakwater

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