Experimental Study of a Hybrid Wave Energy Converter Integrated in a Harbor Breakwater

Rosa-Santos, Paulo; Taveira-Pinto, Francisco; Clemente, Daniel; Cabral, Tomás; Fiorentin, Felipe; Belga, Filipe; Morais, Tiago

doi:10.3390/jmse7020033

Cited by 35 publications

(12 citation statements)

References 24 publications

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“…,m are the principal unknowns of the diffraction and radiation problems. In order to express the potentials in the form of Equations (13) and 14, Twerky's multiple scattering approach is implemented, taking into consideration the interaction phenomena between the floaters of the array. The method which is applicable to arrays consisting of an arbitrary number of vertical axisymmetric bodies, having any geometrical arrangement and individual body geometry, has been described exhaustively in previous publications [49,50]; thus, it is not further elaborated upon here.…”

Section: Theoretical Modelingmentioning

confidence: 99%

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Theoretical Analysis of a Vertical Cylindrical Floater in Front of an Orthogonal Breakwater

Konispoliatis

Mavrakos

2020

Fluids

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This study investigates the effect of an orthogonal-shaped reflecting breakwater on the hydrodynamic characteristics of a vertical cylindrical body. The reflecting walls are placed behind the body, which can be conceived as a floater for wave energy absorption. Linear potential theory is assumed, and the associated diffraction and motion radiation problems are solved in the frequency domain. Axisymmetric eigenfunction expansions of the velocity potential are introduced into properly defined ring-shaped fluid regions surrounding the floater. The hydrodynamic interaction phenomena between the body and the adjacent breakwaters are exactly taken into account by using the method of images. Results are presented and discussed concerning the exciting wave forces on the floater and its hydrodynamic coefficients, concluding that the hydrodynamics of a vertical cylindrical body in front of an orthogonally shaped breakwater differ from those in unbounded waters.

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Section: Theoretical Modelingmentioning

confidence: 99%

“…Furthermore, breakwaters are typically considered as the most suitable and, subsequently, the most researched maritime structures for WEC integration. A number of reviews have been conducted regarding integrated WEC-breakwater systems [12][13][14][15].…”

Section: Introductionmentioning

confidence: 99%

Theoretical Analysis of a Vertical Cylindrical Floater in Front of an Orthogonal Breakwater

Konispoliatis

Mavrakos

2020

Fluids

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“…The present study aims to propose a new perspective in the combined issues of nearshore protection and energy production [17,[19][20][21][22]. The guiding framework is to provide a novel insight on the development of artificial structures primarily designed as breakwaters, i.e., to shelter the coast from waves impact while accounting for ecological issues, but also, as a secondary requirement, to produce energy.…”

Section: Introductionmentioning

confidence: 99%

A Numerical Assessment of Artificial Reef Pass Wave-Induced Currents as a Renewable Energy Source

Sous

2019

JMSE

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The present study aims to estimate the potential of artificial reef pass as a renewable source of energy. The overall idea is to mimic the functioning of natural reef–lagoon systems in which the cross-reef pressure gradient induced by wave breaking is able to drive an outward flow through the pass. The objective is to estimate the feasibility of a positive energy breakwater, combining the usual wave-sheltering function of immersed breakwater together with the production of renewable energy by turbines. A series of numerical simulations is performed using a depth-averaged model to understand the effects of each geometrical reef parameter on the reef–lagoon hydrodynamics. A synthetic wave and tide climate is then imposed to estimate the potential power production. An annual production between 50 and 70 MWh is estimated.

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“…The most challenging issues in the development of technologies for WEC-breakwater integration are:Energies 2020, 13, 236 3 of 22 WEC technologies considered were the sea-wave slot-cone generator (SSG) [16,24,25] and a shore based OWC [26,27]. It has also been established that the integration of the HWEC module into the breakwater does not significantly affect neither its effectiveness nor its stability [28,29]. Furthermore, the overtopping flow over the structure was considerably reduced by the integration of the HWEC module [8].The scope of this paper is to present the physical model study of the proposed HWEC module, at a 1:50 geometrical scale, to analyze the performance of the wave harnessing technologies and to discuss the differences and potential advantages of this hybrid device over its individual components.…”

mentioning

confidence: 99%

“…Energies 2020, 13, 236 3 of 22 WEC technologies considered were the sea-wave slot-cone generator (SSG) [16,24,25] and a shore based OWC [26,27]. It has also been established that the integration of the HWEC module into the breakwater does not significantly affect neither its effectiveness nor its stability [28,29]. Furthermore, the overtopping flow over the structure was considerably reduced by the integration of the HWEC module [8].…”

mentioning

confidence: 99%

Performance Assessment of a Hybrid Wave Energy Converter Integrated into a Harbor Breakwater

et al. 2020

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Seaports are highly energy demanding infrastructures and are exposed to wave energy, which is an abundant resource and largely unexploited. As a result, there has been a rising interest in integrating wave energy converters (WEC) into the breakwaters of seaports. The present work analyzes the performance of an innovative hybrid WEC module combining an oscillating water column (OWC) and an overtopping device (OWEC) integrated into a rubble mound breakwater, based on results of a physical model study carried out at a geometrical scale of 1:50. Before the experimental tests, the device’s performance was numerically optimized using ANSYS Fluent and WOPSim v3.11. The wave power captured by the hybrid WEC was calculated and the performance of the two harvesting principles discussed. It was demonstrated that hybridization could lead to systems with higher efficiencies than its individual components, for a broader range of wave conditions. The chosen concepts were found to complement each other: the OWEC was more efficient for the lower wave periods tested and the OWC for the higher. Consequently, the power production of the hybrid WEC was found to be less dependent on the wave’s characteristics.

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Experimental Study of a Hybrid Wave Energy Converter Integrated in a Harbor Breakwater

Cited by 35 publications

References 24 publications

Theoretical Analysis of a Vertical Cylindrical Floater in Front of an Orthogonal Breakwater

Theoretical Analysis of a Vertical Cylindrical Floater in Front of an Orthogonal Breakwater

A Numerical Assessment of Artificial Reef Pass Wave-Induced Currents as a Renewable Energy Source

Performance Assessment of a Hybrid Wave Energy Converter Integrated into a Harbor Breakwater

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