CFD study of the overtopping discharge of the Wave Dragon wave energy converter

K. Eskilsson; J. Palm; Jens Peter Kofoed; E. Friis-Madsen

CFD study of the overtopping discharge of the Wave Dragon wave energy converter

K. Eskilsson, J. Palm, Jens Peter Kofoed, E. Friis-Madsen

Sektionen for Infrastruktur, Vandbygning og Miljøteknologi

Publikation: Bidrag til bog/antologi/rapport/konference proceeding › Konferenceartikel i proceeding › Forskning › peer review

22 Citationer (Scopus)

Abstract

The Wave Dragon is a floating Wave Energy Converter (WEC) working by the overtopping principle. The overtopping discharge has been determined by model scale experiments in wave basins. In the present study we numerically simulate the overtopping behavior of the Wave Dragon device using a VOFbased incompressible Euler/Navier-Stokes solver in the OpenFOAM® framework. We present simulations of: (i) a complete sea state for different crest heights, and (ii) regular waves for different wave conditions and crest heights. The simulations compare reasonably well with the experimental data, albeit the irregular wave simulations predict a larger overtopping discharge than observed in the experiments.

Originalsprog	Engelsk
Titel	Proceedings of the 1st International Conference on Renewable Energies Offshore
Redaktører	Guedes Soares
Antal sider	8
Forlag	CRC Press
Publikationsdato	2015
Sider	287-294
ISBN (Trykt)	978-1-138-02871-5
ISBN (Elektronisk)	9781315647852
Status	Udgivet - 2015
Begivenhed	International Conference on Renewable Energies Offshore - Lisbon, Portugal Varighed: 24 nov. 2014 → 26 nov. 2014 Konferencens nummer: 1

Konference

Konference	International Conference on Renewable Energies Offshore
Nummer	1
Land/Område	Portugal
By	Lisbon
Periode	24/11/2014 → 26/11/2014

Emneord

Wave Dragon
Floating Wave Energy Converter
Overtopping

AUB Link

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Citationsformater

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title = "CFD study of the overtopping discharge of the Wave Dragon wave energy converter",

abstract = "The Wave Dragon is a floating Wave Energy Converter (WEC) working by the overtopping principle. The overtopping discharge has been determined by model scale experiments in wave basins. In the present study we numerically simulate the overtopping behavior of the Wave Dragon device using a VOFbased incompressible Euler/Navier-Stokes solver in the OpenFOAM{\textregistered} framework. We present simulations of: (i) a complete sea state for different crest heights, and (ii) regular waves for different wave conditions and crest heights. The simulations compare reasonably well with the experimental data, albeit the irregular wave simulations predict a larger overtopping discharge than observed in the experiments.",

keywords = "Wave Dragon, Floating Wave Energy Converter, Overtopping, Wave Dragon, Floating Wave Energy Converter, Overtopping",

author = "K. Eskilsson and J. Palm and Kofoed, {Jens Peter} and E. Friis-Madsen",

year = "2015",

language = "English",

isbn = "978-1-138-02871-5",

pages = "287--294",

editor = "Guedes Soares",

booktitle = "Proceedings of the 1st International Conference on Renewable Energies Offshore",

publisher = "CRC Press",

note = "International Conference on Renewable Energies Offshore, RENEW2014 ; Conference date: 24-11-2014 Through 26-11-2014",

}

CFD study of the overtopping discharge of the Wave Dragon wave energy converter. / Eskilsson, K.; Palm, J.; Kofoed, Jens Peter et al.
Proceedings of the 1st International Conference on Renewable Energies Offshore. red. / Guedes Soares. CRC Press, 2015. s. 287-294.

Publikation: Bidrag til bog/antologi/rapport/konference proceeding › Konferenceartikel i proceeding › Forskning › peer review

TY - GEN

T1 - CFD study of the overtopping discharge of the Wave Dragon wave energy converter

AU - Eskilsson, K.

AU - Palm, J.

AU - Kofoed, Jens Peter

AU - Friis-Madsen, E.

N1 - Conference code: 1

PY - 2015

Y1 - 2015

N2 - The Wave Dragon is a floating Wave Energy Converter (WEC) working by the overtopping principle. The overtopping discharge has been determined by model scale experiments in wave basins. In the present study we numerically simulate the overtopping behavior of the Wave Dragon device using a VOFbased incompressible Euler/Navier-Stokes solver in the OpenFOAM® framework. We present simulations of: (i) a complete sea state for different crest heights, and (ii) regular waves for different wave conditions and crest heights. The simulations compare reasonably well with the experimental data, albeit the irregular wave simulations predict a larger overtopping discharge than observed in the experiments.

AB - The Wave Dragon is a floating Wave Energy Converter (WEC) working by the overtopping principle. The overtopping discharge has been determined by model scale experiments in wave basins. In the present study we numerically simulate the overtopping behavior of the Wave Dragon device using a VOFbased incompressible Euler/Navier-Stokes solver in the OpenFOAM® framework. We present simulations of: (i) a complete sea state for different crest heights, and (ii) regular waves for different wave conditions and crest heights. The simulations compare reasonably well with the experimental data, albeit the irregular wave simulations predict a larger overtopping discharge than observed in the experiments.

KW - Wave Dragon

KW - Floating Wave Energy Converter

KW - Overtopping

KW - Wave Dragon

KW - Floating Wave Energy Converter

KW - Overtopping

M3 - Article in proceeding

SN - 978-1-138-02871-5

SP - 287

EP - 294

BT - Proceedings of the 1st International Conference on Renewable Energies Offshore

A2 - Soares, Guedes

PB - CRC Press

T2 - International Conference on Renewable Energies Offshore

Y2 - 24 November 2014 through 26 November 2014

ER -

CFD study of the overtopping discharge of the Wave Dragon wave energy converter

Abstract

Konference

Emneord

AUB Link

Fingeraftryk

Citationsformater