Experimental investigation of rubble mound breakwaters for wave energy conversion

C. Luppa; P. Contestabile; L. Cavallaro; E. Foti; Thomas Lykke Andersen; Diego Vicinanza

Experimental investigation of rubble mound breakwaters for wave energy conversion

C. Luppa, P. Contestabile, L. Cavallaro, E. Foti, Thomas Lykke Andersen, Diego Vicinanza

Sektionen for Infrastruktur, Vandbygning og Miljøteknologi

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

Abstrakt

The paper describes recent laboratory investigation on the breakwater integrated device named “OBREC” (Overtopping BReakwater for Energy Conversion). This technology recently appeared on the wave energy converter scene as an executive outcome of improving composite seawalls by including overtopping type wave energy converters [1]. Two complementary experimental campaigns were carried out, in 2012 and in 2014. Several geometries and wave conditions were examined. Preliminary comparison of hydraulic behaviour has been summarized, focusing on reflection analysis and overtopping flow rate. Preliminary design formulae are presented to predict overtopping at the rear side of the structure and in to the front reservoir based on both datasets. Moreover, some important results have been presented on hydraulic behaviour of OBREC with saturated reservoir. Particularly attention is paid to wave-by-wave measurement of couples of hydraulic head-flow rate acting on a virtual turbine inlet. Finally, the influence of draft length on overtopping discharge has been identified.

Originalsprog	Engelsk
Titel	Proceedings of the 11th European Wave and Tidal Energy Conference
Antal sider	7
Forlag	Technical Committee of the European Wave and Tidal Energy Conference
Publikationsdato	sep. 2015
Status	Udgivet - sep. 2015
Begivenhed	European Wave and Tidal Energy Conference - The LHEEA Laboratory at Ecole Centrale de Nantes, Nantes, Frankrig Varighed: 6 sep. 2015 → 11 sep. 2015 Konferencens nummer: 11

Konference

Konference	European Wave and Tidal Energy Conference
Nummer	11
Lokation	The LHEEA Laboratory at Ecole Centrale de Nantes
Land/Område	Frankrig
By	Nantes
Periode	06/09/2015 → 11/09/2015

Navn	European Wave and Tidal Energy Conference Series
Nummer	11

Bibliografisk note

Proceedings published on usb for conference participants and will be published at EWTECs website http://www.ewtec.org/proceedings/.

Emneord

Wave Energy
Wave Energy Converters
Rubble mound breakwaters
Wave overtopping
Integrated device

AUB Link

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Citationsformater

Luppa, C., Contestabile, P., Cavallaro, L., Foti, E., Andersen, T. L., & Vicinanza, D. (2015). Experimental investigation of rubble mound breakwaters for wave energy conversion. I Proceedings of the 11th European Wave and Tidal Energy Conference Technical Committee of the European Wave and Tidal Energy Conference. European Wave and Tidal Energy Conference Series Nr. 11

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title = "Experimental investigation of rubble mound breakwaters for wave energy conversion",

abstract = "The paper describes recent laboratory investigation on the breakwater integrated device named “OBREC” (Overtopping BReakwater for Energy Conversion). This technology recently appeared on the wave energy converter scene as an executive outcome of improving composite seawalls by including overtopping type wave energy converters [1]. Two complementary experimental campaigns were carried out, in 2012 and in 2014. Several geometries and wave conditions were examined. Preliminary comparison of hydraulic behaviour has been summarized, focusing on reflection analysis and overtopping flow rate. Preliminary design formulae are presented to predict overtopping at the rear side of the structure and in to the front reservoir based on both datasets. Moreover, some important results have been presented on hydraulic behaviour of OBREC with saturated reservoir. Particularly attention is paid to wave-by-wave measurement of couples of hydraulic head-flow rate acting on a virtual turbine inlet. Finally, the influence of draft length on overtopping discharge has been identified.",

keywords = "Wave Energy, Wave Energy Converters, Rubble mound breakwaters, Wave overtopping, Integrated device, Wave Energy, Wave Energy Converters, Rubble mound breakwaters, Wave overtopping, Integrated device",

author = "C. Luppa and P. Contestabile and L. Cavallaro and E. Foti and Andersen, {Thomas Lykke} and Diego Vicinanza",

note = "Proceedings published on usb for conference participants and will be published at EWTECs website http://www.ewtec.org/proceedings/.; European Wave and Tidal Energy Conference, EWTEC ; Conference date: 06-09-2015 Through 11-09-2015",

year = "2015",

month = sep,

language = "English",

series = "European Wave and Tidal Energy Conference Series",

publisher = "Technical Committee of the European Wave and Tidal Energy Conference",

number = "11",

booktitle = "Proceedings of the 11th European Wave and Tidal Energy Conference",

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Luppa, C, Contestabile, P, Cavallaro, L, Foti, E, Andersen, TL & Vicinanza, D 2015, Experimental investigation of rubble mound breakwaters for wave energy conversion. i Proceedings of the 11th European Wave and Tidal Energy Conference. Technical Committee of the European Wave and Tidal Energy Conference, European Wave and Tidal Energy Conference Series, nr. 11, European Wave and Tidal Energy Conference, Nantes, Frankrig, 06/09/2015.

Experimental investigation of rubble mound breakwaters for wave energy conversion. / Luppa, C.; Contestabile, P.; Cavallaro, L. et al.
Proceedings of the 11th European Wave and Tidal Energy Conference. Technical Committee of the European Wave and Tidal Energy Conference, 2015. (European Wave and Tidal Energy Conference Series; Nr. 11).

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

TY - GEN

T1 - Experimental investigation of rubble mound breakwaters for wave energy conversion

AU - Luppa, C.

AU - Contestabile, P.

AU - Cavallaro, L.

AU - Foti, E.

AU - Andersen, Thomas Lykke

AU - Vicinanza, Diego

N1 - Conference code: 11

PY - 2015/9

Y1 - 2015/9

N2 - The paper describes recent laboratory investigation on the breakwater integrated device named “OBREC” (Overtopping BReakwater for Energy Conversion). This technology recently appeared on the wave energy converter scene as an executive outcome of improving composite seawalls by including overtopping type wave energy converters [1]. Two complementary experimental campaigns were carried out, in 2012 and in 2014. Several geometries and wave conditions were examined. Preliminary comparison of hydraulic behaviour has been summarized, focusing on reflection analysis and overtopping flow rate. Preliminary design formulae are presented to predict overtopping at the rear side of the structure and in to the front reservoir based on both datasets. Moreover, some important results have been presented on hydraulic behaviour of OBREC with saturated reservoir. Particularly attention is paid to wave-by-wave measurement of couples of hydraulic head-flow rate acting on a virtual turbine inlet. Finally, the influence of draft length on overtopping discharge has been identified.

AB - The paper describes recent laboratory investigation on the breakwater integrated device named “OBREC” (Overtopping BReakwater for Energy Conversion). This technology recently appeared on the wave energy converter scene as an executive outcome of improving composite seawalls by including overtopping type wave energy converters [1]. Two complementary experimental campaigns were carried out, in 2012 and in 2014. Several geometries and wave conditions were examined. Preliminary comparison of hydraulic behaviour has been summarized, focusing on reflection analysis and overtopping flow rate. Preliminary design formulae are presented to predict overtopping at the rear side of the structure and in to the front reservoir based on both datasets. Moreover, some important results have been presented on hydraulic behaviour of OBREC with saturated reservoir. Particularly attention is paid to wave-by-wave measurement of couples of hydraulic head-flow rate acting on a virtual turbine inlet. Finally, the influence of draft length on overtopping discharge has been identified.

KW - Wave Energy

KW - Wave Energy Converters

KW - Rubble mound breakwaters

KW - Wave overtopping

KW - Integrated device

KW - Wave Energy

KW - Wave Energy Converters

KW - Rubble mound breakwaters

KW - Wave overtopping

KW - Integrated device

M3 - Article in proceeding

T3 - European Wave and Tidal Energy Conference Series

BT - Proceedings of the 11th European Wave and Tidal Energy Conference

PB - Technical Committee of the European Wave and Tidal Energy Conference

T2 - European Wave and Tidal Energy Conference

Y2 - 6 September 2015 through 11 September 2015

ER -

Experimental investigation of rubble mound breakwaters for wave energy conversion

Abstrakt

Konference

Bibliografisk note

Emneord

AUB Link

Fingeraftryk

Citationsformater