Hydrodynamic Analysis of Surge-Type Wave Energy Devices in Variable Bathymetry by Means of BEM

Hydrodynamic Analysis of Surge-Type Wave Energy Devices in Variable Bathymetry by Means of BEM

A variety of devices and concepts have been proposed and thoroughly investigated for the exploitation of renewable wave energy. Many of the devices operate in nearshore and coastal regions, and thus, variable bathymetry could have significant effects on their performance. In particular, Oscillating...

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Main Authors: Alexandros Magkouris, Markos Bonovas, Kostas Belibassakis
Format: Article
Language:English
Published: MDPI AG 2020-06-01
Series:Fluids
Subjects:
Wave Energy Converter
2D flap-type model
variable bathymetry
BEM
Online Access:https://www.mdpi.com/2311-5521/5/2/99
id doaj-6970f4aca48b45098300c3e2c5ddf99f
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spelling doaj-6970f4aca48b45098300c3e2c5ddf99f2020-11-25T03:49:33ZengMDPI AGFluids2311-55212020-06-015999910.3390/fluids5020099Hydrodynamic Analysis of Surge-Type Wave Energy Devices in Variable Bathymetry by Means of BEMAlexandros Magkouris0Markos Bonovas1Kostas Belibassakis2School of Naval Architecture and Marine Engineering, National Technical University of Athens, Zografos 15773 Athens, GreeceSchool of Naval Architecture and Marine Engineering, National Technical University of Athens, Zografos 15773 Athens, GreeceSchool of Naval Architecture and Marine Engineering, National Technical University of Athens, Zografos 15773 Athens, GreeceA variety of devices and concepts have been proposed and thoroughly investigated for the exploitation of renewable wave energy. Many of the devices operate in nearshore and coastal regions, and thus, variable bathymetry could have significant effects on their performance. In particular, Oscillating Wave Surge Converters (OWSCs) exploit the horizontal motion of water waves interacting with the flap of the device. In this work, a Boundary Element Method (BEM) is developed, and applied to the investigation of variable bathymetry effects on the performance of a simplified 2D model of a surge-type wave energy converter excited by harmonic incident waves. Numerical results, illustrating the effects of depth variation in conjunction with other parameters, like inertia and power-take-off, on the performance of the device, are presented. Finally, a comparative evaluation of the present simplified surge-type WEC model and point absorbers is presented for a case study in a selected coastal site on the Greek nearshore area, characterized by relatively increased wave energy potential.https://www.mdpi.com/2311-5521/5/2/99Wave Energy Converter2D flap-type modelvariable bathymetryBEM
collection DOAJ
language English
format Article
sources DOAJ
author Alexandros Magkouris
Markos Bonovas
Kostas Belibassakis
spellingShingle Alexandros Magkouris
Markos Bonovas
Kostas Belibassakis
Hydrodynamic Analysis of Surge-Type Wave Energy Devices in Variable Bathymetry by Means of BEM
Fluids
Wave Energy Converter
2D flap-type model
variable bathymetry
BEM
author_facet Alexandros Magkouris
Markos Bonovas
Kostas Belibassakis
author_sort Alexandros Magkouris
title Hydrodynamic Analysis of Surge-Type Wave Energy Devices in Variable Bathymetry by Means of BEM
title_short Hydrodynamic Analysis of Surge-Type Wave Energy Devices in Variable Bathymetry by Means of BEM
title_full Hydrodynamic Analysis of Surge-Type Wave Energy Devices in Variable Bathymetry by Means of BEM
title_fullStr Hydrodynamic Analysis of Surge-Type Wave Energy Devices in Variable Bathymetry by Means of BEM
title_full_unstemmed Hydrodynamic Analysis of Surge-Type Wave Energy Devices in Variable Bathymetry by Means of BEM
title_sort hydrodynamic analysis of surge-type wave energy devices in variable bathymetry by means of bem
publisher MDPI AG
series Fluids
issn 2311-5521
publishDate 2020-06-01
description A variety of devices and concepts have been proposed and thoroughly investigated for the exploitation of renewable wave energy. Many of the devices operate in nearshore and coastal regions, and thus, variable bathymetry could have significant effects on their performance. In particular, Oscillating Wave Surge Converters (OWSCs) exploit the horizontal motion of water waves interacting with the flap of the device. In this work, a Boundary Element Method (BEM) is developed, and applied to the investigation of variable bathymetry effects on the performance of a simplified 2D model of a surge-type wave energy converter excited by harmonic incident waves. Numerical results, illustrating the effects of depth variation in conjunction with other parameters, like inertia and power-take-off, on the performance of the device, are presented. Finally, a comparative evaluation of the present simplified surge-type WEC model and point absorbers is presented for a case study in a selected coastal site on the Greek nearshore area, characterized by relatively increased wave energy potential.
topic Wave Energy Converter
2D flap-type model
variable bathymetry
BEM
url https://www.mdpi.com/2311-5521/5/2/99
work_keys_str_mv AT alexandrosmagkouris hydrodynamicanalysisofsurgetypewaveenergydevicesinvariablebathymetrybymeansofbem
AT markosbonovas hydrodynamicanalysisofsurgetypewaveenergydevicesinvariablebathymetrybymeansofbem
AT kostasbelibassakis hydrodynamicanalysisofsurgetypewaveenergydevicesinvariablebathymetrybymeansofbem
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