Wave Energy Extraction by Flexible Floaters

S. Michele; F. Buriani; Emiliano Renzi; Marijn Rooij ,van; Bayu Jayawardhana; Antonis I. Vakis

doi:10.3390/en13236167

Wave Energy Extraction by Flexible Floaters

S. Michele, F. Buriani, Emiliano Renzi^*, Marijn Rooij ,van, Bayu Jayawardhana, Antonis I. Vakis

^*Corresponding author for this work

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Abstract

We present a novel mathematical model to investigate the extraction of wave power by flexible floaters. The model is based on the method of dry modes, coupled with a matched eigenfunction expansion. Our model results compare satisfactorily with preliminary data obtained from a demonstrator device, developed at the University of Groningen. We show that the role of elasticity is to increase the number of resonant frequencies with respect to a rigid body, which has a positive effect on wave power output. The mathematical model is then extended to irregular incident waves, described by a JONSWAP spectrum. Our results show that the peak capture factors decrease in irregular waves, as compared to the monochromatic case. However, the system becomes more efficient at non-resonant frequencies. This work highlights the need to scale-up experimental investigations on flexible wave energy converters, which are still a small minority, compared to those on rigid converters.

Original language	English
Article number	6167
Number of pages	24
Journal	Energies
Volume	13
Issue number	23
DOIs	https://doi.org/10.3390/en13236167
Publication status	Published - 24-Nov-2020

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@article{89e096ad43694a3abf52f889c7dfc5cd,

title = "Wave Energy Extraction by Flexible Floaters",

abstract = "We present a novel mathematical model to investigate the extraction of wave power by flexible floaters. The model is based on the method of dry modes, coupled with a matched eigenfunction expansion. Our model results compare satisfactorily with preliminary data obtained from a demonstrator device, developed at the University of Groningen. We show that the role of elasticity is to increase the number of resonant frequencies with respect to a rigid body, which has a positive effect on wave power output. The mathematical model is then extended to irregular incident waves, described by a JONSWAP spectrum. Our results show that the peak capture factors decrease in irregular waves, as compared to the monochromatic case. However, the system becomes more efficient at non-resonant frequencies. This work highlights the need to scale-up experimental investigations on flexible wave energy converters, which are still a small minority, compared to those on rigid converters.",

author = "S. Michele and F. Buriani and Emiliano Renzi and {Rooij ,van}, Marijn and Bayu Jayawardhana and Vakis, {Antonis I.}",

note = "Funding Information: Funding: S.M. was funded by a Royal Society—CNR International Fellowship. Funding Information: Acknowledgments: E.R. and F.B. acknowledge the support of Loughborough University through an Enterprise Projects Group (EPG) grant to undertake the experiments. The authors would like to thank W.A. Prins who contributed to the development of the demonstrator prototype. Publisher Copyright: {\textcopyright} 2020 by the authors.",

year = "2020",

month = nov,

day = "24",

doi = "10.3390/en13236167",

language = "English",

volume = "13",

journal = "Energies",

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TY - JOUR

T1 - Wave Energy Extraction by Flexible Floaters

AU - Michele, S.

AU - Buriani, F.

AU - Renzi, Emiliano

AU - Rooij ,van, Marijn

AU - Jayawardhana, Bayu

AU - Vakis, Antonis I.

N1 - Funding Information: Funding: S.M. was funded by a Royal Society—CNR International Fellowship. Funding Information: Acknowledgments: E.R. and F.B. acknowledge the support of Loughborough University through an Enterprise Projects Group (EPG) grant to undertake the experiments. The authors would like to thank W.A. Prins who contributed to the development of the demonstrator prototype. Publisher Copyright: © 2020 by the authors.

PY - 2020/11/24

Y1 - 2020/11/24

N2 - We present a novel mathematical model to investigate the extraction of wave power by flexible floaters. The model is based on the method of dry modes, coupled with a matched eigenfunction expansion. Our model results compare satisfactorily with preliminary data obtained from a demonstrator device, developed at the University of Groningen. We show that the role of elasticity is to increase the number of resonant frequencies with respect to a rigid body, which has a positive effect on wave power output. The mathematical model is then extended to irregular incident waves, described by a JONSWAP spectrum. Our results show that the peak capture factors decrease in irregular waves, as compared to the monochromatic case. However, the system becomes more efficient at non-resonant frequencies. This work highlights the need to scale-up experimental investigations on flexible wave energy converters, which are still a small minority, compared to those on rigid converters.

AB - We present a novel mathematical model to investigate the extraction of wave power by flexible floaters. The model is based on the method of dry modes, coupled with a matched eigenfunction expansion. Our model results compare satisfactorily with preliminary data obtained from a demonstrator device, developed at the University of Groningen. We show that the role of elasticity is to increase the number of resonant frequencies with respect to a rigid body, which has a positive effect on wave power output. The mathematical model is then extended to irregular incident waves, described by a JONSWAP spectrum. Our results show that the peak capture factors decrease in irregular waves, as compared to the monochromatic case. However, the system becomes more efficient at non-resonant frequencies. This work highlights the need to scale-up experimental investigations on flexible wave energy converters, which are still a small minority, compared to those on rigid converters.

U2 - 10.3390/en13236167

DO - 10.3390/en13236167

M3 - Article

SN - 1996-1073

VL - 13

JO - Energies

JF - Energies

IS - 23

M1 - 6167

ER -

Wave Energy Extraction by Flexible Floaters

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