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Arrays of Point-Absorbing Wave Energy Converters in Short-Crested Irregular Waves
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Zeitschriftentitel: | Energies |
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Personen und Körperschaften: | , , , , |
In: | Energies, 11, 2018, 4, S. 964 |
Format: | E-Article |
Sprache: | Englisch |
veröffentlicht: |
MDPI AG
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Schlagwörter: |
author_facet |
Göteman, Malin McNatt, Cameron Giassi, Marianna Engström, Jens Isberg, Jan Göteman, Malin McNatt, Cameron Giassi, Marianna Engström, Jens Isberg, Jan |
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author |
Göteman, Malin McNatt, Cameron Giassi, Marianna Engström, Jens Isberg, Jan |
spellingShingle |
Göteman, Malin McNatt, Cameron Giassi, Marianna Engström, Jens Isberg, Jan Energies Arrays of Point-Absorbing Wave Energy Converters in Short-Crested Irregular Waves Energy (miscellaneous) Energy Engineering and Power Technology Renewable Energy, Sustainability and the Environment Electrical and Electronic Engineering Control and Optimization Engineering (miscellaneous) Building and Construction |
author_sort |
göteman, malin |
spelling |
Göteman, Malin McNatt, Cameron Giassi, Marianna Engström, Jens Isberg, Jan 1996-1073 MDPI AG Energy (miscellaneous) Energy Engineering and Power Technology Renewable Energy, Sustainability and the Environment Electrical and Electronic Engineering Control and Optimization Engineering (miscellaneous) Building and Construction http://dx.doi.org/10.3390/en11040964 <jats:p>For most wave energy technology concepts, large-scale electricity production and cost-efficiency require that the devices are installed together in parks. The hydrodynamical interactions between the devices will affect the total performance of the park, and the optimization of the park layout and other park design parameters is a topic of active research. Most studies have considered wave energy parks in long-crested, unidirectional waves. However, real ocean waves can be short-crested, with waves propagating simultaneously in several directions, and some studies have indicated that the wave energy park performance might change in short-crested waves. Here, theory for short-crested waves is integrated in an analytical multiple scattering method, and used to evaluate wave energy park performance in irregular, short-crested waves with different number of wave directions and directional spreading parameters. The results show that the energy absorption is comparable to the situation in long-crested waves, but that the power fluctuations are significantly lower.</jats:p> Arrays of Point-Absorbing Wave Energy Converters in Short-Crested Irregular Waves Energies |
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10.3390/en11040964 |
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Energies |
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title |
Arrays of Point-Absorbing Wave Energy Converters in Short-Crested Irregular Waves |
title_unstemmed |
Arrays of Point-Absorbing Wave Energy Converters in Short-Crested Irregular Waves |
title_full |
Arrays of Point-Absorbing Wave Energy Converters in Short-Crested Irregular Waves |
title_fullStr |
Arrays of Point-Absorbing Wave Energy Converters in Short-Crested Irregular Waves |
title_full_unstemmed |
Arrays of Point-Absorbing Wave Energy Converters in Short-Crested Irregular Waves |
title_short |
Arrays of Point-Absorbing Wave Energy Converters in Short-Crested Irregular Waves |
title_sort |
arrays of point-absorbing wave energy converters in short-crested irregular waves |
topic |
Energy (miscellaneous) Energy Engineering and Power Technology Renewable Energy, Sustainability and the Environment Electrical and Electronic Engineering Control and Optimization Engineering (miscellaneous) Building and Construction |
url |
http://dx.doi.org/10.3390/en11040964 |
publishDate |
2018 |
physical |
964 |
description |
<jats:p>For most wave energy technology concepts, large-scale electricity production and cost-efficiency require that the devices are installed together in parks. The hydrodynamical interactions between the devices will affect the total performance of the park, and the optimization of the park layout and other park design parameters is a topic of active research. Most studies have considered wave energy parks in long-crested, unidirectional waves. However, real ocean waves can be short-crested, with waves propagating simultaneously in several directions, and some studies have indicated that the wave energy park performance might change in short-crested waves. Here, theory for short-crested waves is integrated in an analytical multiple scattering method, and used to evaluate wave energy park performance in irregular, short-crested waves with different number of wave directions and directional spreading parameters. The results show that the energy absorption is comparable to the situation in long-crested waves, but that the power fluctuations are significantly lower.</jats:p> |
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author | Göteman, Malin, McNatt, Cameron, Giassi, Marianna, Engström, Jens, Isberg, Jan |
author_facet | Göteman, Malin, McNatt, Cameron, Giassi, Marianna, Engström, Jens, Isberg, Jan, Göteman, Malin, McNatt, Cameron, Giassi, Marianna, Engström, Jens, Isberg, Jan |
author_sort | göteman, malin |
container_issue | 4 |
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container_title | Energies |
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description | <jats:p>For most wave energy technology concepts, large-scale electricity production and cost-efficiency require that the devices are installed together in parks. The hydrodynamical interactions between the devices will affect the total performance of the park, and the optimization of the park layout and other park design parameters is a topic of active research. Most studies have considered wave energy parks in long-crested, unidirectional waves. However, real ocean waves can be short-crested, with waves propagating simultaneously in several directions, and some studies have indicated that the wave energy park performance might change in short-crested waves. Here, theory for short-crested waves is integrated in an analytical multiple scattering method, and used to evaluate wave energy park performance in irregular, short-crested waves with different number of wave directions and directional spreading parameters. The results show that the energy absorption is comparable to the situation in long-crested waves, but that the power fluctuations are significantly lower.</jats:p> |
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source_id | 49 |
spelling | Göteman, Malin McNatt, Cameron Giassi, Marianna Engström, Jens Isberg, Jan 1996-1073 MDPI AG Energy (miscellaneous) Energy Engineering and Power Technology Renewable Energy, Sustainability and the Environment Electrical and Electronic Engineering Control and Optimization Engineering (miscellaneous) Building and Construction http://dx.doi.org/10.3390/en11040964 <jats:p>For most wave energy technology concepts, large-scale electricity production and cost-efficiency require that the devices are installed together in parks. The hydrodynamical interactions between the devices will affect the total performance of the park, and the optimization of the park layout and other park design parameters is a topic of active research. Most studies have considered wave energy parks in long-crested, unidirectional waves. However, real ocean waves can be short-crested, with waves propagating simultaneously in several directions, and some studies have indicated that the wave energy park performance might change in short-crested waves. Here, theory for short-crested waves is integrated in an analytical multiple scattering method, and used to evaluate wave energy park performance in irregular, short-crested waves with different number of wave directions and directional spreading parameters. The results show that the energy absorption is comparable to the situation in long-crested waves, but that the power fluctuations are significantly lower.</jats:p> Arrays of Point-Absorbing Wave Energy Converters in Short-Crested Irregular Waves Energies |
spellingShingle | Göteman, Malin, McNatt, Cameron, Giassi, Marianna, Engström, Jens, Isberg, Jan, Energies, Arrays of Point-Absorbing Wave Energy Converters in Short-Crested Irregular Waves, Energy (miscellaneous), Energy Engineering and Power Technology, Renewable Energy, Sustainability and the Environment, Electrical and Electronic Engineering, Control and Optimization, Engineering (miscellaneous), Building and Construction |
title | Arrays of Point-Absorbing Wave Energy Converters in Short-Crested Irregular Waves |
title_full | Arrays of Point-Absorbing Wave Energy Converters in Short-Crested Irregular Waves |
title_fullStr | Arrays of Point-Absorbing Wave Energy Converters in Short-Crested Irregular Waves |
title_full_unstemmed | Arrays of Point-Absorbing Wave Energy Converters in Short-Crested Irregular Waves |
title_short | Arrays of Point-Absorbing Wave Energy Converters in Short-Crested Irregular Waves |
title_sort | arrays of point-absorbing wave energy converters in short-crested irregular waves |
title_unstemmed | Arrays of Point-Absorbing Wave Energy Converters in Short-Crested Irregular Waves |
topic | Energy (miscellaneous), Energy Engineering and Power Technology, Renewable Energy, Sustainability and the Environment, Electrical and Electronic Engineering, Control and Optimization, Engineering (miscellaneous), Building and Construction |
url | http://dx.doi.org/10.3390/en11040964 |