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Wave energy converter arrays: A methodology to assess performance considering the disturbed wave field (4.388Mb)
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Title
Wave energy converter arrays: A methodology to assess performance considering the disturbed wave field
Author
Zou, Shangyan
Robertson, Bryson
Roach, Aeron
Mundon, Tim
Rosenberg, Brian
Penalba, Markel
Research Group
Mecánica de Fluidos
Other institutions
https://ror.org/0036rpn28
https://ror.org/00ysfqy60
Version
Published version
Document type
Journal Article
Embargo end date
2144-01-01
Language
English
Rights
© 2024 Elsevier
Access
Open access
URI
https://hdl.handle.net/20.500.11984/14537
Publisher’s version
https://doi.org/10.1016/j.renene.2024.120719
Published at
Renewable Energy  2024 Vol. 229. N. art 120719
Publisher
Elsevier
Keywords
Hydrodynamics
Power production and quality
Wave energy converters array
Wave field disturbance ... [+]
Hydrodynamics
Power production and quality
Wave energy converters array
Wave field disturbance
Wave propagation [-]
Subject (UNESCO Thesaurus)
Fluid mechanics
Ocean wave energy
Hydroelectric energy
UNESCO Classification
Fluid mechanics
Oceanography: Renewable resources
Hydrodynamics
Abstract
Wave Energy Converters (WECs) often face power fluctuations due to wave variability, making grid integration costly. To mitigate this, placing multiple WECs in an array can reduce both power variabili ... [+]
Wave Energy Converters (WECs) often face power fluctuations due to wave variability, making grid integration costly. To mitigate this, placing multiple WECs in an array can reduce both power variability and expenses. Prior research has limited consideration of the impact of individual WECs on the disturbed wave field. Therefore, a novel simulation framework is proposed which is capable of evaluating the disturbed wave field by coupling a time domain hydrodynamics solver (ProteusDS) and a spectral wave field propagation model (Simulating WAves Nearshore (SWAN)). Numerical simulations are conducted for three different WEC archetypes (RM3, RM5, and Triton) under four representative sea states. The framework is compared with two lower-fidelity models to highlight key array effects. Results show that (a) placing WECs in an array significantly improves power quality (e.g., Triton reduces CoV by up to 37%); (b) WECs notably impact the wave field (e.g., RM3 up to 14%, RM5 up to 39%, Triton up to 29% diffraction); (c) Wave refraction, alongside attenuation, is crucial, or array power may be underpredicted (e.g., RM5 by 40% and Triton by 26%); (d) Constructive array effects can be found (e.g., Triton Q-factor up to 1.07) even without optimization, emphasizing the potential for further improvements. © 2024 Elsevier Ltd [-]
Funder
Gobierno Vasco
Program
IKERMUGIKORTASUNA
Number
MV-2022-1-0017
Collections
  • Articles - Engineering [930]

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