Characterization of Wind-Sea- and Swell-Induced Wave Energy along the Norwegian Coast

International audience The necessity to reduce C O 2 emissions in combination with the rising energy demand worldwide makes the extensive use of renewable energy sources increasingly important. To that end, countries with long coastlines, such as Norway, can exploit ocean wave energy to produce larg...

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Bibliographic Details
Published in:Atmosphere
Main Authors: Christakos, Konstantinos, Varlas, George, Cheliotis, Ioannis, Spyrou, Christos, Aarnes, Ole Johan, Furevik, Birgitte Rugaard
Other Authors: Laboratoire de Physico-Chimie de l'Atmosphère (LPCA), Université du Littoral Côte d'Opale (ULCO)
Format: Article in Journal/Newspaper
Language:English
Published: HAL CCSD 2020
Subjects:
wave energy flux
renewable energy
Norway
North Sea
Norwegian Sea
Barents Sea
wind sea
swel
[PHYS]Physics [physics]
Nordic Seas
Online Access:https://ulco.hal.science/hal-04291010
https://ulco.hal.science/hal-04291010/document
https://ulco.hal.science/hal-04291010/file/atmosphere-11-00166-v2.pdf
https://doi.org/10.3390/atmos11020166
Description
Summary:International audience The necessity to reduce C O 2 emissions in combination with the rising energy demand worldwide makes the extensive use of renewable energy sources increasingly important. To that end, countries with long coastlines, such as Norway, can exploit ocean wave energy to produce large amounts of power. In order to facilitate these efforts as well as to provide quantitative data on the wave energy potential of a specific area, it is essential to analyze the weather and climatic conditions detecting any variabilities. The complex physical processes and the atmosphere-wave synergetic effects make the investigation of temporal variability of wave energy a challenging issue. This work aims to shed new light on potential wave energy mapping, presenting a spatio-temporal assessment of swell- and wind-sea-induced energy flux in the Nordic Seas with a focus on the Norwegian coastline using the NORA10 hindcast for the period 1958–2017 (59 years). The results indicate high spatial and seasonal variability of the wave energy flux along the coast. The maximum wave energy flux is observed during winter, while the minimum is observed during summer. The highest coastal wave energy flux is observed in the Norwegian Sea. The majority of areas with dominant swell conditions (i.e., in the Norwegian Sea) are characterized by the highest coastal wave energy flux. The maximum values of wave energy flux in the North Sea are denoted in its northern parts in the intersection with the Norwegian Sea. In contrast to the Norwegian Sea, areas located in the North Sea and the Barents Sea show that wind sea is contributing more than swell to the total wave energy flux.

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