Simulation of Sea Waves and Investigation of Extractable Energy from Waves in Makran Coastal Zone by Using SWAN Model

In recent years, the need for energy in the world has increased. Due to climate change and its problems and the increasing global need for energy, the desire to use fossil energy has decreased and the development of new energy has become one of the most important issues of the day. In this research,...

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Main Authors: Mona Kashi Zonozi, Behzad Layeghi, Abbas Ranjbar, Sahar Tajkbakhsh, Mehdi Rahnama
Format: Article
Language:fas
Published: I.R. of Iran Meteorological Organization 2023-09-01
Series:Nīvār
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Online Access:https://nivar.irimo.ir/article_189433_e0782e424bc6e97cc4b2652e75486ff3.pdf
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author Mona Kashi Zonozi
Behzad Layeghi
Abbas Ranjbar
Sahar Tajkbakhsh
Mehdi Rahnama
author_facet Mona Kashi Zonozi
Behzad Layeghi
Abbas Ranjbar
Sahar Tajkbakhsh
Mehdi Rahnama
author_sort Mona Kashi Zonozi
collection DOAJ
description In recent years, the need for energy in the world has increased. Due to climate change and its problems and the increasing global need for energy, the desire to use fossil energy has decreased and the development of new energy has become one of the most important issues of the day. In this research, one of the new types of energy, called wind wave energy, has been investigated. In this research, the Swan model (SWAN: Simulating Waves Nearshore) was used to simulate the characteristics of the waves (Significant wave height, wave direction and wave period) were predicted in a period of 6 years. The output of the WRF model was used to generate the wind field of the SWAN model input. After simulating the waves, the Chabahar buoy and Era5 data were used to verify the wave characteristics, including the height of the wave index (Hs) and the period of wave repetition (Ts). Then, the amount of energy that can be extracted in Makran beaches was calculated. The results of the six-year averaging showed that the highest wave power can be obtained in the summer season in the areas near the Indian Ocean, which was estimated about 7.84 W/m.
format Article
id doaj-art-383a1b5b139b48678f6035bcf61bddfd
institution Kabale University
issn 1735-0565
2645-3347
language fas
publishDate 2023-09-01
publisher I.R. of Iran Meteorological Organization
record_format Article
series Nīvār
spelling doaj-art-383a1b5b139b48678f6035bcf61bddfd2025-01-05T10:54:13ZfasI.R. of Iran Meteorological OrganizationNīvār1735-05652645-33472023-09-0147122-12319521010.30467/nivar.2024.426307.1274189433Simulation of Sea Waves and Investigation of Extractable Energy from Waves in Makran Coastal Zone by Using SWAN ModelMona Kashi Zonozi0Behzad Layeghi1Abbas Ranjbar2Sahar Tajkbakhsh3Mehdi Rahnama4Research Institute of Meteorology and Atmospheric Science , Tehran, IranPh.D. of Physical Oceanography, Department of Islamic Azad University Science and Research Branch, Tehran, IranAssociate Prof., Research Institute of Meteorology and Atmospheric Science, Tehran, IranAssistant Prof., Research Institute of Meteorology and Atmospheric Science, Tehran, IranAssistant Prof., Research Institute of Meteorology and Atmospheric Science, Tehran, IranIn recent years, the need for energy in the world has increased. Due to climate change and its problems and the increasing global need for energy, the desire to use fossil energy has decreased and the development of new energy has become one of the most important issues of the day. In this research, one of the new types of energy, called wind wave energy, has been investigated. In this research, the Swan model (SWAN: Simulating Waves Nearshore) was used to simulate the characteristics of the waves (Significant wave height, wave direction and wave period) were predicted in a period of 6 years. The output of the WRF model was used to generate the wind field of the SWAN model input. After simulating the waves, the Chabahar buoy and Era5 data were used to verify the wave characteristics, including the height of the wave index (Hs) and the period of wave repetition (Ts). Then, the amount of energy that can be extracted in Makran beaches was calculated. The results of the six-year averaging showed that the highest wave power can be obtained in the summer season in the areas near the Indian Ocean, which was estimated about 7.84 W/m.https://nivar.irimo.ir/article_189433_e0782e424bc6e97cc4b2652e75486ff3.pdfrenewable energiesswan modelwave powermonsoon
spellingShingle Mona Kashi Zonozi
Behzad Layeghi
Abbas Ranjbar
Sahar Tajkbakhsh
Mehdi Rahnama
Simulation of Sea Waves and Investigation of Extractable Energy from Waves in Makran Coastal Zone by Using SWAN Model
Nīvār
renewable energies
swan model
wave power
monsoon
title Simulation of Sea Waves and Investigation of Extractable Energy from Waves in Makran Coastal Zone by Using SWAN Model
title_full Simulation of Sea Waves and Investigation of Extractable Energy from Waves in Makran Coastal Zone by Using SWAN Model
title_fullStr Simulation of Sea Waves and Investigation of Extractable Energy from Waves in Makran Coastal Zone by Using SWAN Model
title_full_unstemmed Simulation of Sea Waves and Investigation of Extractable Energy from Waves in Makran Coastal Zone by Using SWAN Model
title_short Simulation of Sea Waves and Investigation of Extractable Energy from Waves in Makran Coastal Zone by Using SWAN Model
title_sort simulation of sea waves and investigation of extractable energy from waves in makran coastal zone by using swan model
topic renewable energies
swan model
wave power
monsoon
url https://nivar.irimo.ir/article_189433_e0782e424bc6e97cc4b2652e75486ff3.pdf
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AT abbasranjbar simulationofseawavesandinvestigationofextractableenergyfromwavesinmakrancoastalzonebyusingswanmodel
AT sahartajkbakhsh simulationofseawavesandinvestigationofextractableenergyfromwavesinmakrancoastalzonebyusingswanmodel
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