评估几内亚湾过去和未来的海浪发电潜力

IF 3.6 Q3 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY
Adeola M. Dahunsi, Bennet Atsu Kwame Foli
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引用次数: 0

摘要

本研究调查了几内亚湾(GoG)的历史和未来波浪能潜力,目的是确定潜在开发的高密度波浪能位置。为了估算三个时期(过去:1979-2005年、本世纪中叶:2026-2050年和世纪末:2081-2100年)的波能密度(WPD),我们利用了8个环流模式获得的显著波高和平均波周期。利用这些WAVEWATCH III模拟数据集的集合,我们计算了WPD并评估了总体和季节性趋势,预测了代表性浓度路径(RCP) 4.5和8.5情景下的变化。结果显示,西部地区的WPD潜力较高,特别是在海岸附近,海上的WPD潜力也有所增加。从空间上看,WPD变化率变化很大(- 0.021 ~ 0.039 kW/m /年),虽然总体较低,但也有正趋势和负趋势。预测显示,到本世纪末可能从0.5千瓦/米增加到1.0千瓦/米。估计潜在的收获功率超过14000兆瓦,近海地区显示出更好的波浪转换器性能。这项研究的结论是,GoG的波浪能是一种有前途的可再生资源,为未来的电力需求提供了潜在的解决方案,并有助于减少区域温室气体排放。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Assessment of past and future potential of ocean wave power in the Gulf of Guinea
This study investigated the historical and future wave power potential in the Gulf of Guinea (GoG) with the aim of identifying high-density wave energy locations for potential exploitation. To estimate wave power density (WPD) for three time periods (past: 1979–2005, mid-century: 2026–2050, and end-century: 2081–2100), we utilized significant wave height and mean wave period obtained from eight General Circulation Models. Using an ensemble of these WAVEWATCH III simulated datasets, we calculated WPD and assessed overall and seasonal trends, projecting changes under Representative Concentration Pathway (RCP) 4.5 and 8.5 scenarios. Results revealed higher potential WPD in the western GoG, particularly near the coast, with increased values offshore. Spatially, WPD change rates varied widely (−0.021 to 0.039 kW/m per year), suggesting both positive and negative trends, though generally low. Projections indicated a potential increase from 0.5 to 1.0 kW/m by the end of the century. The estimated potential power for harvesting exceeded 14,000 MW, with offshore regions showing better wave converter performance. This study concludes that GoG's wave energy is a promising renewable resource, offering a potential solution to future power needs and contributing to regional greenhouse gas emission mitigation.
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来源期刊
International Journal of Sustainable Engineering
International Journal of Sustainable Engineering GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY-
CiteScore
7.70
自引率
0.00%
发文量
19
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