流体动力学模拟在海洋能源开发中的应用  

Application of Fluid Dynamics Simulation in Marine Energy Development

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作  者:黄云璟 HUANG Yunjing(Yichang Test Technology Research Institute,Yichang,Hubei 443000,China)

机构地区:[1]宜昌测试技术研究所,湖北宜昌443000

出  处:《自动化应用》2025年第3期167-169,172,共4页Automation Application

摘  要:旨在系统地探讨流体动力学模拟技术在海洋可再生能源开发中的关键作用与应用价值。利用数值模拟方法,深入分析海洋环境中水流、波浪以及潮汐的动态特性,并评估其对潮汐能、海流能及波浪能等可再生能源开发的影响。研究表明,流体动力学模拟技术在优化海洋能源装置设计、提升能量捕捉效率及性能预测方面均具有重要作用,进一步验证了该技术在降低工程风险、提高设计精度和经济效益方面均具有显著优势。流体动力学模拟技术为推动海洋能源开发的可持续发展提供了科学依据与工程支持,是提升可再生能源利用效率的重要工具。This study systematically explores the critical role and application value of fluid dynamics simulation technology in the development of marine renewable energy.By employing numerical simulation methods,the dynamic characteristics of water flow,waves,and tides in the marine environment were analyzed in depth,assessing their impact on the development of renewable energy sources such as tidal energy,ocean current energy,and wave energy.Research has shown that fluid dynamics simulation technology plays an important role in optimizing the design of marine energy devices,improving energy capture efficiency,and predicting performance.This further validates the significant advantages of this technology in reducing engineering risks,improving design accuracy,and economic benefits.Fluid dynamics simulation technology provides scientific evidence and engineering support for the sustainable development of marine energy development and is a vital tool for enhancing the efficiency of renewable energy utilization.

关 键 词:流体动力学模拟 海洋能源开发 可持续能源 

分 类 号:TV742[水利工程—水利水电工程]

 

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