周程晟,方世东. 漂浮式海上光伏智能气候预警平台的实践与研究[J]. 南方能源建设,2025,12(1):75-82.. DOI: 10.16516/j.ceec.2023-277
引用本文: 周程晟,方世东. 漂浮式海上光伏智能气候预警平台的实践与研究[J]. 南方能源建设,2025,12(1):75-82.. DOI: 10.16516/j.ceec.2023-277
ZHOU Chengsheng, FANG Shidong. Practice and research of floating offshore photovoltaic intelligent climate early warning platform [J]. Southern energy construction, 2025, 12(1): 75-82. DOI: 10.16516/j.ceec.2023-277
Citation: ZHOU Chengsheng, FANG Shidong. Practice and research of floating offshore photovoltaic intelligent climate early warning platform [J]. Southern energy construction, 2025, 12(1): 75-82. DOI: 10.16516/j.ceec.2023-277

漂浮式海上光伏智能气候预警平台的实践与研究

Practice and Research of Floating Offshore Photovoltaic Intelligent Climate Early Warning Platform

  • 摘要:
    目的 旨在探索一种新型的漂浮式海上光伏系统,该系统不仅能够有效收集海上太阳能资源,还能实现智能化气候预警功能。
    方法 研究通过结合海上光伏技术与智能化气象监测技术,构建一种可行的智能化海上光伏气候预警平台。首先,利用漂浮式海上光伏平台将太阳能转化为电能;其次,通过智能化监测系统实时监测海洋天气状况并发出预警,以提高光伏发电的可靠性。
    结果 试验表明,该漂浮式海上光伏系统能够在不同海域及气象条件下有效收集太阳能,并利用智能化气象监测系统及时预警海洋气象变化。
    结论 研究发现该平台具有广阔的应用前景和市场潜力,可为海洋可再生能源发展提供借鉴,并向相关研究与实践提供思路与方法。

     

    Abstract:
    Objective This paper aims to explore a novel floating offshore photovoltaic system that not only effectively collects marine solar energy but also performs intelligent climate early warning.
    Method By integrating offshore photovoltaic technology with intelligent meteorological monitoring technology, we developed a viable intelligent offshore photovoltaic climate early warning platform. Firstly, the floating offshore photovoltaic platform was used to convert solar energy into electrical energy. Secondly, the intelligent monitoring system monitored ocean weather conditions in real-time and gave early warnings to improve the reliability of photovoltaic power generation.
    Result Tests show that the floating offshore photovoltaic system can effectively collect solar energy under different sea areas and weather conditions, and the intelligent meteorological monitoring system is used to timely give early warnings on the changes in marine meteorology.
    Conclusion This study finds that the platform has broad application prospects and market potential. It can provide references for the development of marine renewable energy and provide ideas and methods for related research and practice.

     

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