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作 者:郑静逸 Jingyi Zheng(China International Water&Electric Corp,Beijing 101100,China)
出 处:《产业科技创新》2025年第1期83-87,共5页Industrial Technology Innovation
摘 要:在全球能源转型的背景下,新能源融合产业正朝着高效、智能和可持续的方向发展。水电站与光伏协同运行作为一种关键的能源互补模式,正在通过创新技术加速转型。本文围绕水光协同运行的关键技术展开研究,重点分析水电站智能调度系统、光伏发电预测与优化、智能微网及储能系统的应用。借助数字孪生、云计算及区块链技术,水光协同系统可实现精准预测、优化调度与动态调控,从而提高新能源消纳能力,降低弃光率,并提升电网安全性与经济性。随着分布式能源管理系统(DEMS)和智能电网技术的不断完善,水光协同运行将在新能源融合产业中发挥更重要的作用,为我国“双碳”目标的实现提供技术支撑。Against the backdrop of global energy transition,the new energy integration industry is evolving towards efficiency,intelligence,and sustainability.The coordinated operation of hydropower stations and photovoltaics,as a key energy complementary model,is accelerating transformation through innovative technologies.This study focuses on the key technologies of hydropower-photovoltaic coordination,with an emphasis on intelligent scheduling systems for hydropower stations,photovoltaic power generation forecasting and optimization,smart microgrids,and energy storage applications.Leveraging digital twin technology,cloud computing,and blockchain,HPV coordination systems can achieve precise forecasting,optimized scheduling,and dynamic regulation,thereby enhancing the absorption capacity of new energy,reducing photovoltaic curtailment,and improving power grid security and economic efficiency.As Distributed Energy Management Systems(DEMS)and smart grid technologies continue to advance,HPV coordinated operation will play an increasingly significant role in the new energy integration industry,providing technical support for the realization of China’s"dual carbon"goals.
关 键 词:水电站 光伏协同运行 智能调度 储能系统 大数据调控 产业转型技术
分 类 号:TV7[水利工程—水利水电工程]
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