摘要
文章研究了分布式光伏发电接入智能电网的优化技术,重点关注接入点优化选择、逆变器控制、能量管理系统优化和智能调度等,通过构建仿真模型,定量分析了分布式光伏发电接入电网的运行效果,验证了优化技术在提高电压稳定性、降低功率损耗、改善电能质量方面的效果,为分布式光伏发电的高效接入提供了理论依据和技术参考,推动了智能电网与新能源的深度融合。
This paper investigates the optimization technologies for integrating distributed photovoltaic(PV)power generation into smart grids,focusing on aspects such as optimal selection of access points,inverter control,optimization of energy management systems,and intelligent scheduling.By constructing simulation models,the operational effects of integrating distributed PV power generation into the grid are quantitatively analyzed,demonstrating the significant effectiveness of optimization technologies in improving voltage stability,reducing power loss,and enhancing the quality of electrical energy.The research provides a theoretical basis and technical reference for the efficient integration of distributed PV power generation,promoting the deep integration of smart grids with new energy sources.
作者
马儒良
袁娜
MA Ruliang;YUAN Na(Zouping Branch of Binzhou Guangming Electric Power Service Co.,Ltd.,Binzhou 256200,China)
出处
《科技创新与生产力》
2025年第4期67-69,共3页
Sci-tech Innovation and Productivity
关键词
光伏发电
分布式
智能电网
接入点
逆变器
photovoltaic power generation
distributed
smart grid
access point
inverter
