摘要
电气设计与智能监控技术直接影响发电效率、并网稳定性与系统运维能力。传统系统在功率波动控制、无功补偿和设备故障预测等方面存在局限,智能管理系统基于多维度数据采集和云端调度等优化光伏电站运行。电能优化策略采用智能逆变器动态无功补偿与并网控制算法提高电能利用率和并网安全性。电气设计优化与智能监控结合,能促进光伏发电系统智能化升级,支撑分布式能源高效发展。
Electrical design and intelligent monitoring technology directly affect power generation efficiency,grid-connected stability and system operation and maintenance capabilities.Traditional systems have limitations in power fluctuation control,reactive power compensation and equipment fault prediction.Intelligent management systems optimize photovoltaic power station operations based on multi-dimensional data collection and cloud scheduling.The power optimization strategy uses intelligent inverter dynamic reactive power compensation and grid-connected control algorithms to improve power utilization and grid-connected safety.The combination of electrical design optimization and intelligent monitoring promotes the intelligent upgrade of photovoltaic power generation systems and supports the efficient development of distributed energy.
出处
《微型计算机》
2025年第16期13-15,共3页
MicroComputer
关键词
屋顶分布式光伏发电
电气设计优化
智能管理系统
rooftop distributed photovoltaic power generation
electrical design optimization
intelligent management system
