摘要
针对传统建筑用电存在的能源效率低、供电可靠性差等问题,设计了一种基于光伏发电和储能系统的建筑电气微电网系统。通过建立数学模型并进行仿真分析,研究了系统各组件的协调控制策略。实验结果表明,该系统可以有效提高建筑能源利用效率15%以上,减少温室气体排放约为20%,并能够保障用电负荷的持续、稳定供给。系统具有良好的经济性和环保性,对推进建筑节能减排具有重要意义。
A building electrical microgrid system based on photovoltaic power generation and energy storage sys-tem is designed to address the problems of low energy efficiency and poor power supply reliability in traditional building electricity use.By establishing mathematical models and conducting simulation analysis,the coordinated control strategies of various components in the system were studied.The experimental results show that the system can effectively improve the energy utilization efficiency of buildings by more than 15%,reduce greenhouse gas emissions by about 20%,and ensure the continuous and stable supply of electricity load.The system has good eco-nomic and environmental benefits,which is of great significance for promoting building energy conservation and emission reduction.
作者
韦宇政
WEI Yuzheng(Guangxi Electric Power Design and Research Institute Co.,Ltd.,China Energy Engineering Group,Nanning,Guangxi Zhuang Autonomous Region,530007 China)
出处
《科技资讯》
2025年第13期102-104,共3页
Science & Technology Information
关键词
可再生能源
建筑微电网
光伏发电
储能系统
Renewable energy
Building microgrid
Photovoltaic power generation
Energy storage system
