摘要
全球能源格局的深刻变化和环境保护压力的不断加剧,使智能电网技术成为能源行业转型的关键支柱。在优化能源结构与推动低碳转型的过程中,智能电网凭借其高效的资源整合与创新能力展现了独特价值。因此,从技术架构、关键技术、系统规划等多维度展开深入研究,重点分析智能电网在电力生产、传输、分配及消费环节面临的主要技术瓶颈,并结合未来发展需求,提出优化策略与创新路径,以期为能源行业的智能化与低碳化转型提供系统性的理论支持与技术指导。
The profound changes in the global energy landscape and the increasing pressure on environmental protection have made smart grid technology a key pillar for the transformation of the energy industry.In the process of optimizing energy structure and promoting low-carbon transformation,smart grids have demonstrated unique value through their efficient resource integration and innovation capabilities.This article conducts in-depth research from multiple dimensions such as technical architecture,key technologies,and system planning,focusing on analyzing the main technical bottlenecks faced by smart grids in power production,transmission,distribution,and consumption.Combined with future development needs,optimization strategies and innovative paths are proposed to provide systematic theoretical support and technical guidance for the intelligent and low-carbon transformation of the energy industry.
作者
杨婷
YANG Ting(State Grid Shaanxi Electric Power Co.,Ltd.Xi′an Power Supply Company,Xi′an 710000,China)
出处
《电工技术》
2025年第S1期559-561,共3页
Electric Engineering
关键词
智能电网
技术发展
系统规划
电力系统
绿色能源
低碳转型
smart grid
technological development
system planning
power system
green energy
low carbon transformation
