摘要
为提升电力系统稳定性,促进可再生能源消纳,对电力系统新型储能技术的创新与应用进行研究。研究结果表明,新型固态电池技术能量密度显著提升,循环寿命延长,混合储能系统优化配置后,可有效平滑可再生能源出力波动,提升电网调峰能力,为电力系统储能技术创新提供理论支撑与实践指导,推动储能技术在电力领域更广泛、高效应用,助力能源结构转型。同时,储能系统在电网调峰、调频、黑启动及分布式能源接入等场景应用中发挥作用,有效平滑功率波动、增强电网弹性,推动储能技术多元化发展,以适配电力系统变革需求。
To enhance the stability of the power system and promote the consumption of renewable energy,the innovation and application of new energy storage technologies in the power system are studied.The research results show that the energy density of the new solid-state battery technology has been significantly improved,and the cycle life has been extended.After the optimized configuration of the hybrid energy storage system,it can effectively smooth out the output fluctuations of renewable energy,enhance the peak shaving capacity of the power grid,provide theoretical support and practical guidance for the innovation of energy storage technology in the power system,promote the wider and more efficient application of energy storage technology in the power field,and contribute to the transformation of the energy structure.Meanwhile,energy storage systems play a role in various scenarios such as peak shaving,frequency regulation,black start,and distributed energy integration in the power grid,effectively smoothing power fluctuations,enhancing grid resilience,and promoting the diversified development of energy storage technologies to meet the demands of power system transformation.
出处
《科技创新与应用》
2025年第34期49-52,共4页
Technology Innovation and Application
关键词
电力系统
储能技术
设备性能
响应速度
容量配置
储能控制
power system
energy storage technology
equipment performance
response speed
capacity allocation
energy storage control
