摘要
分布式能源系统通过多元化能源的局部接入和利用,提升了能源使用效率,但稳定性受限。钒液流电池以其长寿命和高效调控能力,成为储能技术的重要研究方向。研究钒液流电池在分布式能源系统中的储能工作原理,重点分析其基本结构、工作原理及在负荷跟踪、能量分配、电解液自适应循环和微电网稳定性控制等方面的应用,并通过实验设计与结果分析验证其优化效果,为提高分布式能源系统的稳定性提供理论支持。
Distributed energy systems improve energy efficiency through local access and utilization of diversified energy sources,but their stability is limited.Vanadium flow batteries have become an important research direction in energy storage technology due to their long lifespan and efficient regulation capabilities.This article studies the energy storage working principle of vanadium flow batteries in distributed energy systems,focusing on analyzing their basic structure,working principle,and applications in load tracking,energy distribution,electrolyte adaptive circulation,and microgrid stability control.The optimization effect is verified through experimental design and result analysis,providing theoretical support for improving the stability of distributed energy systems.
作者
王宁
WANG Ning(Shandong Electric Power Group Co.,Ltd.,Jinan 250000,China)
出处
《电工技术》
2025年第5期34-36,共3页
Electric Engineering
关键词
分布式能源
钒液流电池
储能技术
distributed energy
vanadium flow battery
energy storage technology
作者简介
王宁(1988-),研究方向为电力工程、新能源、储能。
