本白皮书系统分析了2025年全球通信站点储能系统的发展现状与安全挑战。报告指出,通信站点储能系统需具备无人值守、极端环境适应、分布式部署和持续供电四大核心特性,与传统储能系统存在显著差异。随着锂电池在通信领域快速普及,安全隐患日益凸显,其中锂枝晶、电芯一致性差异和磁性异物是主要事故诱因。报告提出从准入认证、采购选型到运行运维的全生命周期安全管控建议,强调电芯一致性、热失控触发温度等关键指标的重要性。市场格局方面,华为、双登等头部厂商凭借系统设计与智能化能力处于领先地位。未来行业将呈现四大趋势:备储融合使站点从被动备电转向主动调节资源;绿色能源推动站点低碳转型;欧盟电池法规引领回收标准趋严;钠离子电池等新型电池体系为差异化场景提供补充方案。
This white paper systematically analyzes the development status and safety challenges of global telecom site energy storage systems in 2025. The report identifies four core characteristics of telecom site storage systems: unattended operation, extreme environment adaptation, distributed deployment, and continuous power supply, which differ significantly from conventional energy storage systems. As lithium batteries rapidly proliferate in the telecommunications sector, safety hazards have become increasingly prominent, with lithium dendrites, cell consistency variations, and magnetic contaminants being the primary accident causes. The report proposes full-lifecycle safety management recommendations covering access certification, procurement selection, and operational maintenance, emphasizing critical indicators such as cell consistency and thermal runaway trigger temperatures. In terms of market landscape, leading vendors like Huawei and Shuangdeng maintain dominant positions through system design and intelligent capabilities. Looking ahead, the industry will exhibit four major trends: backup-storage integration transforming sites from passive backup to active grid resources; green energy driving low-carbon site transformation; EU battery regulations leading to stricter recycling standards; and emerging battery chemistries such as sodium-ion batteries providing complementary solutions for differentiated scenarios.
如果您对中国通信站点储能市场有进一步的研究需求,请联系我们:
沙利文 王先生
E-mail: walter.wang@frostchina.com
