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摘要:
随着电网新技术的发展,分布式储能成为推进智能电网建设,增强电网优化配置的重要依托技术。针对广东电网目前对新能源接入、提高电能质量、供电可靠性等方面的需求,提出分布式储能是满足上述需求的重要技术手段,介绍了储能设备的主要分类、特点及功能,并结合实例,对分布式储能设备在各领域的具体应用进行了研究,最后对分布式储能设备在广东省的发展提出了指导性意见。 Abstract:With the development of power grid technology, distributed energy storage becomes an important technical support which promotes smart grid construction and enhances the optimal allocation of grid. In this paper, based on the requirements of new energy access, improving power quality, improving the reliability of supplying electric and power distribution station in Guangdong power grid, presents that distributed energy storage is an important technical means to meet the above requirements, introduces the categories, features and functions of the energy storage device, combined with examples, the specific applications of distributed energy storage device in various fields has been studied, finally presents the guided suggestions to the development of distributed energy storage device in Guangdong Province. -
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图 4 光伏及储能设备配合接入配网侧示意图
Figure 4. Interconnection Diagram of Storage Device and PV to Grid
表 1 典型分布式储能系统的性能特征参数
Table 1
Performance parameters of typical distributed energy storage syetem 储能方式 典型功率/MW 能量密度/(W·h·kg-1) 使用寿命/次 效率/% 安全性 维护量 对环境有无污染 飞轮储能 0.005~1.5 5~50 10 000 90 一般 较大 无 超级电容器 0.01~1 2~5 10 000 95 高 小 无 铅酸蓄电池 0.1~1 100 1 000 70 高 较小 有 钠硫电池 0.1~10 760 5 000 90 一般 大 无 铁锂电池 0.1~10 500 4 000 85 较高 较大 无 液流电池 0.1~100 100 13 000 80 高 较大 无 
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表 2 仿真结果
Table 2
Simulation Results 时间/s 光伏出力 储能充电功率 储能功率占比/% 母线电压/额定电压/% 电压是否越限 0 0 0 0 99.75% 否 5 140 0 0 106% 否 10 160 0 0 106.5% 否 15 180 0 0 107.5% 是 20 200 0 0 108.25% 是 25 220 0 0 109.25% 是 27 220 30 13.6% 108% 是 32 220 60 27.3% 107% 否 37 220 90 40.9% 105.75% 否
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