1) vanadium energy storage system (VESS)
钒电池储能系统(VESS)
2) battery energy storage system
蓄电池储能系统
1.
Then the battery energy storage system is presented emphatically and according to its own characteristics of distributed power generation system, a method of battery model is proposed which is based on the software of Visual C++ which combines Shepherd equation and Peukert experiential expressions.
着重介绍了蓄电池储能系统,并且根据分布式发电系统自身的特点,结合Shepherd方程和Peukert经验公式提出了基于VisualC++软件开发的蓄电池模型。
2.
Stand alone system with the distributed generation and the battery energy storage system (BESS) is widely applied in the world.
依靠分布式电源发电和带蓄电池储能系统的孤立网络在国际上得到了广泛的应用。
3) BESS
[英][bes] [美][bɛs]
电池储能系统
1.
Battery Energy Storage System (BESS) can regulate active power and reactive power in power system.
电池储能系统(Battery Energy Storage System,BESS)可以同时对有功功率和无功功率进行调节,能够运行在四个象限。
4) energy storage cell
储能电池
1.
Porous carbon electrodes for sodium polysulfide-bromine redox flow energy storage cell;
多孔碳电极用于多硫化钠-溴储能电池
2.
Sodium polysulfide-bromine energy storage cell stack;
多硫化钠-溴储能电池组
3.
Study on high efficiency sodium polysulfide/bromine energy storage cell;
高效率多硫化钠/溴储能电池的研究
5) battery energy storage system
电池储能
1.
The PEBB(power electronic building block)technology is applied in the development of converter for battery energy storage system and a novel converter for battery energy storage system based on PEBB is designed.
将PEBB(电力电子组块)技术应用到电池储能变流器的开发领域,设计了基于PEBB的电池储能变流器,克服了传统变流器的一系列缺点。
补充资料:电力系统储能
电力系统储能
energy storage for elec-tric power system
负荷时维持高效率,减少开停机次数,保持平稳运行,增长使用寿命,同时可减少电力系统的总装机容量。在实行分时电价的电力系统中,由于电力系统储能可将低谷负荷时的低价电能转换成高峰负荷时的高价电能,所以在经济上也是合理的。 20世纪末已经在应用和正在研究开发的电力系统储能技术较多,表中对几种主要的储能技术进行了概略比较。电力系统中的储能技术概括起来可由以下主要指标进行比较和判定:①输人和输出能量的形态、难易程度和密度;②响应速度,即达到一定输人或输出所需要的时间;③能量储存密度,即单位质量或单位体积储存的能量;④可能储存的时间及储存中的能量损耗;⑤能量放出后可否再生及其难易程度;⑥长期可靠性和安全性等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条