1) SMES
超导储能
1.
Optimization on solenoid superconducting magnet for SMES;
空芯螺管型超导储能磁体的优化设计方法
2.
Application of SMES to Improve Power Quality;
超导储能在改善电能质量方面的应用
3.
APPLICATION OF SUPER CONDUCTING MAGNETIC ENERGY STORAGE SYSTEM--SMES IN WIND POWER SYSTEM OF NETWORK FORMING;
超导储能单元在并网型风力发电系统的应用
2) superconducting magnetic energy storage (SMES)
超导储能
1.
A superconducting magnetic energy storage (SMES) based control method is proposed to compensate the fluctuating loads in the power system.
提出了一种应用可控超导储能(SMES)装置对波动负载进行补偿的方法。
2.
To implement the fast bidirectional transformation of superconducting coil and power grid, a kind of current regulator is designed for the superconducting magnetic energy storage (SMES).
最后给出了1台600W的电流调节器样机的试验结果,试验结果表明,该电流调节器可以满足超导储能系统的需要。
3.
Several types of combined devices based on superconducting magnetic energy storage (SMES) are introduced, including SMES-SPS, SMES-STATCOM, SMES-UPFC and SMES-SFCL.
介绍了几种典型的基于超导储能(SMES)的超导电力组合装置,包括SMES-SPS(串联移相器),SMES-STATCOM(静止无功补偿器),SMES-UPFC(统一潮流控制器)以及SMES-SFCL(超导故障限流器)。
3) superconducting magnetic energy storage
超导储能
1.
An active power and reactive power control used in four-modular converter for superconducting magnetic energy storage system is presented.
讨论了超导储能系统用四模块组合变流器的有功功率、无功功率四象限控制的设计问题。
2.
The converter in superconducting magnetic energy storage (SMES) connects the superconducting magnet and the power system, and provides a path for the electrical power transmission between them.
在超导储能系统中换流器与电网相连,使超导储能磁体能够通过换流器与电网进行能量交换,从而实现电网谐波抑制、有功无功补偿等功能。
3.
A novel scheme is proposed to improve the damping of subsynchronous resonance(SSR)of synchronous generators with superconducting magnetic energy storage(SMES)units.
提出了一种新的应用超导储能(SMES)装置阻尼电力系统次同步谐振(SSR)的方法。
4) superconducting magnetic energy storage(SMES)
超导储能
1.
A new control strategy for superconducting magnetic energy storage(SMES)is presented.
改变了以往将超导储能装置安装在发电机出口处的策略,利用该装置与系统间有功和无功功率交换的灵活性,进行互联系统联络线的功率控制。
5) superconducting magnetic energy storage (SMES)
超导磁储能
1.
This paper proposes the method to the control scheme of superconducting magnetic energy storage (SMES), to achieve fast response to the fluctuation of system voltage.
研究了将旋转空间矢量算法应用于超导磁储能 (SMES)装置的可行性 ,比较分析了旋转空间矢量控制和传统矢量控制这两种控制算法在系统节点电压幅值或相位发生突变时的控制效果 ,讨论了旋转空间矢量算法在电压不对称条件下的适用性。
2.
Control scheme of superconducting magnetic energy storage (SMES) is very important if system voltage is asymmetrical.
电压不对称条件下超导磁储能 (SMES)的触发控制一直是个值得关注的问题。
6) superconducting magnetic energy storage(SMES)
超导磁储能
1.
This paper introduces the application of superconducting magnetic energy storage(SMES) system in balancing power fluctuating to damp power system power oscillations between the distributed generation(DG) system and power grid.
建立含超导磁储能装置(SMES)的单机无穷大系统的Phillips-Heffron模型,导出含SMES电力系统总的电磁转矩表达式,从理论上分析SMES对增强系统阻尼的作用。
2.
The 35 kJ high temperature superconducting magnetic energy storage(SMES) system with the experiment equipment was expounded.
阐述了35 kJ高温超导磁储能系统及其实验装置,通过对直接传导冷却超导磁储能磁体进行电流加载实验,对磁体进行了动态热分析。
3.
And the superconducting magnetic energy storage(SMES) is the important elements of FACTS family.
而超导磁储能系统(SMES)是FACTS家族的新型重要成员,是储能补偿装置的代表。
补充资料:超导储能(storedenergyofsuperconductivity)
超导储能(storedenergyofsuperconductivity)
由于超导磁体环流在零电阻下无能耗运行,所以超导线圈中可持久地储存电磁能,且在短路情况下运行,称超导储能。它的优点在于:⑴一次储能可长期无损耗地保存,又可瞬时放出;⑵储存能量高,现已可达107J/m3以上;⑶用低压电源励磁即可;⑷装置体积小;⑸节省了常规所需的送变电设备和减少送变电损耗。
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