3) 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。
4) 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。
5) superconducting magnetic energy storage
超导磁储能
1.
Study on controller of superconducting magnetic energy storage based on feedback linearization;
基于反馈线性化的超导磁储能装置控制器研究
2.
Superconducting magnetic energy storage can quickly respond to the power requirementsof power system, which will improve the security and stability of power grid.
超导磁储能系统以其对系统功率需求的快速响应特性可以为提高电力系统的稳定性提供新的技术途径,同时对改善电能质量、提高可靠性也有很好的技术优势。
6) SMES
超导磁储能
1.
Adaptive PID control based on DRNN for SMES;
基于DRNN的超导磁储能装置自适应PID控制
2.
Thermal Analysis and Calculation Optimization for Magnet of SMES Cooled by Cryocooler;
高温超导磁储能直接冷却磁体热力分析与计算优化
3.
Design and Implementation of SMES System;
高温超导磁储能装置监控系统的设计与实现
补充资料:实验室高场超导磁体——15.5T磁体(1985)
实验室高场超导磁体——15.5T磁体(1985)
实验室高场超导磁体一f 5 5T磁体 r1 9851
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