超导磁储能系统 Superconducting magnetic energy storage system英语短句 例句大全

超导磁储能系统,Superconducting magnetic energy storage system

1)Superconducting magnetic energy storage system超导磁储能系统

1.The Application Study on Superconducting Magnetic Energy Storage System(SMES) in the Electric Power System of Ship;超导磁储能系统在舰船电力系统中的应用研究

英文短句/例句

1.The Application Study on Superconducting Magnetic Energy Storage System(SMES) in the Electric Power System of Ship;超导磁储能系统在舰船电力系统中的应用研究

2.Sequential Kriging Optimization Method for Superconducting Magnetic Energy Storage超导磁储能系统的序贯克里金优化方法

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

4.SMES, superconductivity, quality service, utilities超导磁场储能,超导,供电质量,电力公司。

5.Optimal Design of Current Leads for Superconducting Magnetic Energy Storage Device超导储能系统用电流引线的优化设计

6.STUDY FOR A 2MJ SMES WITH QUENCH PROTECTION2 MJ超导储能磁体失超保护的研究

7.Electromagnetic and Thermal Analysis on Conduction-cooled High Temperature Superconducting Energy Storage Magnet;传导冷却高温超导储能磁体的电磁热综合分析

8.The optimal design of 300MJ HTS superconducting magnetic energy storage system300MJ环状高温超导储能磁体的优化设计

9.Application of Superconducting Magnetic Energy Storage Technology to Power System and Its Prospect超导储能技术在电力系统中的应用与展望

10.Pulse Signal Test System of Superconducting Magnet Energy Storage Based on Virtual Instrument基于虚拟仪器的超导储能脉冲信号测试系统

11.Temperature Field Simulation and Experiment Research for Magnet of Superconducting Magnetic Energy Storage(SMES)超导磁储能磁体温度场模拟与实验研究

12.Study on Quench Protection of High Temperature SMES Magnet in Power Network电网用高温超导储能磁体的失超保护研究

13.The Magnetic Susceptibility and Energy Gap of Kondo Type Heavy Fermium Supper Conducting Systems;Kondo型重费密子超导系统的磁化率和能隙

14.Multi-objective Optimal Design of Complex Micro SMES Solenoid Magnet;复合螺管式微型超导储能磁体的多目标优化

15.The research of control strategy of the superconducting magnetic energy storage in the wind system超导磁储能装置在风电场中控制策略的研究

16.Introduction of Superconductor Magnetic Energy Storage Devices and Its Research on Improving Power System Transient Stability超导储能装置介绍及其提高电力系统暂态稳定性的研究

17.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

18.Dynamic Analysis and Optimization of Thermal Stability for Conduction Cooling Magnet of SMES System直接冷却高温超导磁储能磁体热稳定性分析与优化

相关短句/例句

Superconducting magnetic energy storage system (SMES)高温超导磁储能系统

3)SMES超导储能系统

1.CARRIER-SWAPPING METHOD TO EQUALIZE CURRENT IN A MULTI-MODULAR CURRENT SOURCE CONVERTER FORSMES;超导储能系统用多模块电流型变流器载波轮换均流方法

4)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。

5)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。

6)superconducting magnetic energy storage超导磁储能

1.Study on controller ofsuperconducting 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。

延伸阅读

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。