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   储能飞轮系统 的翻译结果: 查询用时:0.621秒
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储能飞轮系统
相关语句
  flywheel energy storage
     Progression of Research on Flywheel Energy Storage System
     磁悬浮储能飞轮系统研究进展
短句来源
  “储能飞轮系统”译为未确定词的双语例句
     DYNAMICS ANALYSIS OF ACTIVE MAGNETIC SUSPENSION FLYWHEEL
     电磁悬浮储能飞轮系统的动力学分析
短句来源
     In order to improve the efficiency of FESS, the support method of FESS is a important technologies.
     为提高储能飞轮系统的使用效率、降低损耗,需要研究低损耗轴承支承技术。
短句来源
     (4) A prototype hybrid magnetic bearing is manufactured in the application of 15Nms satellite attitude control and energy storage flywheel system which can operate stably up to 25000r/min. The compared experiments are carried out between the flywheel system suspended by the prototype hybrid magnetic bearing and suspended by the active one.
     ④ 研制了用于15Nms角动量、25000r/min额定转速的卫星姿控储能飞轮系统的混合磁轴承样机,并与原电励磁磁悬浮轴承支撑的飞轮系统进行了对比试验。
短句来源
     Due to the limitation of energy-emitting components,energy-saving flying wheel system is highly nonsymmetrical in the processes of acceleration and deceleration.
     受放能元件饱和限制,储能飞轮系统升、降速过程具有很强的非对称特性。
短句来源
  相似匹配句对
     Summarization of Research on Flywheel Energy Storage System
     飞轮系统研究综述
短句来源
     Progression of Research on Flywheel Energy Storage System
     磁悬浮飞轮系统研究进展
短句来源
     ENERGY CONVERSION UNIT OF FLYWHEEL ENERGY STORAGE SYSTEM
     飞轮系统量转换环节
短句来源
     The Reaserch of the Electronic Control System on the Magnetic Bearing of the Fess
     飞轮磁悬浮轴承电控系统研究
短句来源
     DYNAMICS ANALYSIS OF ACTIVE MAGNETIC SUSPENSION FLYWHEEL
     电磁悬浮飞轮系统的动力学分析
短句来源
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  flywheel energy storage
Study on electromechanical coupling nonlinear vibration of flywheel energy storage system
      
The electromechanical coupling dynamics of the flywheel energy storage system (FESS) with a hybrid permanent magnetic-dynamic spiral groove bearing has been studied.
      
Stability of a transport facility with flywheel energy storage
      
Fiber reinforced elastomeric matrix composites (EMCs) offer several potential advantages for construction of rotors for flywheel energy storage systems.
      
Melt-textured, bulk high-temperature superconductors are finding increasing uses in superconducting bearings, flywheel energy storage, and other levitational applications.
      
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  flywheel energy storage system (fess)
The electromechanical coupling dynamics of the flywheel energy storage system (FESS) with a hybrid permanent magnetic-dynamic spiral groove bearing has been studied.
      


In order to keep the attitude of satellite and store en-ergy, the Brushless DC (BLDCM) applied on storage flywheelsystem should serve as drive motor and generate motor . BLD-CM digital control system based on DSP TMS320LF2407 appliedin storage flywheel is discussed. The speed control algorithm andcommutation of sensor is realized by DSP. Power drive is real-ized by IPM.

储能飞轮系统为了实现卫星飞行姿态控制和能量储存,要求系统中的无刷直流电机同时具有电动和发电两种功能。本文研究了基于DSP储能飞轮用无刷直流电机的数字控制系统。DSP实现控制PI算法和软件换相,功率驱动由IPM实现。

Due to the limitation of energy-emitting components,energy-saving flying wheel system is highly nonsymmetrical in the processes of acceleration and deceleration.Proposes a method to control the system by combining the processes of acceleration and deceleration through software.It constructs corresponding control system.Experiment shows that it is feasible to apply this combined control method to high moment of inertia nonsymmetrical movement flying wheel system.Compared with other single model this method can...

Due to the limitation of energy-emitting components,energy-saving flying wheel system is highly nonsymmetrical in the processes of acceleration and deceleration.Proposes a method to control the system by combining the processes of acceleration and deceleration through software.It constructs corresponding control system.Experiment shows that it is feasible to apply this combined control method to high moment of inertia nonsymmetrical movement flying wheel system.Compared with other single model this method can save about 12% responding time with other parameters slightly affected.

受放能元件饱和限制,储能飞轮系统升、降速过程具有很强的非对称特性。针对这种运动非对称大惯量系统,提出一种把升、降速单一模型通过软件复合对系统进行控制的方法,并构建了相应的控制系统。实验结果表明:这种复合控制方法运用在大惯量、运动非对称飞轮系统中是可行的,同单一模型控制相比,在其他指标变化很小的情况下响应时间减少约12%。

 
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