本文介绍了飞轮储能系统的能量转换环节。
The energy conversion unit of the flywheel energy storage system is described in this paper.
本文对五自由度飞轮储能系统模块进行了动力学分析。
The dynamic characteristic of the active magnetic suspension flywheel energy storage system was studied in this paper.
基于飞轮储能系统里矢量控制的感应电机,建立了系统的数学模型。
A mathematical model of the system was built using a vector-controlled induction machine driving a flywheel.
对永磁-机械动压轴承混合支承式飞轮储能系统的转子动力学问题进行研究。
Permanent magnetic bearing and the hydrodynamics spiral groove bearing are utilized as supports for the energy storage flywheel rotor system.
更重要的是,飞轮储能系统除可降低峰值功率要求,从而节省空闲期间的能量。
More importantly, the addition of a flywheel energy storage system lowers the peak power requirements which saves energy during idle periods.
磁悬浮球是磁悬浮列车,磁悬浮轴承,磁悬浮飞轮储能系统,磁悬浮发射等一切磁悬浮研究的基础。
Magnetic levitation ball is the foundation of magnetic levitation train, magnetic bearing, magnetic flywheel storage system, magnetic levitation launch.
结合无刷直流电机双闭环调速系统和风电场功率控制要求设计了飞轮储能系统充电运行的控制方案。
According to the double closed loops speed regulation system and requirements for the power control for the wind farm, a novel control strategy for the charging process of the FESS is designed.
复合材料飞轮在许多方面有着广泛的应用,如飞轮储能系统中的飞轮转子、高速旋转机械中的转子等。
The composite flywheel has applied to many fields, such as flywheel rotor in flywheel energy storage systems, rotor in high speed rotating machines.
涉及一种用于在超导磁悬浮列车、超导轴承、飞轮储能系统、超导电机转子等方面具有潜在的实用性的材料的制备方法。
It could be widely applied to superconductive magnetic levitation vehicle, superconductive bearing, flywheel energy-storage system, superconductive generator rotor, etc.
为抑制飞轮储能系统驱动电机——高转速无刷直流电机能量回馈时的转矩脉动,提高系统的稳定性,提出一种适合高转速飞轮储能单元回馈制动的控制方法。
An energy feedback control scheme was developed for high speed brushless direct current motors used in flywheel energy storage systems to restrain the pulsating torque and improve the stability.
飞轮储能式柔性功率调节器(FPC)是一种以储能原理为基础的电力系统稳定控制装置。
Flywheel type flexible power conditioner (FPC) is a power system stability control device based on the energy storage theory.
系统中飞轮是姿态控制的执行机构,同时也是储能装置。
The flywheels are used as attitude control actuators as well as energy storage device.
提出了一种基于动能反馈的储能功率规划方案来保证系统的能量平衡,可以避免由于过剩能量引起的飞轮饱和。
A management scheme for energy storage power using kinetic energy feedback is proposed to keep energy balance, which can avoid wheel saturation caused by superfluous energy.
设计了基于永磁无刷直流电机的飞轮储能单元的能量转换控制系统。
In this paper, an energy converter system for flywheel energy storage system (FESS) using permanent magnet brushless DC motor (BLDCM) is designed.
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。
In order to keep the attitude of satellite and store energy, the Brushless DC (BLDCM) applied on storage flywheel system should serve as drive motor and generate motor.
基于飞轮储能的动态电压恢复器的传统拓扑结构采用辅助整流器给飞轮充电,提高了系统的复杂程度,也增加了成本。
In traditional topology of the dynamic voltage restorer(DVR) with flywheel energy storage(FES), a special rectifier is utilized to charge the FES. It increases the complexity and cost of the system.
基于飞轮储能的动态电压恢复器的传统拓扑结构采用辅助整流器给飞轮充电,提高了系统的复杂程度,也增加了成本。
In traditional topology of the dynamic voltage restorer(DVR) with flywheel energy storage(FES), a special rectifier is utilized to charge the FES. It increases the complexity and cost of the system.
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