本文提出了一种基于超导线圈与可控电力变换器储能系统的主要元件。
This article presents the main elements of an energy storage system based on a superconducting coil and a controlled power converter.
从超级电容器储能系统的运行机理出发,设计了含双向DC - AC - DC变换器的超级电容器储能系统主电路结构,并建立了其统一模型。
According the operation mechanics of the SCES system, its main circuit containing bi-directional DC-AC-DC converter was designed and its unified model was built.
本文分析了超级电容器储能系统的运行原理,并将超级电容器储能系统的电路结构分为换流器,双向直流变直流变换器和双电层电容器组三个部分。
This paper analyzes the operating principle of super capacitor system, and divides into three parts of inverter, bi-directional dc-dc converter and Electric Double Layer Capacitors.
本文介绍了光伏组件的配置、光源的选择、储能装置的选用、控制器的设计以及整个系统的设计方法,希望能给读者以参考。
This paper introduces how to choose the PV module, the light source, the energy storage equipment and how to design the controller and the whole system, and I hope it will g.
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.
建立了基于功率变换器的有源式超级电容器-蓄电池混合储能系统的模型,并对控制环节进行了设计,提出了一种在脉动负载下蓄电池恒流输出的控制策略。
A mathematical model of the actively controlled battery-ultracapacitor hybrid energy storage system based on a power converter was set up, and the control loop was designed.
多功能柔性功率调节器(FPC)是一个大容量低速匕轮储能系统,也是一种新型FACTS装置。
The multi-functional flexible power conditioner (FPC), which is a large-capacity low-speed flywheel energy storage system, is a novel FACTS device.
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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