储能系统

电池的剩余电量SOC（StateOfCharge）是储能系统最重要的状态参数，它直接预测电动汽车的续驶里程。

SOC ( State Of Charge ), the remaining capacity of energy storage system , is a direct prediction of the continued drive mileage of electric vehicles .

利用aspenplus软件构建了改进超临界压缩空气储能系统模型，揭示了关键参数对系统性能的影响规律。

The thermodynamic models of the modified supercritical compressed air energy storage systems is built in Aspen Plus software .

混合动力汽车储能系统目前存在的主要问题之一是蓄电池SOC的准确估计。

In the hybrid electric vehicle energy storage system one of the main problems is the accurate estimate of battery SOC .

基于空心变压器的初级储能系统相对于传统的初级储能装置Marx发生器来说，有着体积相对较小，所用开关数量少以及时间漂移小等优点。

The primary energy storge system based on air core transformer , compared to the Marx generator , has less volume , less switches and less jitter .

本文从飞轮储能系统的特点、复合材料飞轮转子的特性、典型飞轮转子的设计模型、价格及飞轮储能在我国的研究进展等五个方面对FRP飞轮转子作了简要介绍。

The article describes characteristics , design , price and research progress of composite flywheel from the features of flywheel energy storage system .

柔性功率调控装置（FPC）是一个大容量的飞轮储能系统。

Flexible Power Conditioner ( FPC ) is a large-capacity flywheel energy storage system .

多功能柔性功率调节器（FPC）是一个大容量低速飞轮储能系统，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 .

隔离升压型DC-DC变换器已经在储能系统以及航天电源系统等领域取得广泛应用。

The isolated step-up DC-DC converter has been widely used in fields such as energy storage system and aeronautical power supply system .

本文为提高超级电容型动力UPS的效率提供了理论公式及仿真实验结果，可以为超级电容储能系统的进一步研究提供参考。

It offered expressions and simulations for improving efficiency of super-capacitor power UPS . That could give some elicitation for further investigation of super-capacitor energy storage system .

提出了一种基于飞轮储能系统（FESS）的动态电压恢复器（DVR）的装置。

A dynamic voltage restorer ( DVR ) is developed with flywheel energy storage system ( FESS ) .

本文针对电动汽车的储能系统，提出了基于三相PWM变流器+双向DC/DC变换器的双向充放电拓扑装置，并对主电路拓扑进行了数学模型分析和参数设计。

For the energy storage system of EVs , a topological device of charging and discharging is proposed , which is based on the three-phase PWM converter and bi-directional DC / DC converter .

XH-1装置电感储能系统的电路模拟

The circuit - Code Simulation of inductive energy storage system of XH-1

本文概述了高温超导（HTS）材料在舰船上的应用研究现状和发展趋势，包括超导电缆、超导电机、超导扫雷具、电磁弹射/发射装置和储能系统等。

The status and prospects of high Tc superconducting material in marine application involving superconducting cable and motor , superconducting mine sweeper , electromagnetic launcher , energe storage system etc.

目前，在工程实际中，超级电容器储能系统中的主变流器多采用Buck-Boost拓扑结构来实现能量的双向传输。

Buck-Boost topology structure is widely used on the main converter of the super capacitor energy storage system in the actual engineering to transmiss energy two-way .

搭建了一个基于DSP控制复合储能系统小型实验平台，制作了双向DC/DC变换器主电路，电压、电流的数字采样电路，大功率系统控制信号的驱动等硬件电路。

Structures of a DSP-based control of complex energy storage system in small experimental platform , has produced a bidirectional DC / DC converter main circuit , voltage , current digital sampling circuit , high power system control signal drivers and other hardware circuitry .

超导限流储能系统（SFCL-MES）是将超导储能系统与桥路型超导限流器集成起来实现的，二者共用一个超导磁体。

The dynamic model integration and optimization of superconducting fault current limiting-magnetic energy storage ( SFCL-MES ) are studied .

35kJ／7kW直接冷却高温超导磁储能系统

35 kJ / 7 kW Conduction-cooled High T_c Superconducting Magnet Energy Storage

为了充分发挥分布式电源的作用，可将若干分布式电源、储能系统和负载等连接在一起，构成微电网（Microgrid）。

In order to take full use of the distributed power , a number of Distributed Resources ( DRs ), energy storage systems and loads were connected to constitute a micro-grid ( Microgrid ) .

分散储能系统DESS是解决智能配电网大规模、小容量分布式发电DG并网运行问题的关键技术。

DESS ( distributed energy storage system ) is the key technology to solve the problem of Large scale and small volume DG 's parallel operation in Smart Grid .

大功率双向DC-DC变换器在电动汽车、储能系统、电能质量调节、可再生能源发电以及超导储能系统等领域具有广阔的应用前景。

High power Bi-directional DC-DC converter can be applied in the fields of the electric vehicles , electric storage systems , electric power quality regulation systems , renewable energy generation systems , superconductor electric power systems , and so on .

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 .

为了试验超导限流储能系统（SFCL&MES）的基本原理，设计了1台220V／25A／6kW的SFCL-MES模型样机。

A 220 V / 25 A / 6 kW prototype of superconducting fault current limiting-magnetic energy storage ( SFCL-MES ) model is designed to test the basic principle of SFCL-MES .

搭建了在风电场出口处集中配置VRB储能系统平滑风电场输出功率的仿真模型，并通过仿真验证了所提出储能系统变流器控制策略的正确性和有效性。

The simulation model is built which VRB ESS are equipped at the outlet of wind farm to smooth output power . The simulation results show that the proposed control strategy of AC / DC PWM converter is correct and effective for VRB ESS .

对于风电场有功功率控制方面，本文在双馈感应电机（DFIG）风电场的交流侧接入飞轮储能系统（FESS），研究了一种新的风电场输出功率平滑控制策略。

In the respect of active power control of wind farm , flywheel energy storage system ( FESS ) was connected to AC side of the doubly-fed induction generator ( DFIG ) wind farm . Anew smooth control strategy to level the wind power fluctuation was studied .

将这三种调制方式用于现有飞轮储能系统电机的控制中，通过实验结果来验证pwm-on-pwm调制方式的适用性。将模糊PI混合控制用于速度环的控制，进行了相应的仿真。

Combination of simulation , this method was used to the motor control of the flywheel energy storage system , which verified the applicability of the modulation , the hybrid Fuzzy PI control system was built for the speed loop control , and the corresponding simulation was done .

超级电容器储能系统（SCES）具有快速反应、高功率输出、高效率等优点，能够同时输出有功功率和无功功率，不仅可以补偿电压暂降，也可以应对冲击负荷与瞬时停电。

Super capacitor energy storage ( SCES ) has the advantage of quick response , high power output , high efficiency and the ability to output both active and reactive power . SCES can not only compensate the voltage sag , but also cope with impact load and temporary outage .

阐述了35kJ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。

The 35 kJ high temperature superconducting magnetic energy storage ( SMES ) system with the experiment equipment was expounded . The dynamic heat analysis of the magnet of SMES was conducted through the current load test on the directly conduction cooled magnet .

电感储能系统用电爆丝断路开关的研究

Study of exploding metallic fuses used in inductive energy storage system

超级电容器储能系统发电控制的研究

Research on Control of the Energy System Based on Super Capacitors

分布式钠硫电池储能系统在美国的安装与应用

Installation and application of distributed NAS energy storage systems in USA