直流局部放电测试能有效判断高压储能电容器的绝缘性能状态。
Research on Insulation Failure Mechanism and Measurement Technology of High-Voltage Storage Capacitors;
脉冲磁场是由储能电容器通过六个触发真空开关对线圈放电产生的。
Pulsed magnetic field is produced by capacitors discharge through six triggered vacuum switches to coils.
高压电源、储能电容器和至少两个电极用于产生电脉冲并将这种脉冲用于患者。
The high - voltage power supply, the storage capacitor and the at least two electrodes are used for producing an electrical pulse and applying said pulse to a patient.
心脏除纤颤器,包括高压电源、储能电容器、至少两个电极和至少一个无接触生物传感器。
Heart defibrillator comprising a high-voltage power supply, a storage capacitor, and at least two electrodes, and at least one contactless biometric sensor.
在储能电容器中,双电层电容器的储能密度特别高,但其内电阻大,且元件的输出电压低。
Electric double-layer capacitors (EDLC) exhibit very high storage energy density compared with other capacitors, but their inner resistance is rather higher and output voltage lower.
高压储能电容器作为脉冲功率系统的核心储能元件,其绝缘性能直接关系到脉冲功率系统工作可靠性。
The insulation capability of High Voltage Storage Capacitor (HVSC), which is the kernel of impulse power, determines the service reliability of impulse power system.
为了检测该电容器的性能,开发了一套在高压直流条件下进行储能电容器局部放电检测的装置,并给出了初步试验结果。
A set of HVDC detecting instrument used for storage capacitor was developed to detect the characteristic of the capacitor and the results of the first stage experiments were presented.
储能电容器的工作过程是在高压直流条件下进行较长时间充电,然后在很短的时间放电,从而在负载上形成高电压、大电流的脉冲。
As the storage capacitor charged under DC and discharges in a short time, which form a high voltage and large current pulse.
EEStor公司推测采用了这样的储能装备后,将能造出快速充电的电动汽车——这当然还是要在电容器的帮忙下。
One use of such a bank, the firm suggests, could be the rapid charging of electric cars—which would, of course, also be fitted with capacitors.
所用电容器组储能系统采用电容换流式准恒流充电回路。
The capacitor current exchange type quasi-constant current charging system was used for capacitor bank storage energy systems.
本文中对超级电容器储能技术进行了研究。
The power storage technique in super capacitors was studied in this paper.
对高储能密度电容器复合介质材料作了研究。
Composite dielectric materials for capacitors of high energy storage density has been studied.
本文采用超级电容器作为储能装置,提出了一种新型的制动能量回收系统。
A novel breaking energy recovery system, which takes the super capacitor as the energy store device, is presented here.
对储能大电流放电用高压大容量铝电解电容器,要求其漏电流小、等效串联电阻值小、电容量稳定性好、一致性好等。
As electrolytic capacitors of high voltage and capacitance for energy storage and high current discharge, lower leakage current, lower ESR and more stable and constant capacitance are required.
叙述了高压大容量储能铝电解电容器的设计与制作方法。
The design and manufacture of the energy storage aluminium electrolytic capacitor with high voltage and large capacity are described.
本文中研究了超级电容器储能系统的发电控制,其中的储能元件采用超级电容器这一新型能源器件。
This paper studies control of the energy system based on super capacitors. Super capacitor, a novel energy storage component, is used here.
超级电容器作为一种新型的储能元件,兼具了电解电容器的高功率和电池的高比能的优势。
Supercapacitors are new energy storage, combining the advantages of the high specific power of dielectric capacitors and the high specific energy of rechargeable batteries.
通过配置容量合适的蓄电池-超级电容器混合储能单元,可以提高风光互补发电系统供电的连续性和可靠性。
Through allocating suitable capacity of battery-ultracapacitor hybrid storage unit, the continuity and reliability of wind-solar complementary generation system could be improved.
辐射出去的电磁能等于电容器减少的储能。
The radiated electromagnetic energy is equal to the reserved energy which the capacitor lost.
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.
煤基活性炭在储能超级电容器中的使用拓展了其应用范围。
The use for energy storage in supercapacitors enlarges the application fields of activated carbon based on coal.
针对超级电容器用于高功率、大电流的储能场合,提出了功率约束法来分析计算超级电容器储能模块的方案。
When effect of equivalent series resistance(ESR)is impossible to ignore during the process of great current and high power released, power restriction way is applied.
本文设计的超级电容器储能系统能够同时控制有功功率和无功功率,因此它能补偿功率的波动。
This design of the super-capacitor energy storage system is useful for the compensation of fluctuating power since one is capable of controlling both active and reactive power simultaneously.
“相变储能”、“超导磁储能”、“超级电容器”、“锂离子电池”、“储能材料”等是储能技术领域的重要研究主题。
We found that phase change energy storage, superconducting magnetic energy storage, supercapacitor, lithium ion battery and energy storage materials are major research topics in this field.
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.
采用超级电容器储能的节能系统,能够在电机制动时回收制动能量,从而实现了能量的节约。
Supercapacitor based energy saving system can absorb the braking energy when motor decelerate, which achieve energy saving.
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.
基于以电容器为直流侧储能元件STATCOM在系统不对称情况下的数学模型,详细分析和解释了STATCOM在系统不对称条件下的运行特点、谐振现象以及参数对STATCOM的性能影响。
The model can be used to research the STATCOM behavior to provide theoretical guidance for optimal parameter design and to enhance STATCOM viability for asymmetric power systems.
基于以电容器为直流侧储能元件STATCOM在系统不对称情况下的数学模型,详细分析和解释了STATCOM在系统不对称条件下的运行特点、谐振现象以及参数对STATCOM的性能影响。
The model can be used to research the STATCOM behavior to provide theoretical guidance for optimal parameter design and to enhance STATCOM viability for asymmetric power systems.
应用推荐