特高压

tè gāo yā
  • Ultra-high voltage;extra-high voltage;extreme high voltage
特高压特高压
特高压[tè gāo yā]
  1. 特高压输电&电能传输的高速公路

    Power Transmission with Extra-high Voltage & the Superhighway for Power Transmission

  2. 国外特高压交流输电技术工程简介

    Brief Introduction of Overseas Extra-high Voltage Transmission Project

  3. 特高压变电站GIS设备基础大体积混凝土温度裂缝控制

    Thermal crack control of mass concrete foundations of UHV substation GIS equipments

  4. 特高压GIS设备雷电冲击试验波形及参数探讨

    Analysis and Parameter Discussion on Lightning Impulse Test Wave of UHV GIS Equipment

  5. 特高压GIS隔离开关的电场特性及绝缘性能研究

    The Research of Electric Field and Insulation Characteristic for Ultra High Voltage Disconnector

  6. 我国特高压输电工程的GIS技术

    GIS Technology of UHV Transmission Engineering in China

  7. 特高压拉V塔空气间隙外绝缘特性研究

    Study on External Insulation Characteristics of Air Gap for EHV Pull V Tower

  8. 特高压避雷器用ZnO压敏电阻电压梯度限值的探讨

    Analysis on Voltage Gradient Limitation of ZnO Varistor in Ultra High Voltage Arrester

  9. 在特高压输变电系统中,GIS设备的安全可靠性是特高压电网稳定运行的基础。

    In the ultra-high voltage power grid , the reliability and security of the GIS equipment is the basic of the power transmission system running .

  10. 要解决这一矛盾的最好办法,就是发展特高压(UHV)输电技术。

    The best way of resolving the contradiction is to build UHV projects .

  11. 特高压互联电网联络线功率控制(二)AGC性能评价

    Active Power Control for Tie-lines in UHV Interconnected Power Grid Part Two AGC Performance Assessment

  12. SVC对特高压紧急直流功率支援的影响

    Influence of SVC on UHV emergency DC power support

  13. 气动电磁换向阀可靠性试验台自动测控系统特高压磁阀式可控电抗器自抗扰DSP控制系统

    Controlling and Testing System for Reliability Test-bed of Pneumatic Solenoid Directional Control Valve Application of UHV magnetic-valve controllable reactor based on auto-disturbance rejection floating point DSP

  14. 特高压大跨距OPGW的结构设计和制造

    Configuration design and manufacture of OPGW used in UHV and long span systems

  15. EMTP在特高压交流输电研究中的应用

    Application of EMTP in the Research of UHV AC Power Transmission

  16. 特高压电网通信方案及OPGW工程技术的研究

    Research of the telecommunication system on ultra high voltage grid and OPGW engineering technology

  17. 环氧-聚砜结构胶粘剂耐环境性能的研究特高压环境下OPGW耐雷性能分析

    Durability of epoxy-polysulfone structural adhesive Analysis of withstand-lightning capability of OPGW in ultra high voltage grid

  18. 随着国内外超、特高压技术的发展,气体绝缘变电站(GasInsulatedSubstation,简称GIS)的应用越来越普遍,与此同时也带来了一些问题。

    With the development of EHV or UHV at home and abroad , gas insulated substation ( GIS ) used widely , at the same time a new failure are born .

  19. SF6的应用范围几乎贯穿中压、高压及特高压电器设备。

    SF6 range of applications in virtually through pressure , high pressure and ultra high voltage electrical equipment .

  20. 特高压变电所应适当增加MOA数量,以减小雷电侵入波过电压。

    The quantity of MOA installed in UHV substation should be increased to suppress the lightning invaded over-voltage .

  21. 对其技术开发过程进行了描述,对应用在特高压线路和上的OPGW的设计要求、应考虑的问题进行了分析。

    The paper described its technology exploitation course , analyzed design requirement and considerable questions on application OPGW for UHV .

  22. 最后,给出了2010年水平特高压电网的GIC初步评估结果。

    Finally , I assess the result of the GIC in the 2010 planning ultra-high voltage power grid .

  23. ±800kV特高压直流输电系统用直流断路器研究

    Study on DC Circuit Breaker for ± 800 kV UHV DC System

  24. 关于我国电网500kV以上采用特高压配合的初探

    Inquiring into the Use of UHV above 500 kV power System in China

  25. ±800kV直流特高压输电线路的设计

    Design of ± 800 kV DC UHV Transmission Line

  26. 500kV超高压送变电工程环境影响评价超高压及特高压输电线路的电磁环境研究

    A Study on Environmental Impact Assessment on 500 kV Extra-high Tension Power Transmission Engineering

  27. ±800kV特高压直流线路缓波前过电压和绝缘配合

    Slow Front Overvoltage and Insulation Coordination of ± 800 kV UHV DC Transmission Line

  28. ±800kV云广特高压直流线路基础选型研究

    Discussion on Type Selection of Towers Foundation of ± 800kV Yun-Guang UHV DC Power Transmission Line

  29. 云广±800kV特高压直流线路通信干扰计算

    Calculation of Telecommunication Interference Caused by Yunnan-Guangdong ± 800 kV Ultra High Voltage DC Transmission Link

  30. 云广±800kV特高压直流输电线路耐雷性能研究权力的概念、产生和制约

    Research on Lightning Withstand Performance of ± 800 kV Ultra HVDC Power Transmission Line from Yunnan to Guangdong