特高压输电
- 网络uhv
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我国能源资源和生产力发展呈逆向分布,西部能源基地与东部负荷中心距离在1000~3000km左右,使得建立长距离、大容量的特高压输电系统成为必然。
In China , the energy resources distribution is against the productive forces development , the energy base in the west is about 1000 ~ 3000km away from the load center in the east . Therefore , the UHV transmission system with long distance and large capacity should be established .
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提出了实施特高压输电需研究的重点技术问题。
The key technical subjects for implement UHV transmission are given .
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利用机载GPS监测特高压输电线路对航空飞行的干扰
Interference Analysis to Aerial Flight Caused by UHV Lines Using Airborne GPS
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我国特高压输电工程的GIS技术
GIS Technology of UHV Transmission Engineering in China
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高分辨率SAR卫星监测特高压输电铁塔形变
Surveillance for 1000 kV Transmission Tower Deformation Using High-resolution SAR Satellite
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PDA房屋勘测数据采集系统在特高压输电线路中的应用
Application of PDA Housing Survey Data Acquisition System in UHV Transmission Lines
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±800kV直流特高压输电线路的设计
Design of ± 800 kV DC UHV Transmission Line
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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
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1000kV特高压输电线路的中相导线防雷问题研究
Study on Mid-phase Conductor Lightning Protection for 1000 kV UHV Lines
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1000kV特高压输电线路一牵八架线施工工艺
One-drag-eight Line Stringing Construction Procedures for 1000 kV UHV Transmission Line
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1000kV特高压输电线路配套金具研制
R & D of Complete Fittings for 1000 kV UHV Transmission Line
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1000kV交流特高压输电线路的防雷保护
Lightning protection of AC 1 000 kV UHV transmission line
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1000kV特高压输电线路架线施工的探讨
Discussion about 1000 kV UHV Transmission Line Stringing Construction
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1000kV特高压输电线路换位塔
Transposition Tower of 1 000 kV EHV Transmission Line
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本文利用加拿大SES公司出品的CDEGS软件包对交流超高压以及特高压输电线路就这四个方面进行了详细的仿真研究。
With Canadian SES 's CDEGS software , this paper makes detail simulation research on the four electromagnetic parameter of AC EHV and UHV transmission line .
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日本1000kV特高压输电技术
The 1000 kV UHV Transmission Technology in Japan
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煤层开采与1000kV特高压输电杆塔地基稳定性影响研究
Influence research of coal seam mining and pole foundation stability of 1000 kV UHV transmission line
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因此,过电压是750kV及特高压输电技术的关键问题,也是750kV及特高压输电线设计的决定性因素。
Therefore , over-voltage is the key and decisive factor of insulation in 750 KV & UHV power network .
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1000kV双回路特高压输电塔顺风向等效静风荷载研究
Equivalent Along-Wind Direction Static Wind Load of Transmission Tower for 1 000 kV Double Circuit Transmission Lines on Same Tower
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而且特高压输电线路两端断路器切除故障的时间差应该尽量短,一般要小于0.04~0.05s,避免过电压造成设备绝缘损坏。
The difference of tipping time between two terminal breakers should be limited within 0.04 ~ 0.05s so as to avoid equipment insulation damages caused by the over-voltage .
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介绍了国外1000kV特高压输电继电保护与监控技术的研发情况,提出了我国在这方面需要研究的有关技术问题。
The research and development of protection and monitoring technology for 1000 kV EHV power transmission abroad was introduced , and the technical problems that need to study in the aspects of protection and monitoring for 1000 kV EHV power transmission were put forward .
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特高压输电技术在南方电网的发展与应用
Development of Ultra-high Voltage Transmission Technology in China Southern Power Grid
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特高压输电塔线体系的气动弹性模型设计
An aeroelastic model design of ultra-high voltage power transmission line systems
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发展我国交流特高压输电的建议
Recommendation for the Development of AC UHV Power Transmission in China
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特高压输电技术及设备应用于工程的分析研究
Study on Engineering Application of EHV Power Transmission Technology and Equipments
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特高压输电线路继电保护特殊问题的研究
Study of special problems on protective relaying of UHV transmission line
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特高压输电线路直线塔纵向不平衡张力取值的探讨
Investigation into Longitudinal Unbalanced Tension Value of EHV Transmission Suspension Towers
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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
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浅谈我国交流特高压输电前景
Personal Opinion on Prospects of AC UHV Power Transmission in China
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特高压输电塔风振响应及等效风荷载研究
Wind-Induced Response Analysis and Equivalent Wind Loads of UHV Transmission Tower