特高压输电技术

日本1000kV特高压输电技术

The 1000 kV UHV Transmission Technology in Japan

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 .

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

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

特高压输电技术在我国的实施及展望

Application and Prospects of Uhv Power Transmission Technique in China

特高压输电技术的研究与我国电网的发展

Research on UHV Transmission Technology and Development of Power Network in China

特高压输电技术研究

The research of UHV power transmission technique

特高压输电技术的试验研究以及特高压设备的绝缘考核对交流试验电源提出了更高的要求。

Testing researches for UHVAC transmission technologies and dielectric assess of UHVAC equipments raise higher requests for AC-testing supplies .

随着特高压输电技术的引进和标准电力市场建设的不断推进，区域电力市场中的输电定价问题变成了区域电力市场规范运作的核心问题。

With the introduction of over-voltage power transmission and development of standard electricity market , the regional transmission pricing problem became a key problem in regional electricity market .

特高压输电技术对环境影响具有相当大的优势，可以更加高效地利用可再生能源、降低对化石能源的依赖。

Power transmission at ultrahigh voltage levels has considerable advantages for the environment as it enables more efficient use of renewable energy sources and reduces dependency on fossil fuels .

随着电网系统大区域互联和特高压输电技术的发展，网络时间同步技术在电力系统中得到了广泛应用，同时对系统实时性也提出越来越高的要求。

With the development of large area interconnected power system and the UHV transmission technology , network time synchronization is applied widely . At the same time , the real-time performance of system is strictly required .

选取山东超高压输电分析及引入特高压输电技术进行了实证分析，最后提出了两种输电方式科学合理规划使用的意见和建议。

Analysis of selected EHV transmission in Shandong Province and the introduction of special high-voltage transmission technology carried out an empirical analysis , concludes with two kinds of transmission methods used in scientific and rational planning advice and suggestions .

国家电网公司积极转变电网发展方式，在特高压输电技术取得重大突破、试验示范工程成功投运并稳定运行的基础上，确立了建设统一坚强智能电网的发展战略。

The State Grid change the grid develop style actively , base on a important break in ultra-high voltage transmission technology , a successful commissioning and stable operation of the pilot project , establish the united firm intelligent grid construction develop strategy .

特高压输电技术和串联电容补偿技术部是提高输电线路传输容量、改善电力系统稳定性的有效措施，同时又都给输电线路继电保护提出了新的更高的要求。

Both ultra-high-voltage ( UHV ) transmission technology and series compensation are effective measures to improve the transmission capability of transmission line and stability of power system . At the same time , both of them put forward more requirements for transmission line protection .

特高压输电技术具有传输容量大、传输距离远、传输损耗低等优点，但是，随着特高压输电的快速发展，线路带来了一系列电磁环境问题，电晕放电是其产生的主要原因之一。

Ultra high voltage technology has the advantages of large capacity , long distance and low loss , however , with the rapid development of ultra high voltage , a series of electromagnetic environment problems has brought up , the corona discharge is one of the main causes .

日本特高压交流输电技术的研究与实践（上）&参加对日咨询的考察见闻

Research and Application of UHV AC Transmission Technologies in Japan

特高压直流输电技术具有广阔的应用前景。

There will be extensive space for UHVDC application .

特高压直流输电技术和工程应用

The Technology and Engineering Application of Ultra HVDC Transmission

国外特高压交流输电技术工程简介

Brief Introduction of Overseas Extra-high Voltage Transmission Project

无功功率平衡和电压控制是研究特高压交流输电技术十分重要的内容。

Reactive power balance and voltage control are very important research contents of UHV AC transmission line .

现阶段，我国电力工业在新能源发电和特高压远距离输电技术方面均居世界前列。

This stage , China 's power industry in large-scale new energy power generation and high voltage long distance power transmission technology keeps a world-leading position .

要充分开发利用我国水电“富矿”为华东地区的经济发展服务，前提是发展超（特）高压输电技术。

For the development of East China , great effort should be made to exploit " rich mine " of hydro-resources , therefore EHV and UHV transmission techniques should be developed .

红外监测特高压输电线路绝缘子技术的探讨

Infrared Monitoring of UHV Transmission Line Insulator

我国特高压输电工程的GIS技术

GIS Technology of UHV Transmission Engineering in China

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 .

特高压输电线路在线监测技术的应用新建铁路干线一次铺设跨区间无缝线路技术

Application of On-Line Monitoring Technologies for UHV AC Transmission Lines Constructional technology of laying a new rail link between cross-CWR