特高壓輸電技術(shù)發(fā)展與展望(英文版)
定 價(jià):280 元
叢書(shū)名:全球能源互聯(lián)網(wǎng)關(guān)鍵技術(shù)系列報(bào)告
- 作者: 全球能源互聯(lián)網(wǎng)發(fā)展合作組織(Global Energy Interconnection Development and Cooperation Organization) 編
- 出版時(shí)間:2020/10/1
- ISBN:9787519850746
- 出 版 社:中國(guó)電力出版社
- 中圖法分類(lèi):TM723
- 頁(yè)碼:209
- 紙張:膠版紙
- 版次:1
- 開(kāi)本:16開(kāi)
With the continuous consumption of fossil energy, increasingly severe climate change and worsening environment pollution, the human being has put forward higher requirements for reliable, environmentally friendly and sustainable energy, bringing global energy interconnection into being. The core of sustainable development is clean development. UHV transmission technology is critical for the reliable and efficient delivery of clean energy, and it is of great significance to promote its global allocation.
After a century of development, the transmission technology of power system has made great progress in terms of voltage level, transmission capacity and distance. As for UHV AC power transmission technology, UHV DC transmission technology, flexible AC and VSC DC transmission technology, their respective voltage and transmission capacity have exceeded 1000 kV/5000 MVA, :tll00 kV/12000 MW and +800 kV/5000 MW. Flexible AC transmission technology has started to be applied in 1000 kV projects. The development of UHV power transmission technology provides a strong support for the world's large-scale energy development and long-distance transmission, facilitates a large-scale optimization of energy allocation, and greatly improves the reliability and economic efficiency of power supply in human society.
With the continuous consumption of fossil energy, increasingly severe climate change and worsening environment pollution, the human being has put forward higher requirements for reliable, environmentally friendly and sustainable energy, bringing global energy interconnection into being. The core of sustainable development is clean development. UHV transmission technology is critical for the reliable and efficient delivery of clean energy, and it is of great significance to promote its global allocation.
After a century of development, the transmission technology of power system has made great progress in terms of voltage level, transmission capacity and distance. As for UHV AC power transmission technology, UHV DC transmission technology, flexible AC and VSC DC transmission technology, their respective voltage and transmission capacity have exceeded 1000 kV/5000 MVA, :tll00 kV/12000 MW and +800 kV/5000 MW. Flexible AC transmission technology has started to be applied in 1000 kV projects. The development of UHV power transmission technology provides a strong support for the world's large-scale energy development and long-distance transmission, facilitates a large-scale optimization of energy allocation, and greatly improves the reliability and economic efficiency of power supply in human society.
PREFACE
SUMMARY
1 UHV AC Power Transmission Technology
1.1 Overview
1.1.1 International Exploration
1.1.2 Development in China
1.2 Technology Innovation
1.2.1 Key Technologies on System Research
1,2.2 Key Technologies on Overvoltage and External Insulation
1.2.3 Key Technologies on Electromagnetic Environment
1.2.4 Key Equipment Research and Development Technology
1,2.5 Complete Set of System Integration Technology
1.3 Gore Equipment
1.3.1 Transformer
1.3.2 GIS
1.3.3 Circuit Breaker
1.3.4 Isolating Switch
1.3.5 Lightning Arrester
1.3.6 Post Insulator
1.3.7 Bushing
1.3.8 Voltage Transformer
1.3.9 Current Transformer
1.3.10 Tower
1.3.11 Conductor
1.3.12 Insulator
1.4 Test System
1.5 Standard System
1.6 Typical Projects
1.6.1 Southeast Shanxi-Nanyang-Jingmen 1000 kV Pilot and Demonstration Project
1.6.2 Huainan-Shanghai 1000 kV Project
1.6.3 Mengxi-South Tianjin 1000 kV Project
1.6.4 Yuheng-Weifang 1000 kV Project
1.6.5 Sutong 1000 kV GIL Comprehensive Pipe Gallery Project
1.6.6 Shandong-Hebei 1000kV Project
1.7 Technical Outlook
1.7.1 UHV Switchgear for Special Applications
1.7.2 UHV Circuit Breaker with Long Electrical Life and Large Capacity
1.7.3 UHV Transformer with Key Performance Parameters Monitored
1.7.4 UHV AC High-performance Overvoltage Limiter
1.7.5 Environment-Friendly UHV AC Gas-Insulated Transmission Line (GIL) Power Transmission
1.8 Economic Outlook
……
2 UHVDC Power Transmission Technology
3 Flexible Transmission Technology
EPILOGUE
Appendix