µçÁ¦ÏµÍ³µçѹÎȶ¨ÐÔ·ÖÎö(Ó¢ÎÄ°æ)

µçÁ¦ÏµÍ³µçѹÎȶ¨ÐÔ·ÖÎö(Ó¢ÎÄ°æ) ½ÚÑ¡

Chapter 1 Introduction 1.1 Development of the Power System Power is an important secondary energy£¬ playing an irreplaceable role in the development of the national economy. Power safety is directly related to the national economy and social security. The power system includes the whole process of power generation£¬ power transmission and transformation£¬ and power distribution. In the power system£¬ the power generation equipment produces electric energy£¬ in which the primary energy is converted into electric energy; the transformer and power line transmit and distribute electric power; electric equipment consume electric energy£¬ in which the power is converted into mechanical energy£¬ thermal energy£¬ and light energy£¬ etc. Different from other energy sources£¬ electric energy cannot be stored on a large scale. In fact£¬ power is produced£¬ transmitted£¬ distributed and consumed at the same time. That is to say£¬ the electric energy produced by the power generation equipment at any time must be equal to the sum of the electric energy consumed transmitted and distributed by electric equipment at that time. The balance of supply and demand must be maintained in real time between power generation and consumption; otherwise£¬ the safety and continuity of power consumption will be endangered. Safe£¬ reliable and high-quality power supply is one of the bases and important conditions of modem society. The influence of economy£¬ environment£¬ and technology£¬ etc. on the development of power systems constantly puts forward new requirements such as the following: (1) Clean and sustainable energy with little environmental influence: On the power generation side£¬ to use renewable energy and reduce carbon emissions; increase transmission density of the existing overhead line corridor£¬ design new lines with small electromagnetic and noise impact£¬ environmental requirements and beautiful appearance; gradually replace the overhead line with cables£¬ especially in the city and its surrounding areas. (2) Availability: To make electricity available and affordable to all. (3) Applicability: To provide electric energy with the reliability and quality level required by different users. (4) Advancement: The development of the power industry must depend on the progress of science and technology£¬ and modem control theory£¬ information technology£¬ computer technology£¬ electronic technology£¬ new materials and so on are integrated into all aspects of the electric power industry. (5) Flexibility and controllability: People can quickly and accurately control the power supply to meet the market demand. To develop and utilize resources reasonably£¬ the formation of the interconnected power system is the objective requirement and inevitable trend of the development of modem power systems. Part of the power grids in the United States£¬ Canada and Mexico have been interconnected to the North American Power Grid£¬ including four synchronous power grid interconnections£¬ Eastern Interconnection£¬ Western Interconnection£¬ Texas Interconnection and Quebec Interconnection. On the basis of the original Western European Power Grid£¬ the European Power Grid is expanding its scale through interconnection with the neighboring transnational power grid (for example£¬ the Northern Europe Power Grid) and the neighboring national power grid (for example£¬ the power grid in Eastern European countries). With the great changes of China¡¯s economy and energy supply and the rapid development of China¡¯s power industry£¬ China will build a strong national power grid taking the UHV AC power grid as the backbone grid frame£¬ layering and zoning UHV£¬ EHV and HV power grids£¬ with a clear grid structure£¬ so as to meet the basic requirements of large-capacity£¬ long-distance£¬ low-loss and low-cost power transmission£¬ adapt to the changes of energy flow in the future and improve the flexibility of power grid operation and scheduling and the scalability of power grid structure. In January 2009£¬the UHV AC transmission and transformation project with the highest operating voltage level£¬ the largest transmission capacity and the highest level of international power transmission and transformation technology in the world- Southeast of Shanxi-Nanyang-Jingmen 1£¬000 kV UHV AC Test Demonstration Project was successfully put into operation£¬ which marks a major breakthrough in the localization of the core ultra-high voltage transmission technology and equipment with long distance£¬ large capacity and low loss and is of great significance to optimizing the allocation of energy resources£¬ ensuring the safety of national energy sources and the reliability of power supply. In order to meet the requirements of long-distance and large-capacity transmission£¬ DC transmission has been widely used in China. China has developed the most complicated AC/DC transmission system in the world£¬ including five synchronous power grids: North China-Central China Po