Abstract
With the continuous development and progress of science and technology in China, automation technology has occupied an important position in many fields while its application in power system is increasingly widespread. Therefore, the application of electrical automation technology in power system is of great significance for power supply stability and work efficiency. In this paper, the author analyzes the application of electric automation technology in power system and makes contributions to the sustainable and stable development of power enterprises.
Highlights
With the rapid development of science, technology and social economy in the new era, people’s living standards are constantly improving, whose demand for electricity is increasing
With the continuous development and progress of science and technology in China, automation technology has occupied an important position in many fields while its application in power system is increasingly widespread
The application of electrical automation technology in power system is of great significance for power supply stability and work efficiency
Summary
With the rapid development of science, technology and social economy in the new era, people’s living standards are constantly improving, whose demand for electricity is increasing. Electrical automation technology has the characteristics of intellectualization and multiple functions, which can effectively solve various problems existing in power system. The introduction of electrical automation technology into the power system can greatly improve work efficiency, reduce the consumption of manpower and material resources in power enterprises, and effectively reduce the probability of human error. On the basis of sufficient experimental data provided by the simulation system, electrical automation technology can conduct synchronous experiments for steady state and transient state of varieties and different power systems, assist researchers in testing new devices. The introduction of real-time simulation system in the power system provides convenient conditions for the in-depth study of real-time simulation modeling of power system and dynamic load characteristic monitoring, so as to build a laboratory with real-time simulation conditions
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