Optimization of Induction Electricity in Buildings by Ultra High Voltage Transmission Lines

With the rapid development of China's economy, the demand for electricity, as the lifeline of the economy, is naturally increasing year by year. At the same time, China's market-oriented reform of electricity has shown initial results, a diversified competitive pattern is forming, and the commodity attributes of electricity have been further improved. The role of allocating electricity resources is also gradually strengthening, and there is a clear growth trend in market-oriented trading of electricity. There is an imbalance in the distribution and load centers of energy in China, and the corresponding resource points and load centers are also relatively far away. Due to the shortage of transmission corridors in China, a considerable portion of ultra-high voltage lines are distributed in residential areas. At this time, the impact of buildings close to residential areas on high-voltage transmission lines, as well as more in-depth guidance for transmission line installation and distribution in residential areas, will play a certain guiding role. Therefore, it is particularly important to study the influence of electric field distribution under different conditions on transmission lines. This article reasonably simplifies the three-dimensional model of transmission lines and introduces a line charge unit model to simulate the three-dimensional electric field near ultra-high voltage transmission lines. At the same time, simulation research is conducted on the three-dimensional electric field in different situations, namely in buildings of different materials.