The Influence of Ant Colony Algorithm on the Power Distribution Scheme of Thermal Power Plants

Abstract

The power distribution scheme of thermal power plants can balance the power flow voltage and current in the station area to ensure the stability of power grid operation, and the changes in power distribution scheme such as new energy, dwarf, wind power, wind power, etc., to ensure the quality of power supply of the whole power grid, but in the process of thermal power grid distribution, there are interference factors such as a large amount of data, difficulty in data analysis, and stability of new energy power generation, which affect the effectiveness of the entire distribution scheme In the mediation process of new energy sources such as photovoltaics, the stability of voltage and current is improved, kept between 90% ~ 95%, and the current of the power grid is effectively constrained to avoid the problem of excessive current and voltage, and the accuracy of power distribution is improved, and the improvement rate reaches 10~20%. Compared with the previous algorithms, it is found that the algorithm can shorten the power distribution time of thermal power plants and keep it between 5~6 seconds. Therefore, the ant colony algorithm can optimize the power distribution scheme of thermal power plants and support the grid connection of new energy.