Research Article
Distributed Reactive Energy Storage Structure Voltage Reactive Power Control Algorithm Based on Big Data Analysis
@INPROCEEDINGS{10.1007/978-3-030-67874-6_9, author={Yang Xu and Jie Gao and Yong-biao Yang and Hai-hong Bian}, title={Distributed Reactive Energy Storage Structure Voltage Reactive Power Control Algorithm Based on Big Data Analysis}, proceedings={Advanced Hybrid Information Processing. 4th EAI International Conference, ADHIP 2020, Binzhou, China, September 26-27, 2020, Proceedings, Part II}, proceedings_a={ADHIP PART 2}, year={2021}, month={1}, keywords={Active power Equilibrium node Control variable Nash theorem}, doi={10.1007/978-3-030-67874-6_9} }- Yang Xu
Jie Gao
Yong-biao Yang
Hai-hong Bian
Year: 2021
Distributed Reactive Energy Storage Structure Voltage Reactive Power Control Algorithm Based on Big Data Analysis
ADHIP PART 2
Springer
DOI: 10.1007/978-3-030-67874-6_9
Abstract
In the traditional distributed hybrid energy storage structure, there are security, island operation and capacity blocking. For this reason, a distributed hybrid energy storage structure voltage reactive power control algorithm is proposed based on big data analysis. First, establish a voltage reactive power control model, using the control or manual operation of the communication system to achieve automatic operation of the transformer tap or capacitor input capacity. Secondly, the Nash theorem is used to calculate the physical quantity obtained by the secondary user under certain transmission power conditions. Based on the game theory, the operating data of the power grid is obtained, and then the voltage reactive power control algorithm is realized. Finally, experiments show that the distributed reactive energy storage structure voltage reactive power control algorithm based on big data analysis has certain advantages compared with the traditional voltage reactive power control algorithm.
