Applied Informatics in Renewable Energy Grid with Dynamic Reactive Power Configuration Based on a Probability Assessment of Transient
Md. Tabil Ahammed, Sabbir Hossain, K. Vijayakumar, Chinmoy Das, Shariar Hossain Shohan, Soma Prathibha, Mohammed Minhazul Islam Shazed
Abstract
An expanding number of renewable energy sources is posing a problem for the energy grid's safety and stability. This research provides a set-up with a variable reactive power method for renewable energy systems with high levels of transient stability evaluation be able to improve the power system's safety and stability. As part of a multi-scenario evaluation of high penetration renewable energy grids, dynamic reactive power capacity allocation is accomplished. Finally, use the IEEE 39-bus system as an example to demonstrate the method's viability. Method may effectively enhance power grid security and stability, decrease danger of large-scale off-grid from high penetration renewable energy grid, and lead the safe and stable operation of the renewable energy base, according to the study