Green anaconda optimized DRN controller for automatic generation control of two-area interconnected wind–solar–tidal system
Author:
Publisher
Springer Science and Business Media LLC
Subject
Applied Mathematics,Electrical and Electronic Engineering
Link
https://link.springer.com/content/pdf/10.1007/s00202-023-02151-4.pdf
Reference54 articles.
1. Ismail MM, Bendary AF, Elsisi M (2020) Optimal design of battery charge management controller for hybrid system PV/wind cell with storage battery. Int J Power Energy Convers 11(4):412–429
2. Aghaee F, MahdianDehkordi N, Bayati N, Hajizadeh A (2019) Distributed control methods and impact of communication failure in AC microgrids: a comparative review. Electronics 8(11):1265
3. Gheisarnejad M, Khooban MH (2019) Secondary load frequency control for multi-microgrids: HiL real-time simulation. Soft Comput 23(14):5785–5798
4. Adefarati T, Bansal RC (2017) Reliability and economic assessment of a microgrid power system with the integration of renewable energy resources. Appl Energy 206:911–933
5. Xu Y, Li C, Wang Z, Zhang N, Peng B (2018) Load frequency control of a novel renewable energy integrated micro-grid containing pumped hydropower energy storage. IEEE Access 6:29067–29077
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