@inproceedings{97dd71efbcd849568ee0f94e899711ae,
title = "Functional Resilience Assessment of Restructured Power Grid Considering Insignificant Demands for Frequency Stability",
abstract = "This paper highlights the demand response (DR) approach as a useful strategy to improve frequency management in a contract violation scenario involving a restructured power network. The analysis is carried out in the DR framework with the integration of the thermal plant, the biogas unit, the solar thermal trough (PTST), and the wind farms. However, an electric vehicle (EV) application is utilized that jointly meets some of the uncontracted demand. A thorough examination of the test system that uses the DR technique greatly enhances the frequency regulation services, which provide a significant improvement over conventional frequency regulation in terms of system dynamics. Sensitivity analysis with a ± 25\% variation in system parameters is also taken into account while analyzing system dynamic behavior using the DR framework.",
keywords = "Contract violation, restructured power system, sensitivity analysis, system dynamic characteristic",
author = "Abhishek Saxena and Omar Alzaabi and Ravi Shankar and \{Al Jaafari\}, Khaled and \{Al Hosani\}, Khalifa and Muduli, \{Utkal Ranjan\}",
note = "Publisher Copyright: {\textcopyright} 2023 IEEE.; 2023 IEEE IAS Global Conference on Renewable Energy and Hydrogen Technologies, GlobConHT 2023 ; Conference date: 11-03-2023 Through 12-03-2023",
year = "2023",
doi = "10.1109/GlobConHT56829.2023.10087705",
language = "British English",
series = "2023 IEEE IAS Global Conference on Renewable Energy and Hydrogen Technologies, GlobConHT 2023",
publisher = "Institute of Electrical and Electronics Engineers Inc.",
booktitle = "2023 IEEE IAS Global Conference on Renewable Energy and Hydrogen Technologies, GlobConHT 2023",
address = "United States",
}
