Solution techniques for transient stability-constrained optimal power flow – Part II

• Published in: IET generation, transmission & distribution Vol. 11; no. 12; pp. 3186 - 3193
• Main Authors: Geng, Guangchao, Abhyankar, Shrirang, Wang, Xiaoyu, Dinavahi, Venkata
• Format: Journal Article
• Language: English
• Published: United States The Institution of Engineering and Technology 24.08.2017; Institution of Engineering and Technology
• Subjects: computational intelligence; economic benefits; interconnected systems; load flow; power system economics; power system interconnection; power system transient stability; power systems; POWER TRANSMISSION AND DISTRIBUTION; publicly available test systems; reduced inertia; relevant numerical libraries; renewable energy resources; renewable energy sources; single machine equivalent; Special Issue: Interfacing Techniques for Simulation Tools in Smart Grid; transient stability‐constrained optimal power flow; renewable energy sources; power system transient stability; economic benefits; renewable energy resources; power system economics; reduced inertia; computational intelligence; publicly available test systems; power system interconnection; relevant numerical libraries; power systems; transient stability-constrained optimal power flow; interconnected systems; load flow; single machine equivalent
• ISSN: 1751-8687; 1751-8695
• DOI: 10.1049/iet-gtd.2017.0346

Transient stability-constrained optimal power flow is an important emerging problem with power systems pushed to the limits for economic benefits, dense and larger interconnected systems, and reduced inertia due to expected proliferation of renewable energy resources. In this study, two more approaches: single machine equivalent and computational intelligence are presented. Also discussed are various application areas, and future directions in this research area. A comprehensive resource for the available literature, publicly available test systems, and relevant numerical libraries is also provided.