The primary objective of this project is to design and demonstrate a prototype control system for damping inter-area oscillations in large-scale interconnected power systems. This is a collaborative effort involving the Bonneville Power Administration (BPA), Sandia National Laboratories, and Montana Tech University. The damping control strategy employs real power injections at strategically located points in the grid based upon real-time Phasor Measurement Unit (PMU) feedback. A key element of the control strategy is a high-level supervisory controller that monitors the behavior of the power system, the PMU network, and the real-time control loop to ensure safe and reliable damping performance. The project team is investigating two promising actuation schemes for injecting real power into the grid. One scheme centers on modulating the active power flow through the Pacific DC Intertie (PDCI) and has advanced to the demonstration phase. The other scheme centers on modulating real power injections from distributed energy storage systems and is currently in the analysis phase. Since the system incorporates real-time PMU measurements, an important part of the effort includes the development of control algorithms that are robust to variations in network performance (e.g., latencies, dropped messages). The BPA Technology Innovation Program, the DOE Transmission Reliability Program, and the DOE Energy Storage Program provide financial support for this project.
Wide-Area Damping Control Proof-of-Concept
PI:
Project Status:
Current
Related Publications
. "Effect of time delay asymmetries in power system damping control." 2017 IEEE Power & Energy Society General Meeting (PESGM). Chicago, IL, USA: IEEE, 2017.
. "Initial closed-loop testing results for the pacific DC intertie wide area damping controller." 2017 IEEE Power & Energy Society General Meeting (PESGM). Chicago, IL, USA: IEEE, 2017.
. "Simulation results for the pacific DC intertie wide area damping controller." 2017 IEEE Power & Energy Society General Meeting (PESGM). Chicago, IL, USA: IEEE, 2017.
. "Time delay definitions and characterization in the pacific DC intertie wide area damping controller." 2017 IEEE Power & Energy Society General Meeting (PESGM). Chicago, IL, USA: IEEE, 2017.
. "Time-domain analysis of power system stability with damping control and asymmetric feedback delays." 2017 North American Power Symposium (NAPS). Morgantown, WV: IEEE, 2017.
. "Small signal stability analysis and distributed control with communications uncertainty." 2016 International Symposium on Power Electronics, Electrical Drives, Automation and Motion (SPEEDAM). Capri, Italy: IEEE, 2016. 1284 - 1291.
. "Supervisory system for a wide area damping controller using PDCI modulation and real-time PMU feedback." 2016 IEEE Power and Energy Society General Meeting (PESGM). Boston, MA, USA: IEEE, 2016. 1 - 5.
. "Structured Optimization for Parameter Selection of Frequency-Watt Grid Support Functions for Wide-Area Damping." International Journal of Distributed Energy Resources and Smart Grids 11.1 (2015) 69-94.
. "Open-loop PDCI probing tests for the Western North American power system." 2014 IEEE Power & Energy Society General Meeting. National Harbor, MD, USA: IEEE, 2014. 1 - 5.
. "Optimal locations for energy storage damping systems in the Western North American interconnect." 2014 IEEE Power & Energy Society General Meeting. National Harbor, MD, USA: IEEE, 2014. 1 - 5.
. "Damping of inter-area oscillations using energy storage." 2013 IEEE Power & Energy Society (PES) General Meeting. Vancouver, BC: IEEE, 2013. 1 - 5.
. "PDCI damping control analysis for the western North American power system." 2013 IEEE Power & Energy Society General Meeting. Vancouver, BC: IEEE, 2013. 1 - 5.
. "Wind generation controls for damping of inter-area oscillations." 2013 IEEE Power & Energy Society General Meeting. Vancouver, BC: IEEE, 2013. 1 - 5.