STATCOM Performance Evaluation Using Operation Data from Digital Fault Recorder

Static Synchronous Compensators (STATCOMs) are being employed by Dominion Energy to control voltage and enhance system stability. Due to the complexity of the control systems, operational modes, and nonlinearities, it is essential to evaluate STATCOMs' behavior to ensure their correct and proper response to dynamic events such as line faults, generator trip, or load rejection throughout the grid. This procedure brings benefit to device management by identifying potential equipment problems and improve dynamic model for simulation study. The proposed framework utilizes operation data collected in Digital Fault Recorder (DFR) to evaluate STATCOM's response to dynamic system events. One of the challenges on getting accurate model response comes from STATCOMs with automatic gain adjustment feature. This feature actively measures the external system's Thevanin impedance and accordingly changes the STATCOM gain. Therefore, when trying to recreate the field measurements in the simulation environment, it is necessary to match the short circuit level (SCL) of the external system equivalent. This paper presents how these issues have been solved in order to evaluate STATCOM's performance. Finally, the effectiveness of proposed performance evaluation method is validated based on two actual events caused by faults.