Frequency-constrained robust unit commitment via physics-guided piecewise-linear nadir surrogates and adaptive virtual inertia
摘要
The increasing share of inverter-based renewable resources reduces synchronous inertia and complicates frequency control. In such systems, uncertainty, disturbances, and N–k contingencies can violate the rate-of-change-of-frequency (RoCoF), frequency nadir, and Quasi–Steady-State (QSS) constraints. Conventional unit commitment (UC) formulations are not designed to capture these dynamics reliably. In this paper, we develop a frequency-constrained robust UC (FC-RUC) framework that embeds these frequency constraints into the scheduling process under renewable and load uncertainty and