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Grid-Forming Frequency Shaping Control for Low-Inertia Power Systems

Yan Jiang, Andrey Bernstein, Petr Vorobev, Enrique Mallada

2020IEEE Control Systems Letters29 citationsDOIOpen Access PDF

Abstract

As power systems transit to a state of high renewable penetration, little or no presence of synchronous generators makes the prerequisite of well-regulated frequency for grid-following inverters unrealistic. Thus, there is a trend to resort to grid-forming inverters which set frequency directly. We propose a novel grid-forming frequency shaping control that is able to shape the aggregate system frequency dynamics into a first-order one with the desired steady-state frequency deviation and Rate of Change of Frequency (RoCoF) after a sudden power imbalance. The no overshoot property resulting from the first-order dynamics allows the system frequency to monotonically move towards its new steady-state without experiencing frequency Nadir, which largely improves frequency security. We prove that our grid-forming frequency-shaping control renders the system internally stable under mild assumptions. The performance of the proposed control is verified via numerical simulations on a modified Icelandic Power Network test case.

Topics & Concepts

Automatic frequency controlFrequency deviationControl theory (sociology)GridFrequency gridElectric power systemInertiaOvershoot (microwave communication)Computer scienceFrequency responsePower (physics)Control (management)EngineeringTelecommunicationsMathematicsElectrical engineeringPhysicsArtificial intelligenceClassical mechanicsQuantum mechanicsGeometryMicrogrid Control and OptimizationHVDC Systems and Fault ProtectionFrequency Control in Power Systems