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The Definition of Power Grid Strength and Its Calculation Methods for Power Systems with High Proportion Nonsynchronous-Machine Sources

Zheng Xu, Nan Zhang, Zheren Zhang, Ying Huang

2023Energies13 citationsDOIOpen Access PDF

Abstract

This paper studies the definition and calculation method of power grid strength in the environment of high-proportion nonsynchronous-machine sources, focusing on the effect of nonsynchronous-machine sources on voltage support strength and frequency support strength. By dividing the nonsynchronous-machine sources into four types, the equivalent circuits of each type under normal state and fault state are derived, respectively. Based on the Thevenin equivalent impedance of the power grid and the equivalent impedance of the connected device, the definition and calculation method of voltage support strength is given, and the new meaning of single-infeed short-circuit ratio and multi-infeed short-circuit ratio in the context of high proportion nonsynchronous-machine sources is presented. Based on the initial frequency change rate and the steady-state frequency deviation of any node in the power grid under the maximum expected active power disturbance, the equivalent inertia lifting factor and steady-state frequency deviation decreasing factor are defined, respectively, to describe the contribution of nonsynchronous-machine sources to the power grid frequency support strength, and the calculation methods of the equivalent inertia lifting factor and the steady-state frequency deviation decreasing factor are given.

Topics & Concepts

Control theory (sociology)Equivalent impedance transformsFrequency deviationPower factorSteady state (chemistry)Power (physics)Context (archaeology)Electrical impedanceEquivalent circuitInertiaVoltageFault (geology)Maximum power principleEngineeringMathematicsElectrical engineeringComputer scienceAutomatic frequency controlPhysicsSeismologyArtificial intelligencePhysical chemistryQuantum mechanicsChemistryPaleontologyClassical mechanicsBiologyControl (management)GeologyMicrogrid Control and OptimizationHVDC Systems and Fault ProtectionPower Systems and Renewable Energy