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Impedance Network Model Based Modal Observability and Controllability Analysis for Renewable Integrated Power Systems

Ying Zhan, Xiaorong Xie, Yang Wang

2020IEEE Transactions on Power Delivery51 citationsDOI

Abstract

The complex interactions between renewables and AC/DC networks have brought new oscillation issues. To effectively monitor and suppress these oscillations, the observability and controllability of the oscillatory modes at different locations of the system must be investigated. To achieve this, the paper first defines the concept of modal observability and controllability using the responses of unit-pulse perturbations. Then an eigenvalue-decomposition based method is proposed to calculate these two indexes with the impedance network model (INM) as the input. The obtained modal observability(controllability) has many important applications and one of them is to facilitate the aggregation of the INM. The paper investigates this application by selecting an optimal aggregation port to ensure that the aggregated impedance can reflect the complete system dynamics. Finally, the proposed method is verified on a simple passive circuit and a practical wind power system that experienced actual subsynchronous resonance incidents. Theoretical results as well as EMT simulations demonstrate the effectiveness of the method.

Topics & Concepts

ObservabilityControllabilityControl theory (sociology)ModalImpedance parametersElectrical impedanceElectric power systemModal analysisEngineeringComputer sciencePower (physics)Topology (electrical circuits)Control engineeringMathematicsControl (management)Electrical engineeringPhysicsFinite element methodApplied mathematicsChemistryStructural engineeringArtificial intelligenceQuantum mechanicsPolymer chemistryMicrogrid Control and OptimizationPower System Optimization and StabilityWind Turbine Control Systems