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Variable droop gain frequency supporting control with maximum rotor kinetic energy utilization for wind-storage system

Wenbo Li, Yujun Li, Jiapeng Li, Yang Zhang, Xiqiang Chang, Zhongqing Sun

2024International Journal of Electrical Power & Energy Systems13 citationsDOIOpen Access PDF

Abstract

To address the emerging frequency stability issue brought by the large replacement of synchronous generators with renewable generations , wind turbine generators are required to possess frequency-supporting capability. However, existing frequency-supporting control strategies lack the assessment of the frequency support capability of wind turbine generators , leading to degraded control performance under various situations. Aiming to solve this problem, this paper proposes a variable-droop-gain control for wind turbine generators with maximum rotor kinetic energy utilization. Firstly, an analytical relationship was established between droop gain , disturbance scale, and rotor speed . Subsequently, the released energy of the wind turbine generator is evaluated, which equals the difference in the rotor kinetic energy under the initial and the post-disturbance steady-state rotor speed . It was proved that the released kinetic energy cannot exceed a certain proportion of total rotor kinetic energy. Accordingly, a variable initial gain scheme is proposed, which determines the initial droop gain as per the disturbance scale for maximizing the kinetic energy release of wind turbines. Moreover, an additional real-time droop gain adjustment rule is added to prevent the over-deceleration of wind turbines. The simulation results show that the proposed scheme may provide the maximum KE release and effectively improve the system frequency nadir while ensuring the safe operation of wind turbine generators .

Topics & Concepts

Voltage droopRotor (electric)Wind powerControl theory (sociology)Energy storageAutomatic frequency controlKinetic energyComputer scienceEnvironmental scienceControl (management)EngineeringAutomotive engineeringElectrical engineeringPower (physics)PhysicsVoltageVoltage dividerArtificial intelligenceQuantum mechanicsWind Turbine Control SystemsFrequency Control in Power SystemsElectric Motor Design and Analysis
Variable droop gain frequency supporting control with maximum rotor kinetic energy utilization for wind-storage system | Litcius