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A Review of Fast Power-Reserve Control Techniques in Grid-Connected Wind Energy Conversion Systems

Matheus Schramm Dall’Asta, Telles Brunelli Lazzarin

2024Energies12 citationsDOIOpen Access PDF

Abstract

Grid-connected power-converter-interfaced systems have been sharing the responsibility of grid generation alongside conventional synchronous generators. However, these systems lack spinning reserves, leading to a decrease in system inertia and resulting in more pronounced frequency deviations during power imbalances. Therefore, grid codes require the active involvement of wind energy conversion systems in frequency control, aiming to constrain the frequency and rate of change of frequency variations within predefined limits. This paper reviews fast power-reserve control techniques without energy storage in wind energy conversion systems that do not depend on frequency or rate of change of frequency values. The resulting effects on system frequency, energy production, mechanical loadings, and electrical loadings are assessed. The techniques are classified in the maximum-power point-tracking region according to the power function during the transient response, such as constant, speed-, time-, or mechanical power-dependent methods. Both overproduction and underproduction stages are considered. Certain techniques are tested on simulation grids that include either hydro or no-reheat steam generators, followed by a comparative analysis.

Topics & Concepts

Automatic frequency controlWind powerElectric power systemMaximum power point trackingPower (physics)Frequency gridGridControl theory (sociology)Electricity generationComputer scienceEngineeringElectrical engineeringControl (management)VoltagePhysicsMathematicsQuantum mechanicsArtificial intelligenceGeometryInverterMicrogrid Control and OptimizationWind Turbine Control SystemsFrequency Control in Power Systems
A Review of Fast Power-Reserve Control Techniques in Grid-Connected Wind Energy Conversion Systems | Litcius