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Empowering offshore wind with ES-STATCOM for stability margin improvement and provision of grid-forming capabilities

Anant Narula, Paul Imgart, Massimo Bongiorno, Mebtu Beza

2024Electric Power Systems Research13 citationsDOIOpen Access PDF

Abstract

Offshore wind power plants (WPPs) play a pivotal role in achieving a CO2-neutral electricity sector. However, their grid connection presents significant challenges and costs. High-voltage alternating current (HVAC) offers a cost-effective solution, but it may necessitate the installation of a static synchronous compensator (STATCOM) at the onshore bus to ensure stability and compliance with connection requirements. Integrating energy storage into the STATCOM (ES-STATCOM) enables the provision of ancillary services, such as inertial response and frequency support, which require active power. This paper utilizes the generalized Nyquist criterion to demonstrate that operating the ES-STATCOM with grid-forming control enhances the stability margin of the grid-connected WPP when compared to operating it with grid-following control. Furthermore, it illustrates through network frequency perturbation (NFP) plots that the overall WPP, comprising grid-following wind turbines and a grid-forming ES-STATCOM, imparts grid-forming behavior at the grid-connection point.

Topics & Concepts

Offshore wind powerGridMargin (machine learning)Submarine pipelineMarine engineeringWind powerStability (learning theory)Power gridComputer scienceEngineeringEnvironmental scienceGeologyElectrical engineeringPower (physics)OceanographyPhysicsGeodesyQuantum mechanicsMachine learningMicrogrid Control and OptimizationPower System Optimization and StabilityWind Turbine Control Systems
Empowering offshore wind with ES-STATCOM for stability margin improvement and provision of grid-forming capabilities | Litcius