Implementation and Performance Comparison of Derivative and Virtual Synchronous Power Methods for Enhancement of System Frequency Stability

Book chapter (2021)

Authors

Elyas Rakhshani Intelligent Electrical Power Grids
M. Ebrahim Adabi Intelligent Electrical Power Grids
Jose Rueda Torres Intelligent Electrical Power Grids
Mart van der van der Meijden TenneT TSO B.V., Intelligent Electrical Power Grids
Francisco Gonzalez-Longatt University of South-Eastern Norway
Research Group
Intelligent Electrical Power Grids
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Published Date

2021

Language

English

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Research Group

Intelligent Electrical Power Grids

Abstract

This chapter is dedicated to present some control mechanism to cope with the challenges due to the growth of the penetration level of the power electronic interfaced generation (PEIG) in sustainable interconnected energy systems. Specifically, this chapter presents different forms of fast active power injection (FAPI) control schemes for the analysis and development of different mitigation measures to address the frequency stability problem. Among the considered FAPI control schemes are the traditional droop-based scheme, and two propositions implemented in the form of a derivative-based control and a second-order virtual synchronous power (VSP)-based control. All the detailed explanation, DSL-based control is presented for the simulations in DIgSILENT software. Simulation results show that thanks to proposed FAPI controllers, it is possible to increase the maximum share of wind power generation without violating the threshold limits for frequency stability problem in low-inertia systems.

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