Second-order filter-based inertia emulation (SOFIE)for low inertia power systems—Part 1: Principles and Equivalence with Synchronous Machines
The massive integration of power electronic converters into the power grid has led to a decrease in the mechanical inertia of the power system, causing an increase in the rate of change of frequency (RoCoF) that may lead to stability problems. The scientific community has focused on developing grid-forming control techniques, although their implementation implies a significant change in the firmware of the converter. Grid-supporting approaches, on the other hand, are an interesting alternative to add frequency support to the grid while preserving the original control structure of the converter. This paper proposes three new grid-supporting control techniques based on the dynamic behaviour of a synchronous machine (SM) and its equivalence with a second-order low-pass filter. They endow the converter with the capability of providing synthetic inertia, damping, droop-based p/f primary response and virtual reactance. The dynamics of the proposed implementations are compared with those of a reduced-order synchronous machine by means of time-domain simulations and in-depth state-space based small signal analyses. Besides, their operation is validated in a nine-bus low-inertia power system. Hardware in the loop (HIL) laboratory results are used to validate experimentally the proposed techniques.
Email Address of Submitting Authordaragon25@hotmail.com
ORCID of Submitting Authorhttps://orcid.org/0000-0001-8782-2004
Submitting Author's InstitutionBasque Research and Technology Alliance (BRTA)
Submitting Author's Country