Implementation of Resistive Type Superconducting Fault Current Limiters in Electrical Grids: Performance Analysis and Measuring of Optimal Locations

Abstract: In the past few years there has been a significant rise in the short-circuit current levels in transmission and distribution networks, it due to the increasing demands on power and the addition of sources of distributed generations. It leads to the need of integration of novel protection systems such as the superconducting fault current limiters (SFCLs), as the installation of these devices into the electric network aims to improve the overall system stability during normal and fault conditions, whilst the upg… Show more

“…Few studies have looked at the self-acting protection of power electronic equipment and DC-DC converters utilising a low-cost SFCL device for their applications in renewable-based microgrids (fault durations are generally from hundreds to thousands of milliseconds; [27][28][29]). Contrary to what is found in system-level analyses [30,31], power electronic switches and devices can be seriously harmed by errors that last only milliseconds.…”

Utilizing Parallel Superconducting Element as a Novel Approach of Flux-Coupled Type SFCL to Limit DC Current in the System

“…Few studies have looked at the self-acting protection of power electronic equipment and DC-DC converters utilising a low-cost SFCL device for their applications in renewable-based microgrids (fault durations are generally from hundreds to thousands of milliseconds; [27][28][29]). Contrary to what is found in system-level analyses [30,31], power electronic switches and devices can be seriously harmed by errors that last only milliseconds.…”

Utilizing Parallel Superconducting Element as a Novel Approach of Flux-Coupled Type SFCL to Limit DC Current in the System