Resilience improvement using fault detection method in Multi-Carrier Microgrids

Abstract

Power quality has become a vital factor because of the simultaneous use of electric and gas energies in a network (multi-carrier grid) as well as the use of modern electrical equipment. Poor electricity quality is defined as the presence of changes, distortions, or disturbances in voltage, current, and frequency quantities that cause the failure or improper operation of the subscribers' equipment. This research, aims to improve the voltage drop and increase the resilience of the multi-carrier distribution network (Energy Hub) in the event of a short-circuit fault, resulting in the provision of 10% of the total load and an improvement in subscriber welfare. To improve the voltage drop, The first step needs fast fault detection, which is accomplished by using an FCL filter, which is capable of detecting any short-circuit fault in the shortest amount of time by combining the method of estimating frequency fluctuations and the Prony method. After detecting the fault, a combination of DVR and D-STATCOM (DDS) is used to compensate for the voltage drop. The amount of increase in subscriber resilience and welfare will then be investigated. The simulation results show proper performance in identifying the short-circuit fault to prevent the subscribers' collapse and blackout.