Despite the substantial reliability and power quality improvements, the proliferation of distributed energy resources (DERs) can originate many protection complexities in the distribution networks. This research article presents a comprehensive investigative analysis of the distributed generation (DG) impacts on the protection performance of the distribution network. Various protection coordination case studies have been analyzed under different operating conditions by varying the DG penetration level or the fault conditions to highlight the potential risks of the protection networks. The severity of the risks is evaluated by considering the DG locations, protection settings, and fault types/impedance parameters on a standardized IEEE 13 node test feeder. The subsequent protection hazards are examined for the mutual coordination of the overcurrent (OC) relays, auto-reclosers, and series fuses in distribution networks. Furthermore, the impacts of DGs/PDs types are assessed on the nuisan
Despite the substantial reliability and power quality improvements, the proliferation of distributed energy resources (DERs) can introduce many protection complexities in distribution networks. This research article presents a comprehensive investigative analysis of the distributed generation (DG) impacts on the protection performance of the distribution network. Various protection coordination case studies have been analyzed under different operating conditions by varying the DG penetration level or the fault conditions to highlight the potential risks of the protection networks. The severity of the risks is evaluated by considering the DG locations, protection settings, and fault types/impedance parameters on a standardized IEEE 13 node test feeder. The subsequent protection hazards are examined for the mutual coordination of the overcurrent (OC) relays, auto-reclosers, and series fuses in distribution networks along with the differential protection issues for DC bus system. Furtherm