Study of Single-Phase Earth Fault in Electrical Networks of 6-35 Kv With an Isolated Neutral

Abstract: Ground faults in networks with an isolated neutral are not switched off by relay line protections due to low capacitive currents. It is recommended to disconnect the line with a earth fault as quickly as possible, but sometimes it is difficult to find and localize the damage. To analyze the emergency mode of single-phase ground fault in networks with an isolated neutral, the phase coordinate method for calculating phase voltages is used. At the point of damage, the values of the phase-to-phase voltages rema… Show more

“…(1) initial phase of damage; (2) interruption of the single-phase fault current in the process of its development; and (3) the isolated neutral mode of 6-35 kV networks [23][24][25]. In addition, as noted earlier, the calculation of the current setpoints of the directional and nondirectional ground fault protections of 6-35 kV networks considers the mode of stable Combining heat and the high sensitivity of the SPGF protection devices, along with the desire of the MRC enterprises operating at 6-35 kV networks to maintain the power supply to their consumers under the conditions of SPGF mode until the damage location is reliably determined, create the conditions for the development of an accident.…”

“…(1) initial phase of damage; (2) interruption of the single-phase fault current in the process of its development; and (3) the isolated neutral mode of 6-35 kV networks [23][24][25]. In addition, as noted earlier, the calculation of the current setpoints of the directional and non-directional ground fault protections of 6-35 kV networks considers the mode of stable metal ground fault, where in most cases single-phase GF occurs through a resistance [26,27].…”

Investigation of the Effect of Current Protections in Conditions of Single-Phase Ground Fault through Transient Resistance in the Electrical Networks of Mining Enterprises

“…(1) initial phase of damage; (2) interruption of the single-phase fault current in the process of its development; and (3) the isolated neutral mode of 6-35 kV networks [23][24][25]. In addition, as noted earlier, the calculation of the current setpoints of the directional and nondirectional ground fault protections of 6-35 kV networks considers the mode of stable Combining heat and the high sensitivity of the SPGF protection devices, along with the desire of the MRC enterprises operating at 6-35 kV networks to maintain the power supply to their consumers under the conditions of SPGF mode until the damage location is reliably determined, create the conditions for the development of an accident.…”

“…(1) initial phase of damage; (2) interruption of the single-phase fault current in the process of its development; and (3) the isolated neutral mode of 6-35 kV networks [23][24][25]. In addition, as noted earlier, the calculation of the current setpoints of the directional and non-directional ground fault protections of 6-35 kV networks considers the mode of stable metal ground fault, where in most cases single-phase GF occurs through a resistance [26,27].…”

Investigation of the Effect of Current Protections in Conditions of Single-Phase Ground Fault through Transient Resistance in the Electrical Networks of Mining Enterprises