This paper presents a new selective and non-directional protection method to detect ground faults in neutral isolated power systems. The new proposed method is based on the comparison of the rms value of the residual current of all the lines connected to a bus, and it is able to determine the line with ground defect. Additionally, this method can be used for the protection of secondary substation. This protection method avoids the unwanted trips produced by wrong settings or wiring errors, which sometimes occur in the existing directional ground fault protections. This new method has been validated through computer simulations and experimental laboratory tests
The increasing penetration of Distributed Generation (DG) in the distribution grid that is nowadays ...
This report is the result of the work with the master thesis written during the spring of 2016 at NT...
Introduction. A significant proportion of earth faults in 6 - 35 kV networks is a transient and shor...
This paper presents a new selective and non-directional protection method to detect ground faults in...
This paper presents a new selective and non-directional protection method to detect ground faults in...
In this paper, two new methods for locating single-phase to ground faults in isolated neutral distri...
The increasing penetration of Distributed Generation (DG) in the distribution grid that is nowadays ...
This paper presents a review of a range of novel protection schemes and described a new fault detect...
One of the most common and difficult problems to solve in distribution power systems is the location...
Future distribution systems are conceived to be largely based on hybrid ac/dc power system architect...
New protection methods are required to protect a distribution system when supplied by current limite...
The paper demonstrates improving the reliability of power supply and operating safety of power recei...
Inverter-Based Resources (IBRs) are challenging traditional line protection systems, that have been ...
The ever more electrified and energy-intensive society increases the need for a secure power grid an...
This article deals with selective protection against single-phase earth faults at 6 – 10 kV electri...
The increasing penetration of Distributed Generation (DG) in the distribution grid that is nowadays ...
This report is the result of the work with the master thesis written during the spring of 2016 at NT...
Introduction. A significant proportion of earth faults in 6 - 35 kV networks is a transient and shor...
This paper presents a new selective and non-directional protection method to detect ground faults in...
This paper presents a new selective and non-directional protection method to detect ground faults in...
In this paper, two new methods for locating single-phase to ground faults in isolated neutral distri...
The increasing penetration of Distributed Generation (DG) in the distribution grid that is nowadays ...
This paper presents a review of a range of novel protection schemes and described a new fault detect...
One of the most common and difficult problems to solve in distribution power systems is the location...
Future distribution systems are conceived to be largely based on hybrid ac/dc power system architect...
New protection methods are required to protect a distribution system when supplied by current limite...
The paper demonstrates improving the reliability of power supply and operating safety of power recei...
Inverter-Based Resources (IBRs) are challenging traditional line protection systems, that have been ...
The ever more electrified and energy-intensive society increases the need for a secure power grid an...
This article deals with selective protection against single-phase earth faults at 6 – 10 kV electri...
The increasing penetration of Distributed Generation (DG) in the distribution grid that is nowadays ...
This report is the result of the work with the master thesis written during the spring of 2016 at NT...
Introduction. A significant proportion of earth faults in 6 - 35 kV networks is a transient and shor...