An improved model for simulating the transient behavior of salient-pole synchronous generators with internal and ground faults in the stator winding is established using the multi-loop circuit method. The model caters for faults under different ground conditions for the neutral, and accounts for the distributed capacitances of the windings to ground. Predictions from the model are validated by experiments, and it is shown that the model accurately predicts the voltage and current waveforms under fault conditions. Hence, it can be used to analyze important features of faults and to design appropriate protection schemes
Conventional ground fault protection schemes can be applied for any generator terminal connection bu...
The generator differential protection is one of the most important electrical protections of synchro...
The stator single-phase to ground fault is one of the most common fault that a Generator will suffer...
An improved model for simulating the transient behavior of salient-pole synchronous generators with ...
This paper presents a synchronous machine model designed to simulate internal ground faults along th...
This paper presents a model for the analysis of internal faults of synchronous generators with multi...
Salient pole synchronous generators as the main component of an electricity generation station shoul...
An internal fault in a synchronous generator produces an effect similar to increasing the number of ...
The paper shows how the normally generated third-harmonic voltage can be used to protect the lower t...
In the event of internal faults in turbo generators large currents flow in the windings due to the u...
The ever increasing demand for electrical energy has meant that electrical power systems have evolve...
This paper presents the theoretical approach and experimental tests of a new algorithm for detecting...
The stator single-phase to ground fault is one of the most common fault that a Generator will suffer...
Abstract A precise simulation of the internal faults of synchronous generators is very important for...
This paper compares the short-circuit performance of superconducting (SC) generators with three diff...
Conventional ground fault protection schemes can be applied for any generator terminal connection bu...
The generator differential protection is one of the most important electrical protections of synchro...
The stator single-phase to ground fault is one of the most common fault that a Generator will suffer...
An improved model for simulating the transient behavior of salient-pole synchronous generators with ...
This paper presents a synchronous machine model designed to simulate internal ground faults along th...
This paper presents a model for the analysis of internal faults of synchronous generators with multi...
Salient pole synchronous generators as the main component of an electricity generation station shoul...
An internal fault in a synchronous generator produces an effect similar to increasing the number of ...
The paper shows how the normally generated third-harmonic voltage can be used to protect the lower t...
In the event of internal faults in turbo generators large currents flow in the windings due to the u...
The ever increasing demand for electrical energy has meant that electrical power systems have evolve...
This paper presents the theoretical approach and experimental tests of a new algorithm for detecting...
The stator single-phase to ground fault is one of the most common fault that a Generator will suffer...
Abstract A precise simulation of the internal faults of synchronous generators is very important for...
This paper compares the short-circuit performance of superconducting (SC) generators with three diff...
Conventional ground fault protection schemes can be applied for any generator terminal connection bu...
The generator differential protection is one of the most important electrical protections of synchro...
The stator single-phase to ground fault is one of the most common fault that a Generator will suffer...