Inter-turn short circuit of field windings (ISCFW) may cause the field current of a generator to increase, output reactive power to decrease, and unit vibration to intensify, seriously affecting its safe and stable operation. Full integration of mechanical and electrical characteristics can improve the sensitivity of online monitoring, and detect the early embryonic period fault of small turns. This paper studies the calculations and variations of unbalanced magnetic pull (UMP), of which the excitation source of rotor vibration is the basis and key to online fault monitoring. In grid load operation, ISCFW are first calculated with the multi-loop method, so as to obtain the numerical solutions of the stator and the rotor currents during the ...
The paper addresses unbalanced magnet pull (UMP) due to rotor eccentricity in cage induction generat...
Abstract: A turn fault in the stator winding of a generator causes a large circulating current to fl...
In the event of internal faults in turbo generators large currents flow in the windings due to the u...
Due to the continuous use of large generators in industry and in power stations, and the need to kee...
Hydropower research is often perceived to be an old and exhausted field of study but with ageing equ...
In this paper, rotor inter-turn faults in salient-pole synchronous machines are investigated using f...
The paper presents the modelling of the unbalanced magnetic pull (UMP) and its experimental validati...
This paper presents a method to analyse the dynamical behaviour of large-size generators due to the ...
The modelling of the unbalancedmagneticpull (UMP) in generators and the experimentalvalidation of th...
The excitation windings of the synchronous generators are generally reliable. However, electrical, m...
This paper presents a method to analyse the dynamical behaviour of large-size generators due to the ...
The excitation windings of the synchronous generators are generally reliable. However, electrical, m...
In rotating electrical machines with eccentric rotor, an imbalance of the electromagnetic forces act...
© 1972-2012 IEEE. Condition monitoring can diagnose the inception of fault mechanisms in induction m...
This paper analyzes the rotor magnetic potential distribution of one large turbo generator both in n...
The paper addresses unbalanced magnet pull (UMP) due to rotor eccentricity in cage induction generat...
Abstract: A turn fault in the stator winding of a generator causes a large circulating current to fl...
In the event of internal faults in turbo generators large currents flow in the windings due to the u...
Due to the continuous use of large generators in industry and in power stations, and the need to kee...
Hydropower research is often perceived to be an old and exhausted field of study but with ageing equ...
In this paper, rotor inter-turn faults in salient-pole synchronous machines are investigated using f...
The paper presents the modelling of the unbalanced magnetic pull (UMP) and its experimental validati...
This paper presents a method to analyse the dynamical behaviour of large-size generators due to the ...
The modelling of the unbalancedmagneticpull (UMP) in generators and the experimentalvalidation of th...
The excitation windings of the synchronous generators are generally reliable. However, electrical, m...
This paper presents a method to analyse the dynamical behaviour of large-size generators due to the ...
The excitation windings of the synchronous generators are generally reliable. However, electrical, m...
In rotating electrical machines with eccentric rotor, an imbalance of the electromagnetic forces act...
© 1972-2012 IEEE. Condition monitoring can diagnose the inception of fault mechanisms in induction m...
This paper analyzes the rotor magnetic potential distribution of one large turbo generator both in n...
The paper addresses unbalanced magnet pull (UMP) due to rotor eccentricity in cage induction generat...
Abstract: A turn fault in the stator winding of a generator causes a large circulating current to fl...
In the event of internal faults in turbo generators large currents flow in the windings due to the u...