This paper presents a method to analyse the dynamical behaviour of large-size generators due to the magnetic pull. In rotating electrical machines, the electromagnetic radial forces acting upon rotor and stator surfaces are very large, but they are balanced when the rotor is concentric with the stator. Similarly, the tangential forces produce only an axially rotating moment. If the rotor becomes eccentric, then an imbalance of these forces occurs, so that a net radial electromagnetic force, known as Unbalanced Magnetic Pull (UMP), is developed. The models traditionally proposed in the literature to study the UMP can be considered as reliable in case of small size electrical machines supported by rolling bearings. On the contrary, in case of...
Hydropower research is often perceived to be an old and exhausted field of study but with ageing equ...
Earlier measurements on hydropower generators have indicated the existence of backward whirling moti...
The paper addresses unbalanced magnet pull (UMP) due to rotor eccentricity in cage induction generat...
This paper presents a method to analyse the dynamical behaviour of large-size generators due to the ...
This paper presents a method to analyse the dynamical behaviour of large-size generators due to the ...
In rotating electrical machines with eccentric rotor, an imbalance of the electromagnetic forces act...
This paper presents a method to analyze the dynamical behaviour of large size generators due to the ...
The modelling of the unbalancedmagneticpull (UMP) in generators and the experimentalvalidation of th...
The paper presents the modelling of the unbalanced magnetic pull (UMP) and its experimental validati...
The modelling of the unbalanced magnetic pull (UMP) and the analysis of its effects on the dynamica...
The paper analyses the effects produced by the unbalanced magnetic pull on the dynamical behavior o...
Smooth-poles generators of electrical power plants are flexible and this causes the eccentricity of ...
Abstract Electromechanical interaction in rotating machinery is an interesting nonlinear phenomenon...
Hydropower research is often perceived to be an old and exhausted field of study but with ageing equ...
Earlier measurements on hydropower generators have indicated the existence of backward whirling moti...
The paper addresses unbalanced magnet pull (UMP) due to rotor eccentricity in cage induction generat...
This paper presents a method to analyse the dynamical behaviour of large-size generators due to the ...
This paper presents a method to analyse the dynamical behaviour of large-size generators due to the ...
In rotating electrical machines with eccentric rotor, an imbalance of the electromagnetic forces act...
This paper presents a method to analyze the dynamical behaviour of large size generators due to the ...
The modelling of the unbalancedmagneticpull (UMP) in generators and the experimentalvalidation of th...
The paper presents the modelling of the unbalanced magnetic pull (UMP) and its experimental validati...
The modelling of the unbalanced magnetic pull (UMP) and the analysis of its effects on the dynamica...
The paper analyses the effects produced by the unbalanced magnetic pull on the dynamical behavior o...
Smooth-poles generators of electrical power plants are flexible and this causes the eccentricity of ...
Abstract Electromechanical interaction in rotating machinery is an interesting nonlinear phenomenon...
Hydropower research is often perceived to be an old and exhausted field of study but with ageing equ...
Earlier measurements on hydropower generators have indicated the existence of backward whirling moti...
The paper addresses unbalanced magnet pull (UMP) due to rotor eccentricity in cage induction generat...