Add to ORKGThis article deals with the numerical modelling of the dynamic response of the rotating electrical machine on the application of the magnetic forces. The special attention is paid to the modelling of the magnetic forces that act on the stator winding of the machine and the computational model of the modal properties of the stator winding. The created computational model was used to investigation of the influence of the nominal air gap thickness and the air gap eccentricity on the sound power radiated by outer surface of the stator of the machine. The obtained results show that the nominal air gap thickness has slightly greater influence on the sound power of the machine than eccentricity of the air gap
Dans un contexte automobile électrique et hybride, la part des machines synchrones à aimants permane...
This paper presents a method to analyze the dynamical behaviour of large size generators due to the ...
In permanent-magnet synchronous machines (PMSMs) electromagnetic forces are identified as the princi...
This article deals with the numerical modelling of the dynamic response of the rotating electrical m...
This dissertation thesis deals with the computational modelling of the dynamic response of the rotat...
This dissertation thesis deals with the computational modelling of the dynamic response of the rotat...
Accurate assessment of the electromagnetic excitation forces and the vibration behaviour of stators ...
The aim of this thesis is to present an unified qualitative and quantitative analysis for the determ...
Vibrations in electrical machines lead to undesired operating conditions and noise. The reasons lie ...
For the acoustical computation of electromagnetic noise, it is very important to consider both, the ...
International audienceNowadays, the development of the electric motorization for land vehicles is es...
There are three principal sources of noise and vibration in electrical machines: electromagnetic sou...
Electrical machines are important devices that convert electric energy into mechanical work and are ...
The Maxwell stress tensor (MST) method is commonly used to accurately compute the global efforts, su...
Deviations inevitably occur in the manufacturing process of electrical machines. As with all manufac...
Dans un contexte automobile électrique et hybride, la part des machines synchrones à aimants permane...
This paper presents a method to analyze the dynamical behaviour of large size generators due to the ...
In permanent-magnet synchronous machines (PMSMs) electromagnetic forces are identified as the princi...
This article deals with the numerical modelling of the dynamic response of the rotating electrical m...
This dissertation thesis deals with the computational modelling of the dynamic response of the rotat...
This dissertation thesis deals with the computational modelling of the dynamic response of the rotat...
Accurate assessment of the electromagnetic excitation forces and the vibration behaviour of stators ...
The aim of this thesis is to present an unified qualitative and quantitative analysis for the determ...
Vibrations in electrical machines lead to undesired operating conditions and noise. The reasons lie ...
For the acoustical computation of electromagnetic noise, it is very important to consider both, the ...
International audienceNowadays, the development of the electric motorization for land vehicles is es...
There are three principal sources of noise and vibration in electrical machines: electromagnetic sou...
Electrical machines are important devices that convert electric energy into mechanical work and are ...
The Maxwell stress tensor (MST) method is commonly used to accurately compute the global efforts, su...
Deviations inevitably occur in the manufacturing process of electrical machines. As with all manufac...
Dans un contexte automobile électrique et hybride, la part des machines synchrones à aimants permane...
This paper presents a method to analyze the dynamical behaviour of large size generators due to the ...
In permanent-magnet synchronous machines (PMSMs) electromagnetic forces are identified as the princi...