PROJECT TITLE :
A New Strategy for Design and Analysis of a Double-Stator Switched Reluctance Motor: Electromagnetics, FEM, and Experiment
The double-stator switched reluctance motor (DSSRM) has a potential to provide more power per volume than alternative types of SRMs. This paper offers a brand new design strategy concentrating on power rating to calculate the size of a DSSRM. The new strategy is based on dissecting the DSSRM into 2 inner and outer rotor SRMs. In this regard, each inner and outer rotor SRMs are designed separately, and then, the results are merged along. The characteristics of the DSSRM are achieved utilizing analytical style and 3-D finite-part analysis (FEA). Additionally, the obtained results are compared with dual SRM. To see the appropriate performance of the motor, the magnetic analysis is performed utilizing a 3-D model. In addition, to realize optimal operation, two completely different winding configurations are investigated and compared with each different. Finally, a prototype of the flat-sort cup-form DSSRM with a segmented rotor is fabricated and tested within the laboratory. The results of the analytical calculations and also the FEA are validated by a testing motor, which show the accuracy and the look strategy, and it will be extensible to different types of motors.
Did you like this research project?
To get this research project Guidelines, Training and Code... Click Here