7 th INTERNATIONAL CONGRESS ON ENGINEERING AND TECHNOLOGY MANAGEMENT, İstanbul, Turkey, 16 - 18 April 2022, pp.7-14
Electrical machines are magnetic and electromechanical systems that work
entirely with magnetism. Losses due to magnetism in rotating electrical
machines affect the working performance. The most difficult to intervene and
the most neglected magnetic leakages in rotating electrical machines are the
groove leakage fields in the stator groove air gap. The stator groove shapes
and the placement of the stator coil edges in the grooves are important factors
that directly affect the groove leakage fluxes and thus the motor power and
performance. Therefore, groove leakage should also be taken into account when
deciding on the stator groove shapes while designing rotating electrical
machines. In this study, a multi-classification detection study, which can be
useful in deciding the groove shape by considering the groove leaks, was
carried out using the support vector machines (SVM) model. As a result of the
test with five-fold cross-validation, it was understood that the SVM method
could contribute to the stator slot selection and design of rotary electric
machines.