Validating Analytical Model for Steady-State Can Losses in a Canned Permanent Magnet Motor

The canned permanent magnet motor (CPMM) is a more effective and safer technology as compared to the conventional motor pump when it comes to handling toxic, dangerous and corrosive liquids. This research work presents an electromagnetic analysis simulation and test validation of the analytical method in a steady-state condition for predicting the behaviour and can losses of these motors. The induced losses are computed in cans that are engaging both stator and rotor. Comparison between analytical method, finite element simulations and measured values are presented. This research contributes in the analysis and design of canned motor%27s pumps. © 2018, © 2018 IETE.
The canned permanent magnet motor (CPMM) is a more effective and safer technology as compared to the conventional motor pump when it comes to handling toxic, dangerous and corrosive liquids. This research work presents an electromagnetic analysis simulation and test validation of the analytical method in a steady-state condition for predicting the behaviour and can losses of these motors. The induced losses are computed in cans that are engaging both stator and rotor. Comparison between analytical method, finite element simulations and measured values are presented. This research contributes in the analysis and design of canned motor's pumps. © 2018, © 2018 IETE.

Canned motor; Eddy losses; Electromagnetic analysis; Finite element method; Induced losses; Permanent magnets; Pumps; Steady state Electric motors; Electromagnetic simulation; Permanent magnets; Pumps; Canned motors; Eddy loss; Electromagnetic analysis; Induced loss; Steady state; Finite element method

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