Performance Analysis of the Transverse-Flux Machine with High number of Poles for Large Wind, Hydro, and Electric Ship Propulsion Systems

Abstract

Radial transverse-flux machine is presented in the paper and analyzed in generator and motor regimes. The 3D FEM model of the machine is co-simulated in ANSYS software with the balanced 3-phase resistive load. As a result, such electromechanical characteristics of the machine as electromagnetic torque, phase currents, and back EMF are calculated in the generator regime. Based on the equivalent circuit, phasor diagram, and analytical equations describing the operation of the synchronous machine, the Simulink dynamic model of the radial transverse-flux motor is designed to investigate various output characteristics of the machine in motor regime. Electromagnetic power, voltage, torque, and speed are first calculated at at no load, and after the speed of the motor reaches steady state, the mechanical load is suddenly applied. Based on the results, the power factor of the machine is determined by measuring the phase shift between the current and phase voltage waveforms. In addition, the characteristics of the electromagnetic power vs power angle of the machine are investigated using an analytical approach. Based on the results, several conclusions are made on the progress of the presented transverse-flux machine, and the future scope of study necessary to improve the machine further.