ABSTRACT
Multiphase induction machine offers numerous advantages compared to the
conventional three phase induction machine. It is an upgrade from the conventional
three phase induction machine. By splitting the phase belt of a three phase, a sixphase
machine is realised. The areas of application of multiphase machines are
enormous, mostly where reliability is paramount. This research presents the
modelling and implementation of a split phase induction machine with Saturation
and skin effects incorporated for submarine application. A three phase
asynchronous machine is reconfigured and converted into a six-phase with same
size as the original machine. No load, Blocked rotor and Retardation tests were
carried out on the sample machine to determine machine parameters. MATLAB
software was employed for the simulation of the developed models. The simulation
results are presented and discussed. Comparison of the models representing
different operating conditions is also presented. The results of the study show that
the six phase machine has an improved torque of 84-Nm compared to 64-Nm of the
three phase. The stator phase currents in the six phase is reduced by 50 percent
compared to the three phase machine. The results also show that the phase currents
settling time in the three phase and six phase is 0.4secs and 0.2secs respectively.
The mechanical rotor speed of the three and six phase reaches synchronism in
0.3secs and 0.6secs respectively. The torque settling time is 0.6secs and 0.5secs
respectively. The efficiency of the two motors are also compared, and the results
show that the three and six phase motors is 84 percent and 88 percent respectively.
This shows a 4 percent improvement in motor efficiency, and translates to reduction
in energy demand by this machine. It important to point out here that multiphase
induction machine will soon replace the traditional three phase network.
, A & JAMES, E (2021). Dynamic Modelling And Implementation Of Split-Phase Induction Machine. Afribary. Retrieved from https://track.afribary.com/works/dynamic-modelling-and-implementation-of-split-phase-induction-machine
, AKPAMA and EKO JAMES "Dynamic Modelling And Implementation Of Split-Phase Induction Machine" Afribary. Afribary, 05 May. 2021, https://track.afribary.com/works/dynamic-modelling-and-implementation-of-split-phase-induction-machine. Accessed 30 Nov. 2024.
, AKPAMA, EKO JAMES . "Dynamic Modelling And Implementation Of Split-Phase Induction Machine". Afribary, Afribary, 05 May. 2021. Web. 30 Nov. 2024. < https://track.afribary.com/works/dynamic-modelling-and-implementation-of-split-phase-induction-machine >.
, AKPAMA and JAMES, EKO . "Dynamic Modelling And Implementation Of Split-Phase Induction Machine" Afribary (2021). Accessed November 30, 2024. https://track.afribary.com/works/dynamic-modelling-and-implementation-of-split-phase-induction-machine