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Implementation and experimental evaluation of a parameterized PMSynRM model using Matlab and Comsol Multiphysics
KTH, School of Electrical Engineering and Computer Science (EECS).
2019 (English)Independent thesis Advanced level (degree of Master (Two Years)), 20 credits / 30 HE creditsStudent thesis
Abstract [en]

This thesis focuses on modelling of the permanent magnet synchronous reluctancemotor (PMSynRM), which has drawn considerable attention by researchers thanks toits high efficiency and wide range of speed operation. Comparisons with measurementsfrom a four-pole PMSynRM with four barriers and 24 stator slots have been carriedout. In this thesis work, Matlab and Comsol Multiphysics are used to implement theparameterized PMSynRM model.Models of the PMSynRM in two-dimensions (2D) and three-dimensions (3D) havebeen implemented. The electromotive force (back emf) at no load condition for a fullpitchand short-pitch winding as well as the air-gap flux density distribution have beencalculated. A parametric study has been performed where the air-gap length, insulationratio of both d and q-axes, as well as flux barrier number have been varied and theeffect on the machine performance has been observed. The losses including eddycurrentlosses in permanent magnet, stator lamination loss, and rotor lamination losshave been calculated. The back emf and rated torque as well as developed torque witha pure q-axis current have been compared with corresponding experimental data.A 3D model of an axially shortened rotor has also been implemented in where apulsating current has been applied to estimate eddy-current losses in the permanentmagnets. The predicted losses from the 2D model and 3D model have been comparedfor pulsating currents with varying frequency and magnitude.

Abstract [sv]

Denna avhandling fokuserar på modellering av permanentmagneten synkronreluktansmotor (PMSynRM), som har fäst stor uppmärksamhet av forskare tack varedess höga effektivitet och brett spektrum av hastigheter. Jämförelser med mätningarfrån en fyrpolig PMSynRM med fyra hinder och 24 statorspåren har utförts. I dettaexamensarbete, Matlab och Comsol Multi används för att implementera parameterPMSynRM modell. Modeller av PMSynRM i två dimensioner (2D) och tre dimensioner(3D) har genomförts. Den elektromotoriska kraften (mot-emk) utanbelastningstillstånd för en full-pitch och kort stigning lind samt luftgapetfördelningsflödestäthet har beräknats. En parametrisk studie har gjorts där luftspaltlängden,isolering förhållande av både d- och q-axlar, såväl somflödesbarriärnummer har varierats och effekten på maskinens prestanda harobserverats. Förlusterna inklusive virvelströmsförluster i permanentmagnet,statorskiktet förlust, och rotorlamine förlust har beräknats. Mot-emk och nominelltvridmoment samt utvecklat vridmoment med en ren q-axelström har jämförts medmotsvarande experimentella data. En 3D-modell av en axiellt förkortad rötor har ocksågenomförts i där en pulserande ström har tillämpats för att uppskattavirvelströmsförluster i permanentmagneterna. De förutsagda förluster från 2Dmodellenoch 3D-modell har jämförts för pulserande strömmar med varierandefrekvens och storlek.

Place, publisher, year, edition, pages
2019. , p. 71
Series
TRITA-EECS-EX ; 2019:606
Keywords [en]
Comsol Multiphysics, eddy-current losses, permanent-magnet synchronous reluctance motors, reluctance
Keywords [sv]
Comsol Multiphysics, virvelströmsförluster, permanentmagnet synkrona reluktansmotorer, reluktans
National Category
Engineering and Technology
Identifiers
URN: urn:nbn:se:kth:diva-265782OAI: oai:DiVA.org:kth-265782DiVA, id: diva2:1380837
Educational program
Master of Science - Electric Power Engineering
Examiners
Available from: 2019-12-19 Created: 2019-12-19 Last updated: 2019-12-19Bibliographically approved

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