Motional time-harmonic simulation of slotted single-phase induction machines

Author

De Gersem, Herbert ; De Brabandere, Karel ; Belmans, Ronnie ; Hameyer, Kay

Volume

2

fYear

2002

fDate

25-25 July 2002

Abstract

Summary form only given as follows. Considering motional effects in the steady-state finite element simulation of single-phase induction machines inevitably requires a transient approach. The resulting computation time seriously hampers the application of finite elements within technical designs. In this paper, time-harmonic finite element simulation, as commonly applied to a three-phase induction machine model, is enabled also for single-phase motors by decomposing the air gap field in two revolving fields with opposite direction. The advantages and drawbacks of the novel approach are illustrated by a benchmark model. Issues such as ferromagnetic saturation, external circuit coupling, adaptive mesh refinement and torque computation are addressed. The method is used to simulate a capacitor start/run motor.

Keywords

air gaps; asynchronous machines; capacitor motors; finite element analysis; harmonic analysis; machine theory; adaptive mesh refinement; air gap field; benchmark model; capacitor start/run motor; external circuit coupling; ferromagnetic saturation; motional time-harmonic simulation; opposite direction revolving fields; slotted single-phase induction machines; steady-state finite element simulation; three-phase induction machine model; time harmonic finite element simulation; torque computation; transient approach; Adaptive mesh refinement; Capacitors; Circuit simulation; Computational modeling; Coupling circuits; Finite element methods; Induction machines; Induction motors; Steady-state; Torque;

fLanguage

English

Publisher

ieee

Conference_Titel

Power Engineering Society Summer Meeting, 2002 IEEE

Conference_Location

Chicago, IL, USA

Print_ISBN

0-7803-7518-1

Type

conf

DOI

10.1109/PESS.2002.1043383

Filename

1043383