Modelling dynamic eccentricity in smooth air-gap induction machines

Author

Stavrou, Andreas ; Penman, James

Author_Institution

Electr. Authority of Cyprus, Larnaka, Cyprus

fYear

2001

fDate

2001

Firstpage

864

Lastpage

871

Abstract

In this paper a general model of machines with dynamic eccentricity is developed, using permeance harmonic analysis. The variation of the machine inductances is calculated and the different types of machine models are examined. A general treatment for modelling dynamic eccentricity in smooth air gap machines is developed. It is shown that the primitive fault mechanism can be modelled using modulation of the stator inductances at twice the rotational velocity of the rotor and that the rotor parameters depend on their spatial position with respect to the minimum airgap. On the basis of the derived model some numerical calculations are presented for the transient runups of healthy and faulty machines. For verification a series of experiments were conducted on a specially made 11 kV test machine and are illustrated in the paper

Keywords

air gaps; asynchronous machines; harmonic analysis; inductance; machine theory; rotors; stators; 11 kV; damping effects; dynamic eccentricity modelling; faulty machines; healthy machines; machine inductances variation; machine models; permeance harmonic analysis; primitive fault mechanism; quadrature phase model; rotational velocity; rotor parameters; smooth air-gap induction machines; spatial position; stator inductances modulation; transient runups; unbalanced mass; Air gaps; Harmonic analysis; Induction machines; Instruments; Magnetic flux; Numerical models; Shafts; Stators; Testing; Torque;

fLanguage

English

Publisher

ieee

Conference_Titel

Electric Machines and Drives Conference, 2001. IEMDC 2001. IEEE International

Conference_Location

Cambridge, MA

Print_ISBN

0-7803-7091-0

Type

conf

DOI

10.1109/IEMDC.2001.939421

Filename

939421