ANALYSIS AND SIMULATION ON THE EFFECT OF ROTOR INTERTURN SHORT CIRCUIT ON MAGNETIC FLUX DENSITY OF TURBO-GENERATOR
Yu-Ling He – Meng-Qiang Ke – Gui-Ji Tang – Hong-Chun Jiang – Xing-Hua Yuan
The intent of this paper is to investigate the effect of the interturn short circuit fault (ISCF) in rotor on the magnetic flux density (MFD) of turbo-generator. Different from other studies, this work not only pays attention to the influence of the faulty degrees on the general magnetic field, but also investigates the effect of the short circuit positions on the harmonic components of MFD. The theoretical analysis and the digital simulation through the FEM software Ansoft are performed for a QSFN-600-2YHG turbo-generator. Several significant formulas and conclusions drawn from the analysis and the simulation results are obtained to indicate the relation between the harmonic amplitude of the MFD and the faulty degree (via nm, the number of the short circuit turns), and the relation between the MFD harmonic amplitude and the faulty position (via &alpha:r, the angle of the two slots in which the interturn short circuit occurs). Also, the developing tendency of the general magnetic field intensity, the distribution of the magnetic flux lines, and the peak-to-peak value of MFD are presented.
Keywords: turbo-generator, rotor inter-turn short circuit, faulty degree, short circuit position, MFD