Title :
Finite element approach for performances prediction of a small synchronous generator using ANSYS software
Author :
Khalf, M.A. ; Wamkeue, R. ; Aguglia, Davide
Author_Institution :
Quebec Univ. in Abitibi-Temiscamingue, Rouyn-Noranda, QC, Canada
fDate :
April 29 2012-May 2 2012
Abstract :
The paper presents a finite element (FE) based efficient analysis procedure for very small three-phase synchronous machines. Two FE formulation approaches are proposed to achieve this goal: the magnetostatic and the non-linear transient time stepped formulations. This combination allows us to predict the steady-state and the transient performance at no-load and in the case of a line-to-line short circuit fault. The method is successfully applied for replication and modeling of a small 120-VA, 4-salient pole, 208-V and 60-Hz, wound rotor laboratory synchronous generator. The closeness of FE simulated and experimental results greatly attest to the effectiveness of the proposed FE based small-generator modeling framework.
Keywords :
finite element analysis; magnetostatics; synchronous generators; ANSYS software; FE based efficient analysis procedure; apparent power 120 VA; finite element based efficient analysis procedure; frequency 60 Hz; line-to-line short circuit fault; magnetostatic; nonlinear transient time stepped formulation; performance prediction; small three-phase synchronous machine; small-generator modeling framework; voltage 208 V; wound rotor laboratory synchronous generator; Finite element methods; Generators; Integrated circuit modeling; Magnetic circuits; Magnetostatics; Saturation magnetization; Transient analysis; Finite elements; experimental setup and validation; performance predictions; small synchronous machine; transient electromagnetic analysis;
Conference_Titel :
Electrical & Computer Engineering (CCECE), 2012 25th IEEE Canadian Conference on
Conference_Location :
Montreal, QC
Print_ISBN :
978-1-4673-1431-2
Electronic_ISBN :
0840-7789
DOI :
10.1109/CCECE.2012.6334879
