Strand Current Distribution Modeling in Turbo-generators Using Finite-element Method Based on Proposed Dual Method |
| |
Authors: | Farhad Rezaee Alam Amin Saied |
| |
Affiliation: | Electrical Engineering Department, K.N. Toosi University of Technology, Tehran, Iran |
| |
Abstract: | Abstract—The necessity of using a 3D model is one of the main problems for modeling Roebel bar transposition in turbo-generators by the finite-element method. This article proposes a 2D dual model for computing strand current distribution in the Roebel bar of turbo-generators. Considering the leakage and mutual inductances for each strand and the coupling inductances between them, the end winding region is modeled in this 2D dual model. In this article, the Roebel bar structure including 16 strands was considered, and these distributions are calculated for different transpositions using the finite-element method. In the finite-element method model, the circulating currents are calculated by subtracting a load current at each strand from the total of strand current. Also, for different transpositions, such as 90°, 180°, 360°, and 540°, the circulating currents are calculated using an analytical method. The obtained strand current distributions from the 2D dual model have good agreement with the obtained results from the analytical method for the 180° and 360° transposed coil models. |
| |
Keywords: | Turbo-generator dual model circulating current transposition slot region end winding region strand finite-element method analytical method inductance |
|
|