Affiliation:
1. Indonesian Institute of Sciences
2. Indonesian Institute of Science
Abstract
One of the considerations many power plants today is whether they can get more power out of their existing equipment especially generator. However, it is required design review and feasibility study in order to extend the operating life and increase the capability and reliability. In this study, analysis of magnetic field was performed due to power uprating in order to prevent a saturation of the magnetic field in the core laminate which can lead to the emergence of heat concentration. Based on the results of magnetic analysis using finite element, there are no saturation of the magnetic field in the core lamination which can lead to the magnetic saturation and heat concentration, both for existing and uprating conditions.Therefore, the increasing a design margin on the generators from the current design of the margin of 471,000 kVA to 494,550 kVA with the 0.85 power factor will not pose a problem as long as all of the following recommendations can be implemented. Although it is predicted, there will be no saturation and hotspots on the generator, but the risk of temperature rise due to the uprating should be reduced by replacing the stator winding using the Full Class F Insulation which is resistant to temperatures up to 155 °C.
Publisher
Trans Tech Publications, Ltd.
Reference10 articles.
1. D. Žarko, T.A. Lipo, D. Ban, Analytical calculation of magnetic field distribution in the slotted air gap of a surface pm motor using complex relative air gap permeance, IEEE Transaction on Magnetics, vol. 42, no. 7, pp.1828-1837, Juli (2006).
2. G. Mahalingam, A. Keyhani, Design of 42v/3000w permanent magnet synchronous generator, Electrical Engineering Department, Ohio State University, Columbus Ohio, Technical Report (2000).
3. E.S. Hamdi, Design of small electrical machine, D.V. Morgan, Ed. England: John Wiley & Sons, (1994).
4. Information on http: /site. ge-energy. com/prod_serv/products/tech_docs/en/downloads/ger4212. pdf.
5. A. Parviainen, Design of axial-flux permanent-magnet low-speed machines and performance comparison between radial-flux and axial-flux machines, Lappeenranta University of Technology, Finland, PhD Thesis ISBN 952-214-030-9 (PDF), (2005).