Study of Stator Strength for Hydroelectric Generator – A Literature Review

International Journal of Mechanical Engineering

© 2015 by SSRG - IJME Journal

Volume 2 Issue 5

Year of Publication : 2015

Authors : Dr. Jitendra Kumar, Jayesh Janardhanan

10.14445/23488360/IJME-V2I5P117

How to Cite?

Dr. Jitendra Kumar, Jayesh Janardhanan, "Study of Stator Strength for Hydroelectric Generator – A Literature Review," SSRG International Journal of Mechanical Engineering, vol. 2,  no. 5, pp. 41-46, 2015. Crossref, https://doi.org/10.14445/23488360/IJME-V2I5P117

Abstract:

This paper summarizes the features that must be considered, and specified in the design stage of stator to ensure that a generator as whole meets the technical performance requirements. The
fabricated stator frame of hydroelectric generator is designed for electrical and mechanical applications. The stator frames are of larger diameters widely used in electrical machines and the arrangement of the same are different in shape and size. These frames are subjected to static as well as dynamic loads which may be uniform or non-uniform in nature depending upon its operating conditions. The study of complete stator is very much useful even to modify or optimize a small parameter.

Keywords:

Generator, stator frame, static loading, dynamic loading, Electrical machines

References:

[1]    Walker J.H (1979), ‘Large AC machines – Design, Manufacturing & Operations’, BHEL, first edition 1979, Chapter-1 Page 3-12, Chapter-3 Page 22-47, Chapter-4 Page 51-73.
[2]    J Guthrie Brown (1984), ‘Hydro-electric  engineering practice’, Volume-II, Mechanical & Electrical, CBS Publishers Delhi, Part-B, Generating Plant, Chapter VII to IX Page 257-402.
[3]    GE website, ‘Hydro Generator’, www.gepowerconversion.com/hydrogeneratorbrochure.
[4]    Azuaje C and Millan A (2004), ‘Stator deformation of large hydro generators and its effect on the machines’, Session 2004, CIGRE.
[5]    Pasha Ali Amjad and Hussain Manzoor (2010), ‘Experimental and CFD analysis of hydro generator stator’, Proceedings of 37th national and 4th international conference on fluid mechanics and fluid power, IIT Madras, December, 2010.
[6]    Gilles Vogt (2013), ‘Experimental model for study of electro-magnetic phenomena in stator core-end Laminations of large generators’, Progress In Electromagnetics Research B, Vol. 56, 89-107, 2013
[7]    M. M. Znidarich (2008),’ Hydro Generator Stator Cores Part 2 –Core Losses, Degradation Mechanisms,Testing and Specificatio’, 2008 Australasian Universities Power Engineering Conference (AUPEC'08)