Title :
On equivalent circuit structures for empirical modeling of turbine-generators
Author :
Kamwa, I. ; Viarouge, Philippe
Author_Institution :
Inst. de Recherche, Hydro-Quebec, Varennes, Que., Canada
fDate :
9/1/1994 12:00:00 AM
Abstract :
This work is aimed at extending a discussion offered concerning a paper presented at the 1993 IEEE/PES Winter Meeting (Boldea and Nasar, 1987) which attempted to show that the “differential leakage” was not required and, in general, seriously questioned the need for a third-order model. Unfortunately, the simplifications were possible only using a per-unit system not compatible with industry standards and current engineering practices for saturation analysis. In this paper, mathematical reasoning is combined with maximum-likelihood estimation from actual SSFR data to show that, for network structures preserving the main-field magnetizing impedance, the differential leakage contributes significantly to the dynamic response and proves mandatory for adequately modeling rotor impedance. Besides, the claim made that a third-order model may not be sufficiently parsimonious is not home out by further verification of the author´s own data end extensive experience with real SSFR data from a 1100 MVA turbine-generator
Keywords :
dynamic response; electromagnetic fields; equivalent circuits; machine theory; magnetic leakage; magnetisation; maximum likelihood estimation; rotors; turbogenerators; 1100 MVA; differential leakage; dynamic response; empirical modeling; equivalent circuit; main-field magnetizing impedance; mathematical reasoning; maximum-likelihood estimation; rotor impedance; saturation analysis; standstill frequency response; third-order model; turbine-generators; Curve fitting; Design for disassembly; Equivalent circuits; Frequency estimation; Impedance; Inductance; Magnetic analysis; Magnetic flux; Saturation magnetization; Standards;
Journal_Title :
Energy Conversion, IEEE Transactions on
