Title :
Finite-element simulation of a generator on load during and after a three-phase fault
Author :
Sturgess, J.P. ; Zhu, M. ; MacDonald, D.C.
Author_Institution :
GEC Alsthom Eng. Res. Centre, Stafford, UK
fDate :
12/1/1992 12:00:00 AM
Abstract :
A two-dimensional, time-stepped, finite-element technique for the simulation of the electrical and mechanical transient response of a turbine generator to system faults is presented. The stator winding is modeled directly in phase bands, rather than as an equivalent sinusoidal distribution, and rotor torque is calculated by the Maxwell stress tensor method. The method is validated by a comparison of calculated results with test data for the case of a sudden three-phase short-circuit applied to a generator operating at full load, followed by fault clearance and reconnection to the power system
Keywords :
digital simulation; electric machine analysis computing; electrical faults; finite element analysis; machine theory; rotors; stators; transient response; turbogenerators; 2D; FEM; Maxwell stress tensor method; digital simulation; electric machine analysis computing; fault clearance; load; phase bands; power system; reconnection; rotor torque; short-circuit; stator; three-phase fault; transient response; turbine generator; turbogenerators; Finite element methods; Power generation; Power system faults; Rotors; Stator windings; System testing; Tensile stress; Torque; Transient response; Turbines;
Journal_Title :
Energy Conversion, IEEE Transactions on
