Title :
Periodic Steady-State Solution of Electric Systems Including UPFCs by Extrapolation to the Limit Cycle
Author :
Segundo, Juan ; Medina, Aurelio
Author_Institution :
Div. de Estudios de Postgrado, Univ. Michoacana de San Nicolas de Hidalgo Morelia, Hidalgo
fDate :
7/1/2008 12:00:00 AM
Abstract :
This paper details a technique in the time domain for the fast periodic steady-state solution of systems with unified power-flow controllers (UPFCs) incorporating three strategies for the practical representation of the UPFC commutation process. The computation of the periodic steady-state solution of power systems with UPFCs including the proposed UPFC control strategies is efficiently obtained by extrapolation to the limit cycle using a Newton method based on a numerical-differentiation procedure. The periodic steady-state solution is validated against the solution obtained with the electromagnetic transient program PSCAD/EMTDC and against an implementation with the power system blockset of SIMULINK.
Keywords :
EMTP; Newton method; differentiation; limit cycles; load flow control; power system CAD; power system control; power system simulation; time-domain analysis; Newton method; PSCAD/EMTDC; SIMULINK; electric systems; electromagnetic transient program; extrapolation; limit cycle; numerical-differentiation procedure; periodic steady-state solution; power system blockset; time domain analysis; unified power-flow controllers; Commutation process; Newton method; electromagnetic transient program; fast periodic steady state; limit cycle; numerical differentiation; unified power-flow controllers (UPFCs);
Journal_Title :
Power Delivery, IEEE Transactions on
DOI :
10.1109/TPWRD.2008.916746
