Title :
Integration of HVDC control dynamics into transient energy functions
Author :
Fernandopulle, N. ; Alden, Robert T H
Abstract :
A common approximation used in the formulation of transient energy functions (TEFs) for AC/DC power systems is the omission of DC control dynamics. The differential equations representing the DC system dynamics are used to track the fault-on trajectory, but not to derive the TEF. This leads to an error in TEF based stability prediction. In this paper, a method is presented to derive the TEF with DC system dynamics explicitly integrated. By using this comprehensive transient energy function, the accuracy of the stability prediction in AC/DC systems is improved. In addition, due to inclusion of differential equations representing DC dynamics directly in the TEF, the calculation of post-fault equilibrium point is done only once. This leads to considerable reduction in CPU time. The method is validated using 12-bus and 30-bus AC/DC test systems by comparing results with those obtained from time simulation.
Keywords :
HVDC power transmission; control system synthesis; differential equations; power system dynamic stability; power system transient stability; power transmission control; AC/DC power systems; AC/DC test systems; DC system dynamics; HVDC control dynamics; differential equations; fault-on trajectory; post-fault equilibrium point; transient energy functions; Control systems; Differential equations; HVDC transmission; Power system control; Power system dynamics; Power system faults; Power system stability; Power system transients; Power systems; Trajectory;
Conference_Titel :
Electrical and Computer Engineering, 2003. IEEE CCECE 2003. Canadian Conference on
Print_ISBN :
0-7803-7781-8
DOI :
10.1109/CCECE.2003.1226471
