Abstract

The preset work tested a freely domain software for solving index zero and one systems of differential-algebraic equations, named as DASSL. The code encompasses an efficient variable step size and variable order based on BDF methods to solve a system of DAEs or ODEs. The code was applied in power systems time domain studies, i.e., synchronous machine angular transient stability and long-term voltage stability, using the Brazilian South-Southeast Equivalent Power System. Using this real power system model including fast and slow response control devices, it was possible to investigate the code capability in simulating different stability phenomena in the same run. The variable step size and variable order algorithm implemented in DASSL results in a very powerful tool for power system time domain computer simulation.

Submitted: August 18, 2005 · Accepted: October 26, 2005 · Published: December 20, 2005

Recommended Citation

Onoda Pessanha, Jose Eduardo; Saavedra, Osvaldo; Paz, Alex; and Portugal, Carlos (2005) "Power System Stability Computer Simulation Using a Differential-Algebraic Equation Solver," International Journal of Emerging Electric Power Systems: Vol. 4 : Iss. 2, Article 3.
DOI: 10.2202/1553-779X.1133
Available at: http://www.bepress.com/ijeeps/vol4/iss2/art3