Title :
Capacitor Design Considering First Swing Stability of Distributed Generations
Author :
Bidram, Ali ; Hamedani-golshan, Mohamad-esmail ; Davoudi, Ali
Author_Institution :
Dept. of Electr. Eng., Univ. of Texas, Arlington, TX, USA
Abstract :
This paper proposes an algorithm for designing a fixed shunt capacitive compensator to improve first swing stability margin of a micro-grid including synchronous machine-based distributed generators (SMDGs). The notion of trajectory sensitivity analysis is used to determine the sensitivity of the SMDGs´ relative rotor angles and velocities with respect to the compensator susceptance. For a given fault contingency, the minimum required susceptance and compensator location are determined to maintain the first swing stability of SMDGs. The proposed methodology can be used for a micro-grid with an arbitrary number of SMDGs, various fault scenarios, and both grid-connected and autonomous (islanded) modes of operation. The proposed algorithm is verified using time-domain simulation of a modified benchmark system of the IEEE standard 399-1997.
Keywords :
IEEE standards; distributed power generation; fault location; power capacitors; power distribution faults; power grids; power system stability; sensitivity analysis; synchronous generators; time-domain analysis; IEEE standard 399-1997; SMDG; autonomous islanded mode; capacitor design; distributed generation; fault contingency; first swing stability margin; fixed shunt capacitive compensator design; grid-connected mode; microgrid; modified benchmark system; relative rotor angle; relative rotor velocity; synchronous machine-based distributed generator; time-domain simulation; trajectory sensitivity analysis; Capacitors; Distributed power generation; Microgrids; Power system stability; Sensitivity analysis; Stability analysis; Capacitive compensator design; micro-grid; stability; synchronous machine-based distributed generators; trajectory sensitivity analysis;
Journal_Title :
Power Systems, IEEE Transactions on
DOI :
10.1109/TPWRS.2012.2193603
