Voltage collapse mitigation by using SVC and Phase-Plane trajectory analysis

Author

Nandi, C. ; Chakraborty, A.K.

Author_Institution

Dept. of Electr. Eng., Tripura Univ. (A Central Univ.), Suryamaninagar, India

fYear

2014

fDate

11-13 Dec. 2014

Firstpage

1

Lastpage

6

Abstract

This paper deals with modeling and simulation of SVC in IEEE 14 bus System with Induction Motor load for avoiding voltage collapse. Voltage collapse can be simply described by insufficient reactive power support to the load bus. Three Phases to ground fault is applied in predominant Induction motor load bus for voltage collapse analysis. Due to fault, chaotic behavior is present in power system network during fault time interval. The effect of Post Fault Clearing Time [PFCT] of the system after facing the fault, to prevent permanent voltage collapse has been analyzed with and without SVC. A simple method is used for analyzing the phase-plane trajectory. The Phase-Plane trajectory is calculated from the computer simulation waveform data. Chaotic behavior has been observed in computer simulations for an IEEE 14 bus power system network including SVC.

Keywords

fault diagnosis; induction motors; power system dynamic stability; power system simulation; reactive power; static VAr compensators; IEEE 14 bus System; SVC; chaotic behavior; induction motor load; phase-plane trajectory analysis; post fault clearing time; power system network; voltage collapse mitigation; Induction motors; Power harmonic filters; Power system stability; Reactive power; Static VAr compensators; Trajectory; Voltage control; Phase-Plane Trajectory; Post fault clearing time; SVC; Voltage Collapse;

fLanguage

English

Publisher

ieee

Conference_Titel

India Conference (INDICON), 2014 Annual IEEE

Conference_Location

Pune

Print_ISBN

978-1-4799-5362-2

Type

conf

DOI

10.1109/INDICON.2014.7030644

Filename

7030644