Transient Stability improvement using D-FACT Devices on IEEE 14 Bus System

  • Kamna, Sarbjeet Kaur, Kamal Singh Bisht

Abstract

In power system, radical rise of people is causing serious problem by increasing the power demand or load demand. This abrupt rise in the demand for load makes the system more overwhelmed or overloaded which further leads to many problems such as instable and unsecure power system network. With the growing complexity of power system network, power system stability, specifically the transient stability is major concern for power system planning engineers. Transient stability plays remarkable role in secure, stable and reliable power system operation. In this paper, transient stability analysis examined on standard IEEE 14 bus system with Power world simulator. The GENCLS model and AC7B exciter and PSSSH stabilizer with AVR (automatic voltage controller) is used to boost the transient stability response for a multi-machine system for excitation control and governor control method in conjunction with the power system stabilizer. Also this paper presents a comparative analysis of IEEE 14 bus system performance for stability analysis using DFACTS device with respect to excitation and governor control method.

Published
2020-06-06
How to Cite
Kamna, Sarbjeet Kaur, Kamal Singh Bisht. (2020). Transient Stability improvement using D-FACT Devices on IEEE 14 Bus System. International Journal of Advanced Science and Technology, 29(04), 7110 -. Retrieved from http://sersc.org/journals/index.php/IJAST/article/view/28119