Effect of Equivalent Electrical Distance and Voltage Stability Improvement Using DSTATCOM in Radial Distribution System

• Published in: 2019 1st International Conference on Advanced Technologies in Intelligent Control, Environment, Computing & Communication Engineering (ICATIECE) pp. 372 - 377
• Main Authors: Babu P., Manjunatha, Lakshmikantha, B.R., Sundar, K Shanmukha
• Format: Conference Proceeding
• Language: English
• Published: IEEE 01.03.2019
• Subjects: Distribution Static Synchronous Compensator (DSTATCOM); FACTS (Flexible AC Transmission System); Impedance; Indexes; Power system stability; Radial distribution system; Radial Stability Index (RSI); Radial System Sensitivity Index (RSSI); Reactive power; Stability criteria; Thermal stability; Voltage Stability Improvement
• DOI: 10.1109/ICATIECE45860.2019.9063828

Demand for electrical power is growing day-today and utilities are forced to operate nearer to their load ability limits. Voltage stability has become main concern for ensuring healthy grid operations. In literature various indices are proposed for predicting the voltage stability limits of radial power system but in-depth analysis is hardly done. An attempt has been made to study the behavior of various indices proposed in the literature with the equivalent electrical distance of the load bus from the source. A new index named equivalent electrical distance index (Z th ) is proposed which is calculated using the equivalent electrical distance from bus to the source. The proposed index is compared with existing indices and progress of voltage stability with location of DSTATCOM is tested on 15 bus and 28 bus radial rural electrification networks using MATLAB software.