Abstract
Problem statement: The exact short transmission line model consists of the resistance and reactance. Most of previous researches study the transient stability of single machine infinite bus with neglecting the resistance of the line. Thus the simulation results may not close to the practical system. With the consideration with the actual short line model, it causes difficulty of deriving the mathematical model. Approach: This study investigates the transient stability of power system with consideration of the exact short transmission line model. The concept of two-port network is applied in this study. The generator, transformer and short transmission line are represented by a two-port. With the combination principles of the series and shunt connection, the mathematical model is achieved in a much simpler way. The proposed method is tested on the sample system and compared on various cases. Results: The first swing of rotor angle curve of the faulted system without the resistance is obviously higher than that of with the resistance whereas the second swing of the faulted system, without the resistance, is slightly less than that of with the resistance. The critical clearing time of the system with the resistance is better than that of with resistance. Conclusion: It was found in this study that the resistance of the transmission line should be included for investigating the transient stability of the power system. The resistance of the line provides the better results of the critical clearing time of the system but it provides the negative effect on damping improvement.
Highlights
Areas for power engineers because it indicates the Nowadays, the demand of electricity has dramatically increased and a modern power system becomes a complex network of transmission lines interconnecting the generating stations to the major loads points in the overall power system in order to support the high demand of consumers
The exact short transmission line model is represented by the impedance (ZL) which consists of a resistance (RL) and reactance (XL)
This study investigated the critical clearing time of the system with consideration the resistance of the transmission line
Summary
Areas for power engineers because it indicates the Nowadays, the demand of electricity has dramatically increased and a modern power system becomes a complex network of transmission lines interconnecting the generating stations to the major loads points in the overall power system in order to support the high demand of consumers. The dynamic behavior of synchronous generator plays very important role to determine the CCT of power system. The transmission line is generally divided into three major categories; short, medium and long model whose distance are about 80 km, above 80-250 km and above 250 km, respectively. To fully utilization the existing the transmission, the exact transmission line is needed to studied. This study will investigate the critical clearing time of the system with consideration the resistance of the Igwiro, 2010; Magaji and Mustafa, 2009; Zarate- short transmission line. The evaluation of Critical Clearing Time (CCT) of of the power system. The proposed method is tested on power system is one of the most important research sample system and compared on various cases
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