Abstract
Although the power system usually always appears stable and reliable to consumers, a lot of work and research goes into keeping the power system both stable and reliable under constantly changing conditions and in these increasingly demanding times. One of the key issues in the power system is maintaining stability after large disturbances in order to prevent the loss of synchronicity of the generators in the system. Today’s generator protection systems mostly use measurements of impedance change to detect generator out of step. This article discusses the possibility of detecting the loss of synchronicity by using real time load angle measurements. The authors propose a real time load angle measurement algorithm and present the results of the algorithm’s testing performed on a real hydrogenerator. The results show that the developed algorithm gives highly accurate real time load angle measurements with the maximum possible resolution and that the load angle can be used for detecting the synchronous generator out of step.
Highlights
IntroductionPower system stability is crucial for normal, reliable and safe power system operation
Power system stability is crucial for normal, reliable and safe power system operation.System disturbances that lead to power system oscillations, such as short circuits, can harm synchronous generators but can cause a part or the entire power system to black out
The results clearly show that correcting the rotor geometrical imperfection improves the stability and accuracy of the load angle measurement of the synchronous generator
Summary
Power system stability is crucial for normal, reliable and safe power system operation. System disturbances that lead to power system oscillations, such as short circuits, can harm synchronous generators but can cause a part or the entire power system to black out. It is necessary to protect the power system and the generators from these faults which can cause considerable damage. The quantities important for power system operation are the load angles of generators and the load angles, frequency and voltages of the nodes in the network. The stability is divided into rotor angle stability, frequency stability and voltage stability [1]. Generator loss of synchronicity phenomenon is related to the rotor angle stability and will be discussed in this article
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