Abstract
To avoid a blackout, power swing detection and an out-of-step protection method are essential. With the correct generator out-of-step relaying decision, power system stability improves. The chapter begins by presenting an accurate model of a synchronous generator. The predictive power swing detection and out-of-step tripping method are then presented in this chapter. In this chapter, the proposed out-of-step protection mechanism is implemented using the single machine infinite bus (SMIB). For the examination of the proposed out-of-step protection method for the transmission line, the contrasting situations with variations in fault resistance, position, and duration are considered. In the end, the chapter discusses the impact of small-signal disturbance and fault resistance on out-of-step protection. The proposed technique provides appropriate power swing detection and measurement performance. This chapter is based on Desai and Makwana (2022).
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Desai, J.K.P., Makwana, V. (2023). Predictive Out of Step Protection. In: Power Swing Detection and Generator Out-of-Step Protection Under Renewable Power Source Integration. Energy Systems in Electrical Engineering. Springer, Singapore. https://doi.org/10.1007/978-981-19-9546-0_5
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DOI: https://doi.org/10.1007/978-981-19-9546-0_5
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