Transient Stability Analysis of Distributed Systems with Distributed Generation (DG)
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In power systems, the use of Distributed Generation (DG) has become increasingly prevalent due to its ability to enhance power quality and reliability. However, the integration of DG introduces new challenges, particularly concerning system stability. Transient stability analysis is essential to ensure the reliable operation of power systems. This analysis helps identify potential issues, such as rotor angle deviations or voltage collapses, and enables the implementation of corrective measures. For code implementation, transient stability analysis typically involves solving differential-algebraic equations (DAEs) using numerical methods like the Runge-Kutta algorithm. Key functions include modeling synchronous generators with swing equations, simulating fault scenarios, and evaluating critical clearing times. Therefore, transient stability analysis is crucial for both the design and operation of modern power systems with DG integration.
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