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Description: Web-Based Power System Analysis and Simulation
web-based power system analysis and simulation (2) online virtual power system laboratory web-based power flow (2) web-based transient stability (2) web-based coherent generators (2) web-based synchronous machine analysis (2) web-based short circuit analysis (2)
This simulation solves n -nonlinear differential equations that model the dynamics of interconnected synchronous generators using the 'deSolve' R package. Its not just a simulation tool, its a virtual lab online with real-time synchronous collaboration, lab manuals and quizzes integrated with Moodle. See video demo here
The Power Flow Lab is preloaded with 4 IEEE test systems that can be selected using a drop-down list. Once selected, the power flow for that test system is automatically run. This simulation solves a set of nonlinear algebraic equations that describe a power system using the Accelerated Gauss-Seidel, Newton-Raphson and Peturbation-theory iterative techniques. The perturbation theory technique requires further development for perfect results on ill-conditioned systems. Fast Decoupled and DC techniques are un
The simulation lab is depends on power flow simulation. It simulates a 3-phase bolted fault for an interconnected power system and also makes provision for complex fault impedance. The Zbus building algorithm was implemented to construct the impedance matrix. See app here
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