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Week - 1
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basic concepts used in power systems, circuit equations |
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Week - 2
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balanced three-phase circuits, power calculation at balanced three-phase systems, advantages of three-phase systems with respect to single phase systems |
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Week - 3
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definition of symmetrical components, sequence circuits of impedance loads, sequence circuits for series impedances |
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Week - 4
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sequence circuits of three-phase transmission lines, sequence circuits of rotating machines |
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Week - 5
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per-unit sequence models of three phase two winding and three phase three winding transformers, power calculation at sequence circuits |
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Week - 6
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ideal transformer, equivalent circuit of single phase practical trasformer, per-unit system, per-unit equivalent circuit of three-phase two winding transformer, three-phase transformers, auto-transformer |
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Week - 7
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Midterm Exam |
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Week - 8
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electrical networks, towers, cables |
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Week - 9
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isolators, surge arresters, disconnectors, breakers |
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Week - 10
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short and medium transmission line models, differential equations for transmission lines |
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Week - 11
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equivalent pi circuit, lossless transmission lines, maximum power flow |
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Week - 12
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linear algebraic equations, Gauss elimination, Jacobi and Gauss-Seidel method, Newton-Raphson method |
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Week - 13
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Power flow problem, power flow solution with Gauss-Seidel method, power flow solution with Newton-Raphson method, fast decoupled power flow, control of power flow |
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Week - 14
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Final Exam |
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