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Power System Generation, Transmission and Distribution

Power System Generation, Transmission and Distribution. Instructor: Prof. D. P. Kothari, Center for Energy Studies, IIT Delhi. This course deals with topics in power system generation, transmission and distribution: electrical energy systems and its structures, hydroelectric power generation, renewable energy, air pollutants, voltage regulation, power flow through a line, methods of voltage control, cables, high voltage DC transmission, load flow studies, Newton Raphson (NR), load flow method and optimal generation scheduling. (from nptel.ac.in)

Lecture 15 - Methods of Voltage Control


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Lecture 01 - Electrical Energy Systems: A Perspective
Lecture 02 - Structure of Power Systems
Lecture 03 - Conventional Sources of Electrical Energy
Lecture 04 - Hydroelectric Power Generation
Lecture 05 - Non Conventional Energy Sources
Lecture 06 - Renewable Energy
Lecture 07 - Energy Storage
Lecture 08 - Deregulation, Distributed Generation, Dispersed Generation
Lecture 09 - Air Pollutants
Lecture 10 - Transmission Line Parameters
Lecture 11 - Capacitance of Transmission Lines
Lecture 12 - Characteristics and Performance of Transmission Lines
Lecture 13 - Voltage Regulation
Lecture 14 - Power Flow through a Line
Lecture 15 - Methods of Voltage Control
Lecture 16 - Compensation of Transmission Lines
Lecture 17 - Compensation of Transmission Lines (cont.)
Lecture 18 - Underground Cables
Lecture 19 - Cables (cont.)
Lecture 20 - Insulators for Overhead Lines
Lecture 21 - High Voltage DC Transmission (HVDC)
Lecture 22 - High Voltage DC Transmission (cont.)
Lecture 23 - Distribution Systems
Lecture 24 - Automatic Generation Control
Lecture 25 - Automatic Generation Control (cont.)
Lecture 26 - Load Flow Studies
Lecture 27 - Load Flow Problem
Lecture 28 - Load Flow Analysis (cont.), Gauss-Seidel Method
Lecture 29 - Newton-Raphson (NR), Load Flow Method
Lecture 30 - Fast Decoupled Load Flow
Lecture 31 - Control of Voltage Profile
Lecture 32 - Optimal System Operation (Economic Operation)
Lecture 33 - Optimal Unit Commitment
Lecture 34 - Optimal Generation Scheduling
Lecture 35 - Optimal Load Flow, Hydro Thermal Scheduling