Course Details
Contents
Steady- state Modeling of the Power Network: Understanding the basic architecture of a transmission network, three-phase modeling of the different elements of a transmission network, formation of three-phase impedance and admittance matrices, review of the theory of sequence transformation, equivalent single-phase representation of the transmission network. Performance Analysis of an AC Transmission Line: Voltage and current profiles over a transmission line, loadability, shunt compensation, series compensation. Power System Load Flow Analysis: Numerical methods for solving non-linear algebraic equations, reference concepts in the context of power flow analysis, load modeling, lumped slack power flow analysis, \\ distributed slack power flow analysis, linearized representation of system’s loss characteristics, DC power flow analysis, loss-compensated DC power flow analysis and the concept of power flow accuracy, three-phase load flow analysis, introduction to the optimal power flow analysis. Unit Commitment: Principle of unit commitment, constraining factors of unit commitment, a brief overview of different methods for solving unit commitment problem. Power System Short Circuit Analysis: Thevenin’s equivalent of the power network, balanced short circuit analysis, unbalanced short circuit analysis. Power System State Estimation: Review of basic statistics, philosophy of state estimation, least square based method for power system state estimation, constrained state estimation, bad data detection, introduction to network observability analysis, introduction to network topology processor. Modeling and Analysis of Distribution Network: Understanding the basic architecture of a distribution network, modeling of the different components of a distribution network, distribution system power flow analysis, distribution system fault analysis.
References
1. Modern Power System Analysis by D. P. Kothari, I. J. Nagrath, Tata McGraw-Hill Education, 2003
2. Modern power systems analysis by Wang, Xi-Fan. New York : Springer, 2008 1st ed.
3. Power System Analysis And Design, 5th Ed., by J. Duncan Glover, Mulukutla S. Sarma, Thomas J. Overbye,
4. Distribution system modeling and analysis by by Kersting, William H., Boca Raton : CRC Press, c2007