Review of power system networks, complex power, and per units
Generator, load, transformer, and line models
Network matrices, the Y-bus matrix; tap changing transformers
Power flow techniques- solving by the Gauss-Seidel method
Solving by the Newton-Raphson method.
The Fast-Decoupled method.
Economic dispatch, neglecting generator limits and line losses
Economic dispatch with generator limits
Economic dispatch with line losses
Synchronous machine transients; Parks transformation
Short-circuit currents in synchronous machines
Machine constants and the effects of loading
Three-phase faults and short-circuit capacity
Bus-impedance matrix and the building algorithm
Fault studies using the bus-impedance matrix
Symmetrical components and the sequence impedances
Sequence networks; ground faults; and line-to-line faults
Ground faults; fault analysis using impedance matrices
Synchronous machine dynamics and the swing equation
Steady state generator stability
nsient stability and the Equal-Area Criterion
Numerical integration of the swing equation
Multi-machine transient stability
Lecture#1
Lecture#2
Lecture#3
Lecture#4
Lecture#5
Lecture#6
Lecture#7
Lecture#8
Lecture#9
Lecture#10
Lecture#11
Lecture#12
Lecture#13
Lecture#14
Lecture#15
Lecture#16
Lecture#17
Lecture#18
Lecture#19
Lecture#20
Lecture#21
Lecture#22
Lecture#23
http://www.onlineglobalgroup.com/WEBPROTECT-electricalbook.htm
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Generator, load, transformer, and line models
Network matrices, the Y-bus matrix; tap changing transformers
Power flow techniques- solving by the Gauss-Seidel method
Solving by the Newton-Raphson method.
The Fast-Decoupled method.
Economic dispatch, neglecting generator limits and line losses
Economic dispatch with generator limits
Economic dispatch with line losses
Synchronous machine transients; Parks transformation
Short-circuit currents in synchronous machines
Machine constants and the effects of loading
Three-phase faults and short-circuit capacity
Bus-impedance matrix and the building algorithm
Fault studies using the bus-impedance matrix
Symmetrical components and the sequence impedances
Sequence networks; ground faults; and line-to-line faults
Ground faults; fault analysis using impedance matrices
Synchronous machine dynamics and the swing equation
Steady state generator stability
nsient stability and the Equal-Area Criterion
Numerical integration of the swing equation
Multi-machine transient stability
Lecture#1
Lecture#2
Lecture#3
Lecture#4
Lecture#5
Lecture#6
Lecture#7
Lecture#8
Lecture#9
Lecture#10
Lecture#11
Lecture#12
Lecture#13
Lecture#14
Lecture#15
Lecture#16
Lecture#17
Lecture#18
Lecture#19
Lecture#20
Lecture#21
Lecture#22
Lecture#23
http://www.onlineglobalgroup.com/WEBPROTECT-electricalbook.htm
Register for Free and download Books