Power System Control and StabilityAnalyzes the dynamic performance of interconnected power systems. * Examines the characteristics of the various components of a power system during normal operating conditions and during disturbances. * Explores the detailed mathematical models of system components and analyzes the system behavior using the necessary computational tools. |
Contents
The Elementary Mathematical Model | 13 |
System Response to Small Disturbances | 53 |
6 | 55 |
Copyright | |
21 other sections not shown
Common terms and phrases
amplifier analog computer assume base quantities block diagram boiler circuit classical model coefficient components constant curve damping defined differential equations droop dynamic effect eigenvalues electrical Example Excitation control system excitation system fault feedback field current flow flux linkage flyball frequency given governor hydraulic IEEE IEEE Trans impedance inductance infinite bus initial input K₁ K₂ linear load magnetic amplifier matrix mechanical nodes nonlinear Note obtained operating oscillations output parameters penstock phasor potentiometer Power System Stability pressure problem q axis rated reactance reference reheat representation response rheostat root locus rotor angle saturation servomotor shaft shown in Figure signal simulation Solution speed stator steady-state steam turbine subtransient swing equation synchronous machine Table terminal voltage tion torque transfer function transient unit V₁ variables voltage regulator VREF write zero λα λε