Analysis of Faulted Power SystemsThis classic text offers you the key to understanding short circuits, open conductors and other problems relating to electric power systems that are subject to unbalanced conditions. Using the method of symmetrical components, acknowledged expert Paul M. Anderson provides comprehensive guidance for both finding solutions for faulted power systems and maintaining protective system applications. You'll learn to solve advanced problems, while gaining a thorough background in elementary configurations. Features you'll put to immediate use: Numerous examples and problems Clear, concise notation Analytical simplifications Matrix methods applicable to digital computer technology Extensive appendices |
Contents
General Considerations | 3 |
Symmetrical Components | 19 |
Sequence Impedance of Transmission Lines | 71 |
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30 fault ACSR autotransformer base branch capacitance circuit of Figure column compute cycles cycles cycles defined delta networks elements equation equivalent circuit Example fault condition fault current fault diagram fault impedance fault on phase fault point ground wires hermitian matrix I₁ impedance matrix incidence matrix indefinite admittance matrix inductance inverse lines open load mutual impedances mutually coupled node Note parameters phase shift phasor positive sequence network power system primitive equation primitive matrix problem quantities reactance result rotor sequence voltages series fault shown in Figure shunt fault skew-hermitian matrix SLG fault solution solve symmetric matrix symmetrical components Table terminal three-phase transformer transposed two-port networks unbalance unbalanced unit length V₁ V₂ voltage drop voltages and currents winding write Z₁ Z₂ zero sequence impedance zero sequence network Ζωω