Electromagnetic Transients in Power Systems
This text describes the mathematical and physical principles of electromagetic transients; covers topics of prime importance to the electric power industry; and presents problems to facilitate understanding of the various topics.
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air gap analysis Apparatus and Systems applied voltage attractive area cable capacitance caused charge CIGRE circuit breaker coil component computed corona current wave dielectric direct lightning strokes direct strokes discharge voltage earth effect electric field electrode electrogeometric model equation fault ferroresonance flashover function given ground flash density height high-voltage higher horizontal hvdc IEEE IEEE Trans induced voltage insulation coordination insulator string Laplace transform length low-voltage magnetic matrix neutral outage rate overhead line overhead power line overvoltages parameters peak phase conductor Power Apparatus Power Delivery Power Systems power-frequency protection radius reactance recovery voltage reflected resistor return-stroke current series capacitance shield wires shielding current shown in Fig sparkover stepped leader streamer striking distance stroke current substation surge arresters surge impedance surge protectors switching surge terminal tower-footing resistance transient voltage transmission line Traveling Waves valve blocks velocity vertical voltage distribution voltage level waveshape winding withstand