A 500-kV, 300-km, 6()-Hz, three-phase overhead transmission line, assumed to be lossless, has a series inductance of 0.97 mH/krn per phase and a shunt capacitance of 0.0115 µF/km. per phase. (a) Determine the phase constant p, the surge impedance Ze, velocity of propagation v, and the wavelength 1 of the line (b) Determine the voltage, current, real and reactive power at the sending end, and the percent voltage regulation of the line if the receiving-end load is 800 MW at 0.8 power factor lagging and at 500 kV.
A 500-kV, 300-km, 6()-Hz, three-phase overhead transmission line, assumed to be lossless, has a series inductance of 0.97 mH/krn per phase and a shunt capacitance of 0.0115 µF/km. per phase. (a) Determine the phase constant p, the surge impedance Ze, velocity of propagation v, and the wavelength 1 of the line (b) Determine the voltage, current, real and reactive power at the sending end, and the percent voltage regulation of the line if the receiving-end load is 800 MW at 0.8 power factor lagging and at 500 kV.
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Transcribed Image Text:A 500-kV, 300-km, 6()-Hz, three-phase overhead transmission line,
assumed to be lossless, has a series inductance of 0.97 mH/krn
per phase and a shunt capacitance of 0.0115 µF/km. per phase. (a)
Determine the phase constant p, the surge impedance Ze, velocity
of propagation v, and the wavelength 1 of the line (b) Determine
the voltage, current, real and reactive power at the sending end,
and the percent voltage regulation of the line if the receiving-end
load is 800 MW at 0.8 power factor lagging and at 500 kV.
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