11.18 A three-phase A-connected generator has an inter- nal impedance of 9 + j90 m2/4. When the load is removed from the generator, the magnitude of the terminal voltage is 13,800 V. The generator feeds a A-connected load through a transmission line with an impedance of 20 + j180 m/4. The per-phase impedance of the load is 7.056 + j3.417 N. a) Construct a single-phase equivalent circuit. b) Calculate the magnitude of the line current. c) Calculate the magnitude of the line voltage at the terminals of the load. d) Calculate the magnitude of the line voltage at the terminals of the source. e) Calculate the magnitude of the phase current in the load. f) Calculate the magnitude of the phase current in the source.

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11.18 A three-phase A-connected generator has an inter-
nal impedance of 9 + j90 m2/4. When the load is
removed from the generator, the magnitude of the
terminal voltage is 13,800 V. The generator feeds a
A-connected load through a transmission line with
an impedance of 20 + j180 m/4. The per-phase
impedance of the load is 7.056 + j3.417 N.
a) Construct a single-phase equivalent circuit.
b) Calculate the magnitude of the line current.
c) Calculate the magnitude of the line voltage at
the terminals of the load.
d) Calculate the magnitude of the line voltage at
the terminals of the source.
e) Calculate the magnitude of the phase current in
the load.
f) Calculate the magnitude of the phase current in
the source.
Transcribed Image Text:11.18 A three-phase A-connected generator has an inter- nal impedance of 9 + j90 m2/4. When the load is removed from the generator, the magnitude of the terminal voltage is 13,800 V. The generator feeds a A-connected load through a transmission line with an impedance of 20 + j180 m/4. The per-phase impedance of the load is 7.056 + j3.417 N. a) Construct a single-phase equivalent circuit. b) Calculate the magnitude of the line current. c) Calculate the magnitude of the line voltage at the terminals of the load. d) Calculate the magnitude of the line voltage at the terminals of the source. e) Calculate the magnitude of the phase current in the load. f) Calculate the magnitude of the phase current in the source.
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