b. It is decided that the excess power generated from the preferred option will be transmitted to a neighbouring community. Calculate the transmission efficiency for the following situations: i. Single-phase a.c. transmission: sending voltage 33.0 kV; sending phase angle 3.50°; receiving phase angle 9.20°; current 610.0 A; voltage drop of 1.90% along the transmission line. ii. d.c. transmission: sending voltage 11.0 kV; total line resistance 0.565 Q; power transmitted 8.40 MW.
b. It is decided that the excess power generated from the preferred option will be transmitted to a neighbouring community. Calculate the transmission efficiency for the following situations: i. Single-phase a.c. transmission: sending voltage 33.0 kV; sending phase angle 3.50°; receiving phase angle 9.20°; current 610.0 A; voltage drop of 1.90% along the transmission line. ii. d.c. transmission: sending voltage 11.0 kV; total line resistance 0.565 Q; power transmitted 8.40 MW.
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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Transcribed Image Text:b. It is decided that the excess power generated from the preferred option will be
transmitted to a neighbouring community. Calculate the transmission efficiency for the
following situations:
i. Single-phase a.c. transmission: sending voltage 33.0 kV; sending phase angle
3.50°; receiving phase angle 9.20°; current 610.0 A; voltage drop of 1.90% along
the transmission line.
ii. d.c. transmission: sending voltage 11.0 kV; total line resistance 0.565 0; power
transmitted 8.40 MW.
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