A three-phase, four-bundle transmission line with complete transposition is in operation at a frequency of 60 Hz, as illustrated in the accompanying figure. The line spans a distance of 100 km, and each bundle consists of conductors with a diameter of 3.2 mm. Neglecting conductor resistance, determine the following quantities: a) The inductance in H/m for each phase of the transmission line. b) The total inductive reactance in 2 for each phase of the transmission line. c) The capacitance in F/m for each phase of the transmission line. d) The total capacitive reactance in 2 for each phase of the transmission line. e) Find surge impedance loading f) Sketch the equivelent л circuit of the line 5 m 4.2 m + 0.2 m

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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Question
Pano
Resim
Araçlar
Şekiller
A three-phase, four-bundle transmission line with complete transposition is in operation at a
frequency of 60 Hz, as illustrated in the accompanying figure. The line spans a distance of
100 km, and each bundle consists of conductors with a diameter of 3.2 mm. Neglecting
conductor resistance, determine the following quantities:
a) The inductance in H/m for each phase of the transmission line.
b) The total inductive reactance in 2 for each phase of the transmission line.
c) The capacitance in F/m for each phase of the transmission line.
d) The total capacitive reactance in 2 for each phase of the transmission line.
e) Find surge impedance loading
f) Sketch the equivelent circuit of the line
5 m
4.2 m
Renkler
0.2 m
Transcribed Image Text:Pano Resim Araçlar Şekiller A three-phase, four-bundle transmission line with complete transposition is in operation at a frequency of 60 Hz, as illustrated in the accompanying figure. The line spans a distance of 100 km, and each bundle consists of conductors with a diameter of 3.2 mm. Neglecting conductor resistance, determine the following quantities: a) The inductance in H/m for each phase of the transmission line. b) The total inductive reactance in 2 for each phase of the transmission line. c) The capacitance in F/m for each phase of the transmission line. d) The total capacitive reactance in 2 for each phase of the transmission line. e) Find surge impedance loading f) Sketch the equivelent circuit of the line 5 m 4.2 m Renkler 0.2 m
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