15105 14310 13510 Solve the following problems. Show the complete solutions in 4 decimal places. 1272 1182 1. 1113 1033 954 2. 900 874 78 79 3. R2E11 4. Determine the resistance at 20 °C and inductive reactance of a seven-strand, all aluminum conductor having a diameter of 50 mil per strand, installed in a single-phase 1 km long distribution line. (The resistivity of Aluminum is 17ohm-cmil per foot at 20 °C). The line is 3 meters apart. Include the effect of spiraling. In a 30-km span, 3-phase line, calculate the per-phase resistance at 50°C, inductive reactance and capacitive reactance of the transmission line that uses triangular bundled conductors. The conductors in the bundle are 397.5 MCM ACSR, 26/7 and are spaced 10 inches per conductor and 10 meters per line. A 50-mile, 60-hz, three-phase line composed of one-900 MCM, 54/7 ACSR conductor per phase has flat horizontal spacing of 30 ft between adjacent conductors. Compare the inductive capacitive reactance with that of a line using a three-conductor bundle of 300 MCM ACSR 26/7 conductors having the same total cross- sectional area as the single-conductor line and 30-ft spacing measured from the center of the bundles. The equilateral spacing between conductors in the bundle is 10 inches. A 60-Hz, double circuit, 30-mile, three-phase line, each vertically spaced 3 meters between adjacent conductors are spaced 10 meters apart. If the conductor is 2-366.4 MCM, 30/7, calculate the following when the line is transposed: 8A3 LEW ME a. The total resistance of the line at 60° C. b. C. The total inductive reactance of the line. The charging current at 230-KV line voltage. 10.009 10.07 0.07 0.08 2 0.0 400 MO. 18 0 45 0 76 0 88 288 288 442 442 1442 154 161 16 1.16 0.16 0.17 0.1 0.1 0. 0 C Ros

Power System Analysis and Design (MindTap Course List)
6th Edition
ISBN:9781305632134
Author:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma
Publisher:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma
Chapter4: Transmission Line Parameters
Section: Chapter Questions
Problem 4.1P: The Aluminum Electrical Conductor Handbook lists a dc resistance of 0.01558 ohm per 1000 ft at 20C...
icon
Related questions
Question
15105
14310
13510
Solve the following problems. Show the complete solutions in 4
decimal places.
1272
1182
1.
1113
1033
954
2.
900
874
78
79
3.
R2E11
4.
Determine the resistance at 20 °C and inductive reactance of a
seven-strand, all aluminum conductor having a diameter of 50 mil
per strand, installed in a single-phase 1 km long distribution line.
(The resistivity of Aluminum is 17ohm-cmil per foot at 20 °C). The
line is 3 meters apart. Include the effect of spiraling.
In a 30-km span, 3-phase line, calculate the per-phase resistance
at 50°C, inductive reactance and capacitive reactance of the
transmission line that uses triangular bundled conductors. The
conductors in the bundle are 397.5 MCM ACSR, 26/7 and are
spaced 10 inches per conductor and 10 meters per line.
A 50-mile, 60-hz, three-phase line composed of one-900 MCM,
54/7 ACSR conductor per phase has flat horizontal spacing of 30 ft
between adjacent conductors. Compare the inductive capacitive
reactance with that of a line using a three-conductor bundle of
300 MCM ACSR 26/7 conductors having the same total cross-
sectional area as the single-conductor line and 30-ft spacing
measured from the center of the bundles. The equilateral spacing
between conductors in the bundle is 10 inches.
A 60-Hz, double circuit, 30-mile, three-phase line, each vertically
spaced 3 meters between adjacent conductors are spaced 10
meters apart. If the conductor is 2-366.4 MCM, 30/7, calculate
the following when the line is transposed: 8A3 LEW ME
a. The total resistance of the line at 60° C.
b.
C.
The total inductive reactance of the line.
The charging current at 230-KV line voltage.
10.009
10.07
0.07
0.08
2 0.0
400
MO.
18 0
45 0
76 0
88
288
288
442
442
1442
154
161
16
1.16
0.16
0.17
0.1
0.1
0.
0
C
Ros
Transcribed Image Text:15105 14310 13510 Solve the following problems. Show the complete solutions in 4 decimal places. 1272 1182 1. 1113 1033 954 2. 900 874 78 79 3. R2E11 4. Determine the resistance at 20 °C and inductive reactance of a seven-strand, all aluminum conductor having a diameter of 50 mil per strand, installed in a single-phase 1 km long distribution line. (The resistivity of Aluminum is 17ohm-cmil per foot at 20 °C). The line is 3 meters apart. Include the effect of spiraling. In a 30-km span, 3-phase line, calculate the per-phase resistance at 50°C, inductive reactance and capacitive reactance of the transmission line that uses triangular bundled conductors. The conductors in the bundle are 397.5 MCM ACSR, 26/7 and are spaced 10 inches per conductor and 10 meters per line. A 50-mile, 60-hz, three-phase line composed of one-900 MCM, 54/7 ACSR conductor per phase has flat horizontal spacing of 30 ft between adjacent conductors. Compare the inductive capacitive reactance with that of a line using a three-conductor bundle of 300 MCM ACSR 26/7 conductors having the same total cross- sectional area as the single-conductor line and 30-ft spacing measured from the center of the bundles. The equilateral spacing between conductors in the bundle is 10 inches. A 60-Hz, double circuit, 30-mile, three-phase line, each vertically spaced 3 meters between adjacent conductors are spaced 10 meters apart. If the conductor is 2-366.4 MCM, 30/7, calculate the following when the line is transposed: 8A3 LEW ME a. The total resistance of the line at 60° C. b. C. The total inductive reactance of the line. The charging current at 230-KV line voltage. 10.009 10.07 0.07 0.08 2 0.0 400 MO. 18 0 45 0 76 0 88 288 288 442 442 1442 154 161 16 1.16 0.16 0.17 0.1 0.1 0. 0 C Ros
Expert Solution
steps

Step by step

Solved in 2 steps with 4 images

Blurred answer
Similar questions
  • SEE MORE QUESTIONS
Recommended textbooks for you
Power System Analysis and Design (MindTap Course …
Power System Analysis and Design (MindTap Course …
Electrical Engineering
ISBN:
9781305632134
Author:
J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma
Publisher:
Cengage Learning