A 275 kV, 50 Hz, 65 km transmission line has a series impedance of 0.12 + j0.5 O/km. By neglecting the shunt element of the transmission line: (i) Determine the sending-end voltage and sending-end current, if the line is connected to a load of 80 MW with 0.92 lagging power factor at 95% of the rated voltage at the receiving-end. (ii) Determine the efficiency of the transmission line in Q2(b)(i).

A 275 kV, 50 Hz, 65 km transmission line has a series impedance of 0.12 + j0.5 O/km. By neglecting the shunt element of the transmission line: (i) Determine the sending-end voltage and sending-end current, if the line is connected to a load of 80 MW with 0.92 lagging power factor at 95% of the rated voltage at the receiving-end. (ii) Determine the efficiency of the transmission line in Q2(b)(i).

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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b) A 6052 characteristic impedance transmission line is fed by a DC source of 100V with an internal resistance of 4002. The line is 200m long and has a dielectric constant of 2.25. The load impedance is 12002. Calculate: i. The load reflection coefficient. ii. The source reflection coefficient. iii. What is the voltage at the source terminals just before AND just after 2us?
2. A balanced load of 30 MW is supplied at 132 kV, 50 Hz and 0-85 p.f. lagging by means of a transmission line. The series impedance of a single conductor is (20 + j52) ohms and the total phases-neutral admit- tance is 315 microsiemens. Shunt leakage may be neglected. Using the nominalT approximation, calculate the line voltage at the sending end of the line. If the load is removed and the sending end voltage remains constant, find the percentage rise in voltage at the receiving end.
If value of voltage Vs is 20kv and VR is 15 kv with load angle of 20 degrees. Value of line reactance is 5(ohm) Find value of active power and reactive power at receiving end of line.
Note: Please do not handwritten.
Question 6 please
A three-phase transmission line receiving end voltage is rated at 21 kV. A load of 1250 KW is connected at the receiving end of the transmission line 60 km long. The parameters of the transmission line are given by r = 0.09 0/km and x = 0.7 0/km. If the machine is working at 0.85 power factor lagging. Determine a) The series reactance of the transmission line b) Sending end line voltage c) Percentage Voltage regulation d) Percentage Efficiency
A single circuit 60 Hz transmission line. the conductors are Linnet type with flat horizontal spacing of 17.46 feet between conductors. Determine: (a) Assume that the line is short with a length of 50 miles, calculate the parameters of the line and draw the equivalent circuit. (b) Assume that the line is average with length of 150 miles (Pi-nominal model). draw the pi-nominal circuit for the transmission line and calculate its parameters (Z and Y/2 values, where Z is the series impedance of the transmission line and Y is the shunt admittance).