A three-phase transmission line has an impedance of 2 + j8 Ω per phase. The linesupplies the following two three-phase loads:Load 1: 600 KVA at 0.8 power factor lagging.Load 2: 300 KVA at 0.9 power factor lagging.The phase voltage at the loads is Vr = 2000∟0◦ volts.Determine:a) The phase voltage at the sending end (Vs).b) Three-phase real and reactive power losses in the transmission line.c) Three-phase real and reactive power supplied at the sending end. 2) A three-phase transmission line has an impedance of 2 + j8 Q per phase. The linesupplies the following two three-phase loads:Load 1: 600 KVA at 0.8 power factor lagging.Load 2: 300 KVA at 0.9 power factor lagging.The phase voltage at the loads is Vr = 2000L 0• volts.Determine:a) The phase voltage at the sending end (Vs).b) Three-phase real and reactive power losses in the transmission line.c) Three-phase real and reactive power supplied at the sending end.2 + j8 Nwwmm12VsVr =2000L0° V Load 1Load 2

Answered: Image /qna-images/answer/f8c94290-b819-4416-bfda-19d6df70743e.jpg

A three-phase transmission line has an impedance of 2 + j8 Ω per phase. The line supplies the following two three-phase loads: Load 1: 600 KVA at 0.8 power factor lagging. Load 2: 300 KVA at 0.9 power factor lagging. The phase voltage at the loads is Vr = 2000∟0◦ volts. Determine: a) The phase voltage at the sending end (Vs). b) Three-phase real and reactive power losses in the transmission line. c) Three-phase real and reactive power supplied at the sending end.

A three-phase transmission line has an impedance of 2 + j8 Ω per phase. The line supplies the following two three-phase loads: Load 1: 600 KVA at 0.8 power factor lagging. Load 2: 300 KVA at 0.9 power factor lagging. The phase voltage at the loads is Vr = 2000∟0◦ volts. Determine: a) The phase voltage at the sending end (Vs). b) Three-phase real and reactive power losses in the transmission line. c) Three-phase real and reactive power supplied at the sending end.

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

Chapter2: Fundamentals

Section: Chapter Questions

Problem 2.13MCQ

See similar textbooks

Similar questions

Problem 4- A large 3-phase industrial load draws 3.6 MVA at 0.85 power factor lagging from through a three- phase 12.47/7.2 kV 3-wire overhead distribution line. The phase conductor is #1 ACSR “Robin". Taking 3.6 MVA and 12.47 kV as base values, determine (a) The base impedance in (N) (b) The reactive power drawn by the load (p.u.) (c) The total current (p.u.) drawn from the power supply
The impedance per phase of a 3-phase transmission line on a base of 100 MVA and 100 kV is 2 p.u. The value of this impedance on a base of 400 MVA and 400 kV would be?
1) A 60-Hz, ...-km, three-phase overhead transmission line has a series impedance z = 0.8431L79.04 ohm/km and a shunt admittance y = 5.105 × 106 L90 S/km. The load at the receiving end is 125 MW at unity power factor and at 215 KVLL. Determine the voltage, current, real and reactive power at the sending end and the percent voltage regulation of the line for nominal pi network. (Please determine the length of the transmission line within the specified limits: 150-220 km. By considering the length value you determined yourself, solve the question.)
of stion 4 A single phase transmission line is delivering 450 kVA load at 12 kV. Its resistance is 4.5 2 and inductive reactance is 6 2. If the load power factor is 0.9 lagging. Determine the Current through the line Sending end voltage Sending end power factor Regulation of transmission line Efficiency of transmission line A load of 120 MW at a power factor of 0.8 lagging can be delivered by a 3-phase transmission line. The voltage at the intained at 33 kV and the loss in the transmission as 7.5 % of the power delivered. (Consider
A short single phase transmission line has a loop impedance of (0.2+j1.2) ohm. At what leading power factor the voltage regulation will be zero ?
One circuit of a single-phase transmission line is composed of three solid 0.12" radius wires. The return circuit is composed of two 0.15" radius wires. Find the inductance of the complete line in mH/mi. The distance between wires are 40" horizontally and 25" vertically. A. 2.54 mH/mi B. 2.478 mH/mi C. 2.488 mH/mi D. 2.567 mH/mi Provide Clear Explaination
A 3 phase 13-KV transmission line delivers 8 MVA of load. The per phase impedance of the line is (0.01 + j 0.05 ) p.u. referred to a 13 – KV, 8 – MVA base. What is the voltage drop across the line?
The impedance per phase of 3-phase transmission line on a base of 100 MVA, 100 kV is 2 pu. Find the value of this impedance on a base of 400 MVA and 400 kV would be..
Power in a three phase delta system with balanced load is equal to (Sqrt (3)) (VL) (IL) (p.f.) (Sqrt (3)) (Vph) (Iph) (p.f.) (Sqrt (3)) (VL) (Iph) (p.f.) O (Sqrt (3)) (Vph) (IL) (p.f.)
The VSWR on an 50-Ohm transmission line is 5. The distance between successive voltageminima is 80 cm while the distance from the load to the first minimum is 30 cm. What are thereflection coefficient and load impedance
If a 3-phase short circuit occurs in one of the two circuit of transmission line at point F, and the shunt impedance of the short circuit is j0.1 pu. Determine the maximum time when a short circuit can still be cleared. So=0.8+j0.3 Xd'= 0.2, XL1=XL2= 0.6, XT1=0.12, Xr2= 0.1, L1 V= 1.0 T1 L2 F T2 .XL= 0.1 Хс- 0.1. S1 S2 SL= 0.6+j0.3
Develop a small-scale equivalent transmission line pi model (per phase) of the transmission lines with the specification given in table 1. The conductors are placed with a flat horizontal spacing of 7.25 meters. Consider that the load connected against the line 125MW at 0.85 lagging power factor. You are required to develop an equivalent model for a maximum 220V (RMS) sending and receiving end voltage and a maximum of 5A load current. Sr. NTDC Transmission Line Length Conductor No. Туре 220 kV DG Khan-Loralai Transmission Line (227 km) 227km Pheasant TABLE AJ Electrical characteristics of bare aluminum conductors steel-relnforced (ACSR)+ Reniertance Reactance per conductor 1-ft apacing. 60 Ha Ae, 60 Ha Capaitive Aluminum ares, emil Layers of Outaide aluminum diameter, in a/1,000 ft soC, D/ml GMR Induetive Stranding AL/8t De, 20°C. 20C, a/mi Code word D. t Ma-mi Waswing Partridge Ostrieh Merlin Linnet Oriole Chickndee Ibin Pelienn Flicker Hawk 266,800 206,800 300,000 336, 400 336.400…