A 60-Hz short transmission line, having R = 0.62 ohms per phase and L = 93.24 millihenrys per phase, supplies a three-phase, wye-connected 100 MW load of 0.9 lagging power factor at 215 kV line-to-line voltage. Calculate the sending-end voltage per phase. %3D

A 60-Hz short transmission line, having R = 0.62 ohms per phase and L = 93.24 millihenrys per phase, supplies a three-phase, wye-connected 100 MW load of 0.9 lagging power factor at 215 kV line-to-line voltage. Calculate the sending-end voltage per phase. %3D

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

Chapter5: Transmission Lines: Steady-state Operation

Section: Chapter Questions

Problem 5.11P: A 40-km, 220-kV, 60-Hz, three-phase overhead transmission line has a per-phase resistance of...

See similar textbooks

Related questions

Q: Question 3) A 350-km 450-kV, 60-Hz three-phase uncompensated line has a series reactance x=0.34 Q/km…

A: A basic Power system network consists of Generation unit, Transmission unit and distribution unit.…

Q: A 3-phase, 60 Hz, 40 km long overhead line supplies 575 kW at 11 kV, 0.8 p.f. lagging. The line…

A: A 3 phase transmission system. Receiving end power 575KW, 11KV power factor 0.8lagging Line…

Q: An 33 kV, 3-phase transmission line has a length of 130 km is arranged as shown in the figure. Its…

Q: Need to validate my answers for item 3

Q: Three-phase transmission line 90 km long Line impedance z=(0.4+j0.9) ohm/km, If the power Pr=60 MW…

Q: A 3-phase, 50 Hz, 55 km long overhead line supplies 550 kW at 22 kV, 0.6 p.f. lagging. The line…

Q: A 3-phase transmission line consists of 2 cm radius conductors spaced symmetrically 3 metres apart,…

Q: A 25 kilometer long three phase transmission line has conductors 2.5cm in diameter and are separated…

Q: Line parameter the value of 0.060/km 0.080/km r 12.8nF/km

A: Given data(As per question) Length of the transmission line is =50 km Resistance (r)= 0.06 Ohm/km…

Q: Q1: A 3-phase of sequence ABC transmission line has a conductors of cross section area (82 mm²) and…

A: For the given arrangement of line conductors, we need to determine its voltage regulation and…

Q: A 350-km 450-kV, 60-Hz three-phase uncompensated line has a series reactance x=0.34 Ω/km and shunt…

Q: A 3-phase, 50 Hz, 45 km long overhead line supplies 400 kW at 22 kV, 0.6 p.f. lagging. The line…

Q: Transmission and Distribution of Electric Power Answer the Following Question Please: Q)…

Q: 4.) A 3-p, 50 Hz, 30-km transmission line supplies a load of 5 MW at p.f. 0.7 lagging to the…

Q: A 3-phase, 50 Hz, 30 km long overhead line supplies 550 kW at 11 kV, 0.7 p.f. lagging. The line…

Q: A 3-phase, 50 Hz transmission line 100 km long delivers 20 MW at 0-9 pf. lagging and at 110 kV. The…

A: Given:-L=100kmVR=1103=63.5kv ...............(Reference…

Q: Z. Zot Z, = 100 + j10 N %3D Zin Figure 1. (a) A radio transmitter system has the load impedance…

Q: A 3-phase, 60 Hz, 25 km long overhead line supplies 425 kW at 22 kV, 0.6 p.f. lagging. The line…

A: inductive reactance =2×π×f×L. current=power3×voltage×power factor. sending end voltage=receiving end…

Q: A 3-phase, 60 Hz, 35 km long overhead line supplies 450 kW at 11 kV, 0.8 p.f. lagging. The line…

A: In this question we will find sending end voltage , voltage regulation and efficiency...

Q: A 3-phase, 60 Hz, 30 km long overhead line supplies 400 kW at 11 kV, 0.9 p.f. lagging. The line…

A: Short transmission line An effective length less than 80km is known as a short transmission line. It…

Q: A 3-phase, 50 Hz, 35 km long overhead line supplies 500 kW at 22 kV, 0.8 p.f. lagging. The line…

A: We are authorized to answer three sub-parts at a time, since you have not mentioned which part you…

Q: A 3-phase, 50 Hz, 40 km long overhead line supplies 550 kW at 11 kV, 0.9 p.f. lagging. The line…

Q: A 3-phase, 50 Hz, 35 km long overhead line supplies 500 kW at 22 kV, 0.8 p.f. lagging. The line…

A: Here only one question with five subparts is asled. As per Bartleby guidelines we are allowed to…

Q: Problem 4. A 220-kV, three-phase transmission line has a per phase series impedance z = 0.005 +…

Q: A three-phase transmission line, 10 km long delivers a load of 5000 kW at 11 kV and 0.8 pf lagging…

A: Type of Transmission line Short Transmission line ( upto 80 Km) Medium Transmission line (80 to…

Q: A 3-phase, 50 Hz, 65 km long overhead line supplies 1200 kW at 11 kV, 0.8 p.f. lagging. The line…

A: Vr= 11kv pout= 1200 kw km=65 f= 50 hz power factor =0.8

Q: 230-kV (line-to-line), 50 Hz, three-phase transmission line has a per phase series impedance of z =…

A: In this question we will find ABCD parameters of line using nominal pi model...

Q: please help me dont copy from google In a 250 km long, interphase voltage of 154 kV, 50 Hz…

Q: A 3-phase, 132 kV, 50 Hz, and 200 km line has a resistance of 0.0765 ohm per km per phase,…

A: In the Question Following data is given. VR= 132 KVf= 50 Hz , ω = 100π…

Q: A single circuit, 60 Hz, three phase transmission line is "" long. The line is connected to a load…

Q: Problem 3. A 22-kV, three-phase transmission line is 16 km long. The line has a per phase impedance…

Q: A 3-phase, 60 Hz, 30 km long overhead line supplies 475 kWw at 11 kV, 0.6 p.f. lagging. The line…

A: In this question we will find sending end voltage, regulation , efficiency...

Q: A 3-phase, 50 Hz, 40 km long overhead line supplies 575 kW at 22 kV, 0.6 p.f. lagging. The line…

A: As per the guidelines of Bartley we supposed to answer first three subpart only .

Q: A 120-km long, 3-phase, 50-Hz, the line supplies load of 60 MW at 0-8 p.f. Lagging at 44 kv at the…

A: In this question we need to find a sending end power factor , regulation and transmission efficiency

Q: (b) Supposed a three-phase transmission line is having following parameters. Sending End Voltage,…

Q: A 3-phase, 50 Hz, 30 km long overhead line supplies 425 kW at 22 kV, 0.9 p.f. lagging. The line…

A: Given 3-phase over head transmission line Frequency f=50 Hz Length L=30 km Load at the receiving…

Q: A Single-Phase Transmission Line has two parallel conductors 1.5 meters apart. The diameter of each…

A: Given data, Radius, r = 0.52=0.25 cm. Spacing of conductor, d = 1.5 m = 150 cm. Permitivity,…

Q: A 3-phase, 50 Hz, 55 km long overhead line supplies 500 kW at 22 kV, 0.6 p.f. lagging. The line…

Q: A 210 km long three-phase transmission line is operated on a 60 Hz network. Line Finally a 40 MVA…

Q: 4. A single-circuit 60-Hz high voltage power transmission line is 181 km (112.5 mi) long. The…

Q: A 3-phase overhead transmission line has its coductors arranged at the cor- ners of an equilateral…

Q: A 3-phase, 60 Hz, 50 km long overhead line supplies 575 kW at 11 kV, 0.8 p.f. lagging. The line…

A: Given, A 3-phase system having, Frequency, f= 60 Hz Length of overhead line, l= 50 km Load Power,…

Q: A 3-phase, 60 Hz, 45 km long overhead line supplies 500 kW at 11 kV, 0.6 p.f. lagging. The line…

Q: A 3-phase, 50 Hz, 35 km long overhead line supplies 500 kW at 22 kV, 0.8 p.f. lagging. The line…

Q: A short 3-phase transmission line connected to a 33kV, 50 Hz generating station at the sending end…

A: It is given that:

Q: (b) Supposed a three-phase transmission line is having following parameters. Sending End Voltage,…

Q: A 3-phase, 60 Hz, 50 km long overhead line supplies 525 kW at 11 kV, 0.7 p.f. lagging. The line…

A: Note: We are authorized to answer three subparts at a time, since you have not mentioned which part…

Q: A 230-kV, three-phase transmission line has a per phase series impedance of z = 0.05 + j0.45 2 per…

A: Given Transmission line with Series impedancez=0.05+j0.45 Ω/kmShunt admittancey=j3.4×10-6 S/km L=80…

Concept explainers

Short Transmission Line

A short transmission line is a transmission line that has a length less than 80 kilometers, an operating voltage level of less than 20 kV, and zero capacitance effect.

Power Flow Analysis

Power flow analysis is a topic in power engineering. It is the flow of electric power in a system. The power flow analysis is preliminary used for the various components of Alternating Current (AC) power, such as the voltage, current, real power, reactive power, and voltage angles under given load conditions and is often known as a load flow study or load flow analysis.

Complex Form

A power system is defined as the connection or network of the various components that convert the non-electrical energy into the electric form and supply the electric form of energy from the source to the load. The power system is an important parameter in power engineering and the electrical engineering profession. The powers in the power system are primarily categorized into two types- active power and reactive power.

Question

A 60-Hz short transmission line, having R = 0.62 ohms per phase and L = 93.24 millihenrys
per phase, supplies a three-phase, wye-connected 100 MW load of 0.9 lagging power factor at
215 kV line-to-line voltage. Calculate the sending-end voltage per phase.

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 2 steps with 1 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, electrical-engineering and related others by exploring similar questions and additional content below.

Similar questions

Consider a long radial line terminated in its characteristic impedance Zc. Determine the following: (a) V1/I1, known as the driving point impedance. (b) | V2 |/V1|, known as the voltage gain, in terms of al. (c) | I2 |/| I1 |, known as the current gain, in terms of al. (d) The complex power gain, S21/S12, in terms of al. (e) The real power efficiency, (P21/P12)=, terms of al. Note: 1 refers to sending end and 2 refers to receiving end. (S21) is the complex power received at 2; S12 is sent from 1.
A short 3 phase transmission line, connected to a 33kV, 50 Hz generating station at the sending end is required to supply a load of 10Megawatts at 0.8 power factor lagging, 30kV at the receiving end. If the minimum transmission line efficiency is to be limited to 96%, estimate the per phase values of resistance and inductance of the line.
A short 3-phase transmission line connected to a 33kV, 50 Hz generating station at the sending end is required to supply a load of 10 MW at 0.8 lagging power factor at 30 kV at the receiving end. If the minimum transmission efficiency is to be limited to 96%, estimate the per phase value of resistance and inductance of the line.
Calculate the impedance looking into a 50 Ω line 1 m long, terminated in a load impedance of 100 Ω, if the line has velocity factor of 0.8 and operates at a frequency of 30 MHz.
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 admittance is 315 microsiemens. Shunt leakage may be neglected. Using the nominal T 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.
A three-phase transmission line is 160 km long and supplies a load of 12 MW at 0.85 powerfactor lagging at 80 kV, 50 Hz. Each conductor has a resistance of 0.275 Ω / km, an inductivereactance of 0.5625 Ω / km and a capacitance to neutral of 0.008625 µF / km. Calculate the line-to-line sending end voltage and the sending end current, using: i. The nominal T method.ii. The nominal Π method. If the sending end voltage remains constant, estimate the approximate rise in voltage at thereceiving end when the load is switched off. Hence calculate the per unit voltage regulation ofthe transmission line.
A short three phase transmission line of parameters R-0.4Ω and X=0.4Ω is delivering 2000kVA to a load at a pf of 0.8 lagging at the receiving enf=d of the line.if the load voltage is 3000 V, determine the voltage regulation and efficiency of the line.
A 30 mile, 3-phase transmission line delivers 8,000 kW at 33 kV, p.f. 0.8 lagging. The resistance and reactance of single conductor are 0.6 ohm and 0.72 ohm respectively per mile. Find the voltage at the sending end in kV.
A three phase line 30 km long delivers 2000 KVA at 33 kV voltage, 0.707 lagging power factor. If the resistance of the line is 0.5 Ω per phase per kilometer and the inductive reactance of the line is 0.8 Ω per phase per kilometer, find (1) voltage regulation (2) transmission efficiency and (3) sending and power factor
For a given short transmission line of impedance R+jX ohms/phase, the sendingend and receiving end voltages Vs and Vr are fixed. Derive the expression for themaximum power that can be transmitted over the line.
A three phase transmission line is 370 km long. The series impedance of the line is (0.294+ j0.724) Ω/km and the susceptance is (j6.17x e(-6)) S/km. The voltage at the sending end is 470 kV. (a)Find the sending end current and receiving end voltage when there is no load on the line. (b)Suppose a medium transmission line and determine the maximum permissible line length if the receiving end at no-voltage is not to exceed 430 kV.
(Q) A 10 mile transmission line with an impedance of (0.122+j0.849) Ω per mile is delivering 230A at 230kV and 0.8 power factor lagging. Determine: the sending end voltage the line efficiency and regulation