Answer the question in the below image. A short 3-o transmission line with an impedance of (5 + j 20) o per phase has sending end and receiving end voltages of 46-85 kV and 33 kV respectively for some receiving end load at a p.f. of 0-8 lagging. Determine the sending end power factor

Answer the question in the below image. A short 3-o transmission line with an impedance of (5 + j 20) o per phase has sending end and receiving end voltages of 46-85 kV and 33 kV respectively for some receiving end load at a p.f. of 0-8 lagging. Determine the sending end power factor

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 5.17P

See similar textbooks

Related questions

Q: estimate the distance over which the load of 15000 KW at 0.85 power factor can be delivered by a…

A: Given information: The value of the line current is determined as follows:

Q: The ABCD constants of a lossless three-phase, 500-kV transmission line are A=D-086 B-130.2 (C)…

A: Voltage regulation: It tells how much voltage fluctuation is at the receiving end terminal. It is…

Q: In a short transmission line, when the PF of the load changes from leading to lagging, the magnitude…

Q: A single phase transmission line is delivering 470 kVA load at 12 kV. Its resistance is 7Q and…

Q: The sending-end and receiving-end voltages of a three-phase transmission line at a 200 MW load are…

A: According to the question we have to find the value of the maximum steady-state power that can be…

Q: 18.) A 30-km, 34.5 kV, 60 Hz three-phase line has a positive-sequence series impedance z = 0.25 +…

A: The transmission line is a long conductor with a specific design (bundled) for transporting large…

Q: In relation to AC transmission system, (a) Assuming a lossless short line has a reactance of X,…

Q: For a transmission line, the value of the open circuit and short circuit impedance are 100 ohm and…

A: If ZOC is the open circuit input impedance and ZSC is the short circuit input impedance of a…

Q: A three-phase transmission line is 200 km long. It has a total series impedance of (25+ jl 10)2 per…

A: Given: A three-phase 200 km long transmission line has: Total series impedance, Z=(25+j110) Ω per…

Q: A transmission line section and shows an input impedance of 36 2 and 64 respectively, when short…

A: Given, A transmission line section has, Input impedance when short circuited, Zsc=36 Ω. Output…

Q: A load of 145 MW at a power factor of 0.9 lagging can be delivered by a 3-phase transmission line.…

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

Q: TUTORIAL PROBLEMS 1. A 3-phase overhead transmission line has a total series impedance per phase of…

Q: A short 3-0 transmission line with an impedance of (5 +j 20) º per phase has sending end and…

A: I HAVE EXPLAINED IN DETAIL

Q: The impedance per phase of a 3-phase transmission line on a base of 100 MVA and 100 kV is 2 p.u. The…

A: Given, MVAold=100 MVAKVold=100 kVZpuold=2 p.u.MVAnew=400 MVAKVnew=400 kV

Q: Each transmission line of the 3 wire, three phase system in Figure has an impedance of 15 ? +j 20 ?…

Q: A load of 120 MW at a power factor of 0.8 lagging can be delivered by a 3-phase transmission line.…

A: Conventional sources of energy are the form of energy which is traditionally used for generation of…

Q: A single phase transmission line is delivering 470 kVA load at 10 kV. Its resistance is 6.5 N and…

A: Receiving end voltage =10kV. Receiving end power factor=0.8 lag Receiving end power=470kVA So…

Q: In a mismatched transmission line with intrinsic impedance of Z, and with a load of impedance of Z,…

A: A quarter-wave transformer is a basic impedance transformer used in impedance matching to reduce…

Q: 470 kVA load at 12 kV. Its resistance is 7 Ω and inductive reactance is 7 Ω if the load power factor…

A: As we have given: S=470 KVAV=12 KVR=7 ΩXL=7 ΩP.F.R=0.9

Q: The magnitudes of the open circuit and short circuit input impedances of transmission line are 100…

A: Characteristic impedance (Z0) of a transmission line is defined as the impedance of the transmission…

Q: transmission line with an impedance of 35 Ω is connected to a load of impedance of 300 Ω, then the…

Q: Determine the current in the neutral conductor and the current in each line conductor (i.e., IR, IB…

A: Since you have asked multiple questions in a single request, we will be answering only the 1st…

Q: Please all parts.

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

Q: A lossless 60 ohm line is terminated by a 60+j60 ohm load .If Zin =120- j60ohm. How far (in term of…

A: The wave is function of space and time. The EM wave is formed when electric field is in contact with…

Q: In a mismatched transmission line with intrinsic impedance of Z, and with a load of impedance of Z,,…

A: A quarter-wave transformer is a basic impedance transformer used in impedance matching to reduce…

Q: In the analysis of Short Transmission Lines, the Lines should be in which type of Three-Phase…

A: Choose the correct option In the analysis of short transmission line, the lines should be in which…

Q: 1. A 3 phase, overhead transmission line has a total series impedance per phase of 200 ohms and a…

A: The Performance calculations of long transmission lines need is based on various parameters of which…

Q: In three-phase short transmission line with end-of-line interphase voltage UR = 31,5kV , from the…

Q: A short 3- line with an impedance of (6 + j8) N per line has sending and receiving end line voltages…

A: Given a short 3-φ line with, Impedance per line, Z = (6 + j8) Ω Resistance, R = 6 Ω Reactance, X = 8…

Q: A load of 120 MW at a power factor of 0.8 lagging can be delivered by a 3-phase transmission line.…

A: Solution:- Given, PL-3ϕ =120 MW PL-1ϕ = 40 MW Pf = 0.8 lagging VR-1ϕ = 45 × 1033= 25.9807 KV Single…

Q: A single-phase transmission line has a resistance of 0.22 ohm and inductive reactance of 0.36 ohm.…

A: Write the given values. R=0.22 ΩXL=0.36 ΩSR=500 kVAVR=2000 Vpf=0.707 lagging

Q: a short 3 phase transmission line with an impedance of 5 + j 20 ohm per phase has sending end and…

A: The transmission line performance can be determined by using four parameters namely series…

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

A: The performance of a power system depends mainly on the performance of transmission lines in the…

Q: TUTORIAL PROBLEMS 1. A 3-phase overhead transmission line has a total series impedance per phase of…

A: The solution can be achieved as follows.

Q: A 132 Kv, 50 Hz, 3-phase tensmission line delivers loaed of 5omw at 08 lagging Pf. 9, the…

A: For a 3-phase transmission line,Voltage, V=132kVFrequency, f=50HzPower, P=50MWPower factor,…

Q: A transmission line section shows an input impedance of 36 2 and 64 respectively, when short…

A: Given a transmission line has, Short circuit input impedance, Zsc=36 Ω Open circuit input impedance,…

Q: A load of 1000 kW at 0·8 p.f. lagging is received at the end of a 3-phase line 20 km long. The…

Q: A short 3-φ transmission line with an impedance of (5 + j 20) Ω per phase has sending end and…

A: Resistance of each conductor R=5 ohm Reactance of each conductor XL=20ohm Load power factor is 0.8…

Q: The voltage regulation of a short transmission line is estimated: O a. Only on Line Inductance O b.…

A: At the point when a transmission line is conveying current, there is a voltage drop in the line…

Q: A 60 Hz, three-phase transmission line is 100 miles long. It has a total series impedance of {35 +…

A: Given f=50 Hz Z=R+XL =35+ j 120 ohm, Y=j 930×10-6 mho VR, line= 220 kV per phase, VR, = 2203 =127…

Q: A three-phase voltage of 11 kV is applied to a line having R = 10 Ω and X = 12 Ω per conductor. At…

Q: A 60Km cable serving a client on a PSTN was tested by the installation engineer during installation…

A: Given values are -

Q: A load of 120 MW at a power factor of 0.6 lagging can be delivered by a 3-phase transmission line.…

A: Since we only answer up to 3 sub-parts, we’ll answer the first 3. Please resubmit the question and…

Q: transmission line has a resistance of

A: Insulator in transmission line- The device used to protect transmission line and prevent the…

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

A: As given in the question

Q: A short single phase transmission line has a loop impedance of (0.2+j1.2) ohm. At what leading power…

A: Given: A short single phase transmission line has, Loop impedance, Z=0.2+j1.2 Ω so Resistance, R =…

Q: A load of 130 MW at a power factor of 0.7 lagging can be delivered by a 3-phase transmission line.…

Q: An overhead 1 phase transmission line delivers 1100kW at 33kV at 0.8 pf lagging. The resistance and…

A: Disclaimer: Since you have asked multipart questions, we will solve the first three subpart for…

Q: (Using Smith chart): A 100 N transmission line connected to cellular phone antenna with load…

Concept explainers

KVL and KCL

KVL stands for Kirchhoff voltage law. KVL states that the total voltage drops around the loop in any closed electric circuit is equal to the sum of total voltage drop in the same closed loop.

Sign Convention

Science and technology incorporate some ideas and techniques of their own to understand a system skilfully and easily. These techniques are called conventions. For example: Sign conventions of mirrors are used to understand the phenomenon of reflection and refraction in an easier way.

Question

Expert Solution

This question has been solved!

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

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Step 3

VIEW

Step by step

Solved in 3 steps with 3 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

A short 3-φ transmission line with an impedance of (5 + j 20) Ω per phase has sending end and receiving end voltages of 46·85 kV and 33 kV respectively for some receiving end load at a p.f.of 0·8 lagging. Determine : (i) power output(ii) sending end power factor
1. A 3-phase line having an impedance of (5 + j 20) ohms per phase delivers a load of 30 MW at a p.f. of0·8 lagging and voltage 33 kV. Determine the capacity of the synchronous condenser required to beinstalled at the receiving end if voltage at the sending end is to be maintained at 33 kV. solution is [42·78 MVAR]
A single-phase transmission line has a resistance of 0.22 ohm and inductive reactance of 0.36 ohm. Find the voltage at the sending end to give 500kva at 2000V at the receiving end at a load power factor of 0.707 lagging. Also find the efficiency of transmission at this load.
What is the maximum impedance in a 25 ohm transmission line terminated by a load impedance of ZL= 12.5 + j50 ohms?
If a transmission line has a shunt susceptance of j0.1 in the positive sequence circuit and it is known that the mutual shunt susceptance between phases is j0.03, what is the shunt susceptance to ground in the phase circuit? Multiple Choice: a. j0.13 b. j0.1 c. j0.16
A three-phase transmission line has resistance and inductive reactance of 25V and 90V, respectively. With no load at the receiving end, a synchronous compensator there takes a current lagging by 90; the voltage is 145 kV at the sending end and 132 kV at the receiving end. Calculate the value of the current taken by the compensator. When the load at the receiving end is 50MW, it is found that the line can operate with unchanged voltages at the sending and receiving ends, provided that the compensator takes the same current as before, but now leading by 90. Calculate the reactive power of the load
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 ?
A single phase transmission line is delivering 500 kVA load at 2 kV. Its resistance is 0·2 Ω and inductivereactance is 0·4 Ω. Determine the voltage regulation if the load power factor is (i) 0·707 lagging (ii)0·707 leading.
q) Phase velocity of voltage wave in a distortion less line having characteristic impedance 0.2 kΩ, velocity 0.5*108 m/s then the value of capacitance per meter?
l. A single-phase distributor AB has a total impedance 0f (0.1+j0.2) ohms. At the far end B, a current of 80A at 0.8 pf lagging and at mid-point C a current of 100A at 0.6 pf lagging are tapped. If the voltage at B is maintained at 200V, determine the sending end voltage.
A short 3-4 transmission line with an impedance of (5 +j 20) O per phase has sending end and receiving end voltages of 46-85 kV and 33 kV respectively for some receiving end load at a p.f.of 0-8 lagging. Determine: (i) power output (ii) sending end power facto [(i) 22-86 kW (ii) 0-657 lag]
A short 3-phase transmission line connected to a 33kV, 50 Hz generatingstation at the sending end is required to supply a load of 10 MW at 0·8lagging power factor at 30 kV at the receiving end. If the minimumtransmission efficiency is to be limited to 96%, estimate the per phasevalue of resistance and inductance of the line.