1-What is the parameters of the a transmission line?Classify the transmission line according the lengthand voltage? Draw the phaser diagram for each ofthem? Explain the reason of classification? Is there atopology could use for more than one classification?2-A 3-phase, 50 Hz overhead transmission line, 100km long, 110 kV between the lines at the receivingend has the following constants :Resistance per km per phase 0-153 QInductance per km per phase = 1:21 mHCapacitance per km per phase = 0-00958 µFThe line supplies a load of 20,000 kW at 0-9power factor lagging. Calculate using nominalEKrepresentation, the sending end voltage, current,power factor, regulation and the efficiency of the line.Neglect leakage..%3D3-Calculate A, B, C and D constants of a 3-phase, 50Hz transmission line 160 km long having the followingdistributed parameters :R = 0-15 Q/km ; L = 1.2x10^(-3) H/km; C 8×10^(-9) F/km ; G = 0%3D

As per our guide lines I solved 1st question only

1-What is the parameters of the a transmission line? Classify the transmission line according the length and voltage? Draw the phaser diagram for each of them? Explain the reason of classification? Is there a topology could use for more than one classification?

1-What is the parameters of the a transmission line? Classify the transmission line according the length and voltage? Draw the phaser diagram for each of them? Explain the reason of classification? Is there a topology could use for more than one classification?

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 4.46P

See similar textbooks

Related questions

Q: Describe the effect of mixed load (resistive + inductive) on sending and receiving end voltages,…

A: Effect of (resistive + inductive) on sending and receiving end voltages. Tran mission line can be…

Q: What is the importance of the inducatance in the transmission line?

A: The inductance is expressed as the ratio of the flux linkage with the magnitude of the current. It…

Q: A lossless transmission with characteristic impedance of ?0 = 100Ω and length = 52cm The line was…

A: Given:Characteristic impedance,Z0=100ΩLoad impedance, ZL=30 +j50Ω

Q: Evaluate the voltage reflection coefficient in terms of its load impedance and the characteristic…

Q: What are the advantages of transmission lines over lumped elements in matching networks?

A: Since you have posted multiple questions, hence we have answered the first question. Repost the…

Q: why .. Receiving end voltage of an unloaded long line may be more than the sending end voltage ?

A: => Receiving end voltage is more than sending voltage generally occurs in no load or light load…

Q: HOW CAN A TRANSMISSION CAPACITY OF THE LINE BE INCREASED?

A: The Transmission capacity of the line can be increased by the following methods. They are: Dynamic…

Q: Explain what will happen to the characteristic impedance when the spacing between the center of two…

A: We know direct formula of two conductor transmission line.

Q: 14-2 Based on the rule-of-thumb in the lext, determine the length of line al which transmission line…

A: The solution is given below

Q: DISCUSSION QUESTIONS 1. What is the effect of unsymmetrical spacing of conductors in a 3-phase…

A: Since you have posted the multiple questions so we are supposed to answer 1st one.

Q: An air co-axial transmission line has a solid inner conductor of radius ‘a’ and very thin outer…

A: In the given question co-axial cable is having an inner radius "a" and outer conductor radius "b"…

Q: What is a transmission line? When should transmission-line effects be considered, and when may they…

Q: What are the maximum and the minimum value of VSWR of transmission line?

A: VSWR stands for Voltage Standing Wave Ratio. It is a function of reflection coefficient and it can…

Q: If a transmission line has to be designed with an ultimate strength 6000 kg and a safety factor of…

Q: If a lossless line is terminated in an inductive load, (a) will the input impedance be purely…

Q: When analyzing Short Transmission Line problems, the sending and receiving ends must be in Star…

A: We need to tell about short transmission line .

Q: Determine the Current through the line, Sending end voltage, Sending end power factor, Regulation of…

Q: a. There are three different transmission line models available, i.e. L-type, T-type and n- type…

A: The power system has to transmit power from the generation side to the load side. For this purpose,…

Q: Write down the importance of transmission line constants.

A: There are various transmission line constants classified into two parts 1. Primary line constants…

Q: Distinguish between Lumped or Distributed elements in a Transmission Line. Note please don’t…

A: The explanation is as follows.

Q: write and explain the main component used in overhead transmission lines.

A: Overhead transmission lines are used to feed the bulk amount of electricity energy from generating…

Q: QUESTION: Explain or describe or define in your own words and your own understanding, without…

A: Bundled Conductors for transmission lines: Sometimes, for certain advantages, the transmission lines…

Q: What causes of reflactive in transmission line?

A: Sometimes when the transmission line is connected to the antenna, a part of the power is reflected…

Q: Derive an expression for sag in a transmission line of equal height poles

A: Consider the diagram for the transmission line between two supports of of equal height as point A…

Q: What is the justification in neglecting line capacitance in short length transmission lines?

Q: a)find IBC load current? b)VAB give line voltage? C)Calculate the total complex power on the…

A: find IBC load current? b)VAB give line voltage? C)Calculate the total complex power on the…

Q: What are the considerations in choosing the appropriate transmission line?

A: While choosing the transmission line 1) it should have less voltage drops. 2) it should be suitable…

Q: If a transmission line has to be designed with an ultimate strength 6000 kg and a safety factor of…

A: An important characteristics to be inspected while constructing an overhead transmission line is the…

Q: In the matter of transmissions and distribution, the subject of sag for tow towers, there are two…

A: Taking consideration as w is the weight per unit length , l distance between two towers (measured…

Q: h) Distinguish between Lumped or Distributed elements in a Transmission Line.

A: Given: Distinguish between lumped or distributed elements in a transmission line.

Q: Does the length of a properly terminated and matched transmission line affect the SWR?

A: Standing waves on a transmission line affects both the impedance seen at the data and the overall…

Q: Example 1: For the lossless TL shown in below with length l, let Zg = 0 and ZR = 3Z9. Use Zig-zag…

A: 1)

Q: Find the characteristic impedance and signal velocity for a transmission line consisting of two…

A: Given: A transmission line consisting of two parallel strips with a width ω and a separation d.…

Q: 1. What is the effect of unsymmetrical spacing of conductors in a 3-phase transmission line ?

A: Unsymmetrical spacing occurs when the distance between the three phase line conductors is not equal,…

Q: 3. What are the causes of voltage drop and line losses in a transmission line?

A: Line voltage drop occurs due to Voltage drop in line resistance Voltage drop in line inductive…

Q: The propagation constant for a lossless transmission line will be (a) Real (b) Complex (c) Real and…

A: The propagation constant of a transmission line indicates the magnitude and phase angle difference…

Q: With a neat diagram show the reflections occurring in a transmission line. Hence explain the…

Q: If a transmission line has to be designed with an ultimate strength 7000 kg and a safety factor of…

A: Given Length of span (l) =300 m T= tension in the conductor Wt. of conductor per meter (W) =2 kg…

Q: Explain the carrier current protection scheme for a long transmission line. What are the important…

A: On lengthy transmission lines, quick-acting safeguards are required in current high-power electrical…

Q: xplain or describe or define in your own words and your own understanding, without copying from the…

A: There are two configurations of the transmission line is available. single circuit configuration in…

Q: For short lines less than 80 km long, loadability is limited by the thermal rating of the conductors…

A: Basically the transmission line is classified on the basis of Voltage drop across it. and stability…

Q: Prove that the conductor cost for transmission line is inversely proportional to the square of the…

A: Power suppied by source is cosntant VIcosϕ = constsant I∝1vlosses are also constant (I2R = constant…

Q: Why in medium and long transmission lines, regulation is greater than voltage drop?

A: Medium transmission line- It is a type of transmission line whose length is more than 80km but less…

Q: 1. The transmission system has two types; 2. For the extra high voltage transmission. 3. ACSR stands…

Q: What is meant by transmission line and Attenuation in transmission lines and why it is happen?…

A: Transmission line A transmission line is a specialized structure designed to conduct…

Q: Explain (brief description) what will happen to the characteristic impedance when the spacing…

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

1-What is the parameters of the a transmission line?
Classify the transmission line according the length
and voltage? Draw the phaser diagram for each of
them? Explain the reason of classification? Is there a
topology could use for more than one classification?
2-A 3-phase, 50 Hz overhead transmission line, 100
km long, 110 kV between the lines at the receiving
end has the following constants :
Resistance per km per phase 0-153 Q
Inductance per km per phase = 1:21 mH
Capacitance per km per phase = 0-00958 µF
The line supplies a load of 20,000 kW at 0-9
power factor lagging. Calculate using nominal
EKrepresentation, the sending end voltage, current,
power factor, regulation and the efficiency of the line.
Neglect leakage..
%3D
3-Calculate A, B, C and D constants of a 3-phase, 50
Hz transmission line 160 km long having the following
distributed parameters :
R = 0-15 Q/km ; L = 1.2x10^(-3) H/km; C 8×10^(-9) F/
km ; G = 0
%3D

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 by step

Solved in 2 steps with 2 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

TOPIC: Transmission Lines, Power Systems, and Powerplants:INSTRUCTIONS:- Answer in this format: Given, Illustration, Required Conversion, Solution, Final Answer.- Step-by-step solution, do not skip even simple calculations to avoid confusion.- If answered in written form, make sure it is readable.PROBLEM:For a three-phase long transmission line, Zc = 406.4 cis -5.48 ohms, VR = 215 KV, and IR = 335.7 A, all per phase. Calculate the sending end-line voltage in kV. 238.8 227.4 234.6 229.1
16 Which among these statements is false or incorrect about Transmission Lines? A. It is possible to have more than one cable per phase in a Transmission Line. B. Three-Phase Transmission Lines always only have three cables. C. Double Circuit configuration can transmit more power compared to Single Circuit configuration. D. Transmission Lines are generally bare conductors like ACSR.
A 300 km long 3-phase transmission line of 154 kV is operated at 60 Hz. The line is on average 1200 m above sea level and instead At 120m, an air outlet decreases by 10 mmHg. Sea free air the dose is 760 mmHg and the puncture strength of the air is 30 kV / cm As it is known, the roughness of the line is 0.89 for the average outdoor temperature of 34 oC, The distance between the conductors is 550 cm and the conductor cross section is 40mm. along the line by calculating the corona voltage and corona discharge voltage calculate the total corona loss that occurred.
Design a ‘π’ equivalent circuit for 320 km long 3-φ, 50 Hz transmission line.The line is composed of Drake conductors with the outside diameter of 2.8 cm and flat horizontal spacing of 3.65 m between adjacent conductors. The line has a resistance of 0.075 Ω/km.
A three-phase, 50Hz transmission line with a length of "240" is given. It has values of “27” MVA, 0.8 reverse power coefficient and phase voltage “134” kV (phase-phase) for the end of line. Transmission line conductors are placed “3.2” meters apart. The conductors are known to have a resistance of 0.11ohm/km and a diameter of 1.6cm. Neglecting the leaks and using the π equivalent circuit; ( ε0=8.854*10^(-12) F/m, μ0=4*π*10^(-7) H/m) 1) Find the total impedance value of the line, the end of line current, the line voltage at the end of the line, the line head phase and the line beginning line voltage?
A three-phase, 50Hz transmission line with a length of "240" is given. It has values of “27” MVA, 0.8 reverse power coefficient and phase voltage “134” kV (phase-phase) for the end of line. Transmission line conductors are placed “3.2” meters apart. The conductors are known to have a resistance of 0.11ohm/km and a diameter of 1.6cm. Neglecting the leaks and using the π equivalent circuit; ( ε0=8.854*10^(-12) F/m, μ0=4*π*10^(-7) H/m) Find the Inductance and Capacitance of the line for 1 km length? , Find the total ohmic resistance of the line, the total inductive reactance of the line.
TOPIC: Transmission Lines, Power Systems, and Powerplants:INSTRUCTIONS:- Answer in this format: Given, Illustration, Required Conversion, Solution, Final Answer.- Step-by-step solution, do not skip even simple calculations to avoid confusion.- If answered in written form, make sure it is readable.PROBLEM:The conductors of a three-phase transmission line are arranged in the form of an equilateral triangle with sides 6m each. If the conductors are 500 mils in diameter and the line is 25km long, what is its inductance per phase in mH? 39.7 26.3 17.4 35.5
A three-phase line at 60 Hz is 300 miles long. The voltage at the transmitting end is 230 kV. The parameters of the line are R= 0.2 Ω /mi, x=0.6Ω/mi y=5.5 µS/mi. a) Show the equivalent pi-diagram with all its values considering the line without losses. losses. Present the values of intermediate calculations. b) Determine the ratio of maximum power to CIL if the line operates at 230 KV.
60 Hz three-phase transmission line, Each single phase transmission line consists of two hard-drawn aluminium conductors with a radius of 2 cm spaced 1.2m apart. It delivers 150 MW at 220 KV at the receiving end with a power factor of 0.88 lagging. If the transmission line is 30 Km long and the temperature of the conductors is 20 C. Ignore the skin effect and consider the resistivity of Aluminium is (2.83 x 10-8), and permeability of free space, u= 4pi*10-7 N/A2 and permeability of it is= 8.85x10-12 F/m. - Find total series impedance. - Find total shunt admittance. - Find the voltage at the sending end using long-line equation.
A single-phase transmission line consisting of two conductors, the radius of each conductor is 0.4 cm, the distance between the conductors is three and half meters and the height above ground is eight meter. Determine 1)The capacitance in uF/km without effect of ground 2)The capacitance in uF/km with effect of ground
A transmission line has a span of 150m between level supports of 16 meter height. The ground clearance is 95 % of the tower height. The difference in level between the points of supports and the lowest point on the conductor in meters is............ (Complete answer)
A three phase 60Hz, 120kV transmission line consisting of 3 conductors are placed at the corners of a triangle of sides 20, 15, and 8 meters. The radius of each line conductor is 1.5 cm. The length of the transmission line is 120 km. Assume epsilon subscript 0 equals 8.854 cross times 10 to the power of negative 12 end exponent. Determine d) Capacitance between the line (Cab) Answer for part 4 d) Capacitive reactance between the line( Xab) Answer for part 5 e) Charging Current for the 120 km Answer for part 6