1. A single phase overhead transmission line delivers 4000 kW at 11 kV at 0-8 p.f. lagging. If resistanceand reactance per conductor are 0-15 Q and 0-02 Q respectively, calculate :() percentage regulation(ii) line losses(ii) sending end power factor() 19 83% (ii) 0-77 lag (iii) 620 kW]

In this question, Single phase overhead transmission line delivery 4000kW at 11kV Power factor =…

1. A single phase overhead transmission line delivers 4000 kW at 11 kV at 0-8 p.f. lagging. If resistance and reactance per conductor are 0-15 2 and 0-02 2 respectively, calculate : (i) percentage regulation (iii) line losses (ii) sending end power factor [() 19:83% (ii) 0-77 lag (ii) 620 kW]

1. A single phase overhead transmission line delivers 4000 kW at 11 kV at 0-8 p.f. lagging. If resistance and reactance per conductor are 0-15 2 and 0-02 2 respectively, calculate : (i) percentage regulation (iii) line losses (ii) sending end power factor [() 19:83% (ii) 0-77 lag (ii) 620 kW]

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

Chapter3: Power Transformers

Section: Chapter Questions

Problem 3.29P: Consider three ideal single-phase transformers (with a voltage gain of ) put together as ...

See similar textbooks

Related questions

Q: 1. Find Icand CE in the pnp bias circuit. Assume BDc = 100. %3D VEE +10 V RE 470 N RB 10 k2 RC 330 N...

Q: O Determine Vo and to for the nertworks 20 V 12V Si 本e ZSi 34.7kn Vo 23.2ka GAAS (a) + I6V (6) o1个な5...

A: We need to find current and voltage for given circuit

Q: 4. P,= R, = 36 N %3D 500 mA R2 = 36 N

A: We need to find out power for given circuit

Q: Laplace transform F(s) of the following signal f(t)= sin(4(t- 1)) u(t-1) O a. F(s) is a function of ...

Q: Find the value of RL for maximum power transfer and compute the maximum power delivered to the load....

Q: Considering an average load for the 5 machines is 211 KW and the total connected load is 302 KW, wha...

A: Plant load factor depends on the average load and maximum demand. Demand factor depends on the the m...

Q: 10 mF 12 cos wt V a 2 sin ot A 10 Ω

Q: Explain any one type of enclosure used in DC motors with necessary diagram

A: Electrical machines can be either generator , transformers or motors. They can be either Ac machines...

Q: A 5 ohms resistance R and a 0.5 Henry inductance L are in series is suddenly connected to a direct c...

A: Solve the problem

Q: 5. I =_mA R, = 15 kn %3D E = 1000 V R2 = .5 MQ,

A: The solution is given below

Q: Surface charge density is positioned in free space as follows: 20 nC/m? at x = -2, -30 nC/m2 at y = ...

Q: 1. For our permanent magnet motor , using Ko = 0.06 N-m/A or 0.06 V-s, a. Calculate the no-load spee...

A: Solve the problem

Q: 1. For our permanent magnet motor, using Ko = 0.06 N-m/A or 0.06 V-s, Calculate the no-load speed fo...

A: Electrical machines can be either generator , transformers or motors. They can be either Ac machines...

Q: A l-phase bridge rectifier has to supply power to a 300 kW, 120 V DC load. A 240 V, 60 Hz AC feeder ...

A: Given data, Po=300 KWVo=120 VVi/p=240 Vf=60 Hz (a)

Q: 12V Rc1 1kQ R3 52.1kQ Rc2 4.7kQ R1 $5.6kQ C2 C3 10µF Q2 10µF С1 Q1 2N2222 2N2222 10pF R2 $4kQ R4 5.1...

Q: Given the following circuit, solve for the energy stored by the Capacitor and Inductor. 4 mA 2H 20nF...

A: We need to find out energy stored by inductor and capacitor

Q: 2. A capacitor having a capacitance of 2.0 uF consists of two metal elec- trodes separated by an ins...

A: Steady State Error:Steady State Error is the difference between the input (command) and output (outp...

Q: Ucc =15 Uo Uce = SU, lc =0.5 find the resis tances て138 2) findthe goin ņ Correspondin to turso と4。 ...

Q: Write a Boolean expression for the logic diagram shown in below diagram A ) a. X = (AB + C ) + (AB +...

Q: Equate Eq 1 to Eq 2 220 110 Ja (377L) R (154L) R+(377L) R(157L) 110-V 25 H: 220 l110 X 3R 43533 L R-...

A: Student asked to provide detailed explanation for one step which he is not understand. So I solved a...

Q: For an unmodulated carrier amplitude of 16Vp and a modulation coefficient of m 0.4, determine the am...

A: The modulation index is the ratio of amplitude of message signal to amplitude of carrier signal.

Q: Design and implement a circuit using positive edge triggered DFFs that generates a pulse (p = 1) on ...

A: We need to design and implement a circuit using positive edge triggered D F/F's that generates a pul...

Q: Find I = I3. Using Kirchoff's Law determine V1 and V2.

A: Resistors, inductors and capacitors form an integral part of any electrical circuit. A source, eithe...

Q: 6. A voltage has a frequency of 150 Hz. what is the angular velocity? 16.67 ms .667 ms 157 rad/s 942...

A: To calculate the angular velocity

Q: A coil of 50 W resistance and 0.15 H inductance is connected in parallel with a capacitor of unknown...

Q: In a semiconductor material, temperature affects: Select one: O a. Number of Donor and Acceptor atom...

A: In a semiconductor material , temperature affects...

Q: Using the mesh method, write the mesh equations for each of the networks and find the mesh currents....

Q: ploblem: Find the the vie nin® equivalent ait two ends A,B in the follwing fiyue. 36 figure I 十 150 ...

Q: Vcc = 16 V Rs=1KQ RL=2.7KO 3.9 k2 39 k2 Cbe=100 pf 1µF Cbc=2pf 1 µF V,oH B= 100 o=50 kQ Cce=1pf 4.7 ...

A: As per company guidelines we can solve only first three sub parts kindly post another parts separate...

Q: 6.32- The following test data were taken on a three-phase, four-pole, 100 hp, 480 V, 60 Hz, design A...

A: Given: DC test, No load test, Block rotor test

Q: Given L=12 H and R=5 Ohms, the input admittance of the below circuit is equal to R L O 1/5+1/(12s) O...

A: In this question, We need to choose the correct options What is admittance of the given circuit Y?

Q: tined The vame of R in Fig belouf the woltage drop across the 5s2 is 2-5 volts? I A Ia I, R 12 v D

Q: 10. Refer to the graphic appendix B. The total impedance of the circuit is most near: 100 + j5714 Oh...

A: The solution is given below

Q: Input Output 7 segment A В D d C e g displays 0001 0000 0010 1 1 1 1 0 0110 1 1 0 1101 0111 1 1 1 00...

Q: ] Let F(s) denote Laplace transform of the following signal f(t) =e-2r(t) The value of F(s=0) is equ...

Q: In a certain metallic conductor, the uniform electric flux density is present in 0.555pC/m^2. The ma...

Q: True or False? The two circuits below are equal. Prove your answer for full credit. A A

Q: The ideal Zener diode in the circuit below, regulates Vz= 50 volts over a range of diode current fro...

Q: A 50 Hz generator is connected to a turbine operating under a head of 3000 ft with a flow of 82 cubi...

A: Given: A 50 Hz generator is connected to a turbine operating under a head of 3000 ft with a flow of ...

Q: For our permanent magnet motor , using Ko = 0.06 N-m/A or 0.06 V-s, a. Calculate the no-load speed f...

Q: Popping an element from an array stack of size 20 that already have l elements will cause: a. None o...

A: solution

Q: Find the value of unknown. 5:8 — ____:10

A: The solution is given below

Q: Explain different types of ADC with figures?

Q: A coil and resistor each have a 160-V voltage across them when connected in series to 240v, 60 Hz so...

Q: Find the value of RL for maximum power transfer and compute the maximum power delivered to the load....

Q: Interpret what is in the figure

A: Control systems are represented by transfer function. This can be written in both time domain and s...

Q: Convent the transter function 532.755+o5 (Zon)at 7= 1 sec.

A: As per our guidelines we are supposed to be answer the first question only.

Q: ® Filnd Ini Z7H and IL for 3 UINC EXAM #2 and Find YTH, ZTH VIDAD for Z LOAD 1344).- 3+j impolane O ...

A: for question 4th, no diagram is given. So I am doing remaining questions. Hope you understand the co...

Q: Use Boolean algebra to simplify the following expressions. (а) АВС +АВС+BD (b)AB + BC (B +C) (c) A (...

A: (a) ABC+ABC+BD

Q: Determine the voltmeter reading in Figure 2, if the 4.7 kΩ (R3) resistor is open. What is the readin...

A: Resistors, inductors and capacitors form an integral part of any electrical circuit. A source, eithe...

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. A single phase overhead transmission line delivers 4000 kW at 11 kV at 0-8 p.f. lagging. If resistance
and reactance per conductor are 0-15 Q and 0-02 Q respectively, calculate :
() percentage regulation
(ii) line losses
(ii) sending end power factor
() 19 83% (ii) 0-77 lag (iii) 620 kW]

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 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 three ideal single-phase transformers (with a voltage gain of ) put together as three-phase bank as shown in Figure 3.35. Assuming positive-sequence voltages for Va,Vb, and Vc find Va,Vb, and VC. in terms of Va,Vb, and Vc, respectively. (a) Would such relationships hold for the line voltages as well? (b) Looking into the current relationships, express IaIb and Ic in terms of IaIb and Ic respectively. (C) Let S and S be the per-phase complex power output and input. respectively. Find S in terms of S.
Consider the 500 kV, three phase bundled conductor line as shown in the figure below. Find the line to neutral capacitance. 0.5 m 30 mm (0) (O to Ine 15 m 15 m
Q2. Figure Q2 shows the single-line diagram. The scheduled loads at buses 2 and 3 are as marked on the diagram. Line impedances are marked in per unit on 100 MVA base and the line charging susceptances are neglected. a) Using Gauss-Seidel Method, determine the phasor values of the voltage at load bus 2 and 3 according to second iteration results. b) Find slack bus real and reactive power according to second iteration results. c) Determine line flows and line losses according to second iteration results. d) Construct a power flow according to second iteration results. Slack Bus = 1.04.20° 0.025+j0.045 0.015+j0.035 0.012+j0,03 3 |2 134.8 MW 251.9 MW 42.5 MVAR 108.6 MVAR
High Voltage level in Transmission system ensures ………………… a. High current in Overhead conductors b. Less power factor c. Low Power Transfer d. Reduction in conductor size
7.8 The cost of a 3-phase overhead transmission line is Rs (25000 a + 2500) per km where 'a' is the area of X-section of each conductor in cm². The line is supplying a load of 5 MW at 33kV and 0.8 p.f. lagging assumed to be constant throughout the year. Energy costs 4P per kWh and interest and depreciation total 10% per annum. Find the most economical size of the conductor. Given that specific resistance of conductor material is 10 cm.
H. W.: A 3-phase overhead transmission line is being supported by three disc insulators. The potentials across top unit and middle unit are 9 kV and 11 kV respectively. Calculate: a. The ratio of capacitance between pin and earth to the mutual capacitance of each unit. b. The line voltage. c. String efficiency. [Ans: a. 0.22 b. 61.35 kV c. 76%]
Question 1) A 154 kV transmission line has a length of 100 km. The line and the conductors are given in Figure 1. The line is operated at f= 50 Hz. For both old and new lines calculate; a. GMD and GMR. b. Inductance of the line in Henries (H). c. Series Impedance (Z) of the line in Ohms. d. *Compare the results for both lines and comment on the results. e. *If the distance between the two neighbouring conductors is increase from 13 meters to 15 meters what would be the parameters in part a.,b. and c. comment on the results. New Line's Conductors 13 m 13 m Old Line's Conductors d r = 2 cm d = 40 cm r = 2 cm Figure 1
An overhead 3-phase transmission line delivers 6000 kW at 32 kV at 0-6 p.f. lagging. The resistance and reactance of each conductor is 5 ohm and 8 ohm respectively. Determine: (i) sending end voltage (ii) percentage regulation (iii) transmission efficiency.
Three zones of a single-phase circuit are identified shown in Figure below. The zones are connected by transformers T1 and T2, whose ratings are also shown. Using base values of 33 kVA and 232 volts in zone 1, Find: 1- Draw the per-unit circuit including the per-unit impedances and the per-unit source voltage. 2- Calculate the load current both in per-unit and in amperes (actual or original value). Vs Zone 1 232.940° Vs G. 38 T₁ 30 KVA 240/480 volts Xeq = 0.10 p.u. Zone 2 Xiine = 4 Ω T₂ 20 KVA 460/115 volts Zload = Xea = 0.10 p.u. Zone 3 u 1+j2.2 Ω 2
An overhead 3-phase transmission line delivers 6000 kW at 32 kV at 0-6 p.f. lagging. The resistance and reactance of each conductor is 5 Q and 8 2 respectively. Determine: (i) sending end voltage (ii) percentage regulation (ii) transmission efficiency. A Focus
Problem 1 a- Explain the meaning of the term "bundle conductor transmission line" and discuss the effects of its use on the electrical performance of a high voltage electric transmission line. b- Consider an experimental 1800 kV three phase bundle-conductor line with parameters A= 0.95 and B=j 70. Determine the value of the parameter C of the line. Assume that the line is delivering 2,000 MVA at receiving end whose voltage of 1750 kV and unity power factor. Determine the sending end voltage of the line. d- C- Determine the sending end current of the line.
What are FACTS (Flexible Alternating Current Transmission Systems) devices, and how do they enhance the control and stability of power systems?