For the two port network shown. Calculate the maximum average load power Z11=162 S1492 9A Z12=-122 162 rms Z21=102 Z22=182
Q: Q3. The ABCD constants of a 3-phase, 345 kV transmission line are A = D = 0.98182 +j 0.0012447 B =…
A: A 3-ph transmission line ABCD parameters are, A = D = 0.98182 + j 0.0012447 B = 4.035 + j 58.947…
Q: A short transmission line is represented by an impedance of 0.01 + jo.04. What is the voltage…
A: Given data, A short transmission line has Z=0.01+j0.04 ΩI=1.93∠-8° puVs=1∠0° pu
Q: Q3. The ABCD constants of a 3-phase, 345 kV transmission line are A = D = 0.98182 + j 0.0012447 B =…
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Q: In three phase transmission line system with no transposition have the inductance matrix as shown…
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Q: Q.30: For the two-port electric network shown in figure beside, calculate the maximum load power?…
A: Draw the circuit diagram again and show all the currents and the voltages,
Q: A single phase transmission line is delivering 450 kVA load at 13 kV. Its resistance is 6.5 N and…
A: Single phase transmission line Power deliver P=450KVA, power factor = 0.9 load voltage V=13KV…
Q: A 320 kV, three phase transmission line with a 410 km length. The series impedance Z =(0.35+j0.73)…
A: Transmission line parameters are given Find the T and π model equivalent circuit parameters as per…
Q: For the two port network shown. Calculate the maximum average load power. Z11=3.752 0.5A Z12=-3.1252…
A: The source transformation is used to convert the practical current source into practical voltage…
Q: The impedance of a 150 km transmission line is z=0.08+j0.48 ohm/km and the shunt The admittance…
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Q: Q3. The ABCD constants of a 3-phase, 345 kV transmission line are A=D= 0.98182 +j 0.0012447 B= 4.035…
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Q: A 300 Km transmis line with the following series impedance and shunt admittance, z= (1.9+j7.9)x10-2…
A: The solution is given below
Q: For the two port network shown. Calcula the maximum average load power. Z11=3.752 0.5A Z12=-3.1252…
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Q: A 320 kV, three phase transmission line with a 410 km length. The series impedance Z =(0.35+j0.73)…
A: 320kV , 3 phase transmission line Series and admittance parameters are given. Find. The T and π…
Q: For the two port network shown. Calculate the maximum average load power. Z11=3.752 0.5A Z12=-3.1252…
A: The source transformation is used to convert the practical current source into practical voltage…
Q: For the two port network shown. Calculate the maximum average load power Z11=162 9A Z12=-122 142 162…
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Q: 3-phase medium overhead transmission line has an impedance of 48.7+j80.2 ohm per phase, and shunt…
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Q: Q1: The parameters of long three-phase transmission line 200 km with 50 Hz are l = 1.3 mH/km, c = 9…
A: Given length of the line, l=200km. The impedance per unit is calculated as
Q: If a transmission line of characteristic impedance 50 N is terminated with a load impedance of 150…
A: Given information: The characteristic impedance of the transmission line is Z0=50 Ω The load…
Q: A single phase overhead transmission line from Muscat to Nizwa delivers 1800 KW at 22 KV at 0.8…
A: The data given in the question are: P=1800KW, VR=22KV∠0°, PF=0.8LAG, R=18Ω, L=25mH, f=50Hz The value…
Q: A ( single phase transmission line 100 km long has the following constants Resistance/km 0 · 25 Ω…
A: Dear student as per our guidelines we are supposed to solve only one question in which it should…
Q: For the two port network shown. Calculate the maximum average load power. Z11=3.75N 0.5A Z12=-3.1252…
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Q: SAMPLE 3. Determine the sending end voltage, V, of the given nominal-T transmission line. Ans: UNIVE…
A: This problem is from power system. Please look for solution below.
Q: A 320 kV, three phase transmission line with a 410 km length. The series impedance Z = (0.35+j0.73)…
A: Transmission line parameters are given Find the T and π model equivalent circuit parameters?
Q: A single phase transmission line is delivering 450 kVA load at 13 kV. Its resistance is 6.5 2 and…
A:
Q: A single-phase overhead transmission line delivers 200 kW at 20 kV at 0.8 p.f. lagging. The total…
A: In the question, A single phase overhead Transmission line have resistance R= 20ohm Inductive…
Q: A single phase transmission line is delivering 470 kVA load at 12 kV. Its resistance is 5 2 and…
A: current in line = KVA deliveredvoltage at receving end. sending end voltage = receiving end voltage…
Q: Calculate the impedance parameters for the two port network Verify the result by using both methods…
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Q: Find the bus admittance matrix for the following power system network. Z-0.3+j0.5 O @z-0.4+j0.3…
A: In this question, Find the bus admittance matrix for the given power system. Here 3 buses are…
Q: The ABCD constants of a 3-phase transmission line are A = D = 0.841° B= 170Z85° C = 0.002Z90.4° mho…
A: In this question, choose the correct option Find the Receiving end voltage VR ? We know Vs =…
Q: Theoretical Impedance Admittance Transmission Parameters Parameters Parameters yı1 A Z12 y12 В y22 D
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Q: A 60-Hz short transmission line, having R = 0.62 ohms per phase and L = 93.24 millihenrys per phase,…
A: First we will calculate receiving end load current and than sending end voltage sending end…
Q: A single-phase overhead transmission line delivers power of 1.6 MW at 132kV at 0.8 power factor…
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Q: A 500-kV 60-Hz three phase transmission line is 351 km long. The series impedance is z=0.06+j0.4 N…
A: Given : z=0.06+j0.4 per phase per km y=j5×10-6 siemens per phase per km Transmission line 351 km…
Q: A short 3-phase transmission line connected to a 33kV, 50HZ generating station at the sending end is…
A: Given P=10 MW power factor (cos ϕr)=0.8 lagging Vs(line) =33 kV f=50 Hz Transmission efficiency =96…
Q: The ABCD constants of a 3-phase transmission line are A = D = 0.8 Z1°; B = 170285° Q; C = 0.02Z90.4°…
A: Given values are - A=D=0.8∠1oB=170∠85oC=0.02∠90.4omhoSending end voltage VS=400kV
Q: A 320 kV, three phase transmission line with a 410 km length. The series impedance Z = (0.35+j0.73)…
A: 3 phase transmission line Series and admittance parameters are given. Find. The T and π modal…
Q: p03 + jo.o05 N/km and shunt admittance of 2.93 x 10-6 S/km. It delivers 350 MVA 169 kV, with 0.95…
A: Since you have asked multiple questions in a single request, we will be answering only the first…
Q: in a single line bus system with the impedance characterizes of the following R = 0.15pu while XL =…
A: Single line bus system with the impedance R = 0.15pu , XL = 0.45pu. find the inverse of the…
Q: the regulation of line at this pf and at a pf of 0.7 lead, system voltage is 220kV. L Transmission…
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Q: A 50 Hz three-phase transmission line is 300 km long t has a total series impedance of 23 + j 75 Q…
A: The three-phase transmission line is used for the transmission of signals from the source to the…
Q: 5. A short 3-phase transmission line connected to a 33KV, 50HZ generating station at the sending end…
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Q: Q.30: For the two-port electric network shown in figure beside, calculate the maximum load power?…
A: Draw the circuit diagram again and show all the currents and the voltages,
Q: For the two port network shown. Calculate the maximum .average load power Z11=162 9A 3142 Z12=-122…
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Q: A balanced load of 30 MW is supplied at 132 kV, 50 Hz and 0-85 p.f. lagging by means of a…
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Q: 10.20: For the circuit shown, z11=-5002, Z12=152, z =-1M2 & z»=10K2: 1. Find the output port voltage…
A: We are authorized to answer three sub-parts at a time, since you have not mentioned which part you…
Q: A three phase transmission line is 390 km long. The series impedance of the line is (0.315+ jo.653)…
A: Part (a): The total impedance of the transmission line is determined as: Z=0.315+j0.653 Ω/km390…
Q: A single phase transmission line is delivering 450 kVA load at 12 kV. Its resistance is 7 0 and…
A: In this question we will find voltage regulation and efficiency of transmission line...
Q: Theoretical Admittance Transmission Impedance Parameters Parameters Parameters y11 A Z12 y12 В C y22…
A: It is given that: Z1 = 10 ohms Z2 = 25 ohms Z3 = 50 ohms Z4 = 75 ohms Z5 = 100 ohms Z6 = 75 ohms…
Q: 1. A three phase, 60 Hz, 60 km long transmission line has series impedance Z=0.1+j0.5Q/ km delivers…
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- 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.The parameters of transposed overhead transmission line are given as: self reactance Xs=0.4 ohm/km and mutual reactance Xm=0.1 ohm/km. The positive sequence reactance X1 and zero sequence reactance X0, respectively, in ohm/km are (A) 0.3, 0.2 (B) 0.5, 0.2 (C) 0.5, 0.6 (D) 0.3, 0.6a) Find the IBC load currentb) Give the VCA line voltagec) Calculate the total complex power on the transmission line.
- 1)Write the Installed Generation Capacity of Sultanate of Oman with current energy share of Conventional and Non-Conventional Energy Sources. 2) Why the Capacitance effect is neglected in Short Transmission Line. 3) Distinguish between Lumped or Distributed elements in a Transmission Line.Give the physical significance of the generalized circuit constant A,B,C and D of a transmission line. Find the values of A, B, C, D in the following approximate methods in terms of Z and Y (i)simple series impedance method (ii) nominal π method (iii) nominal T methodin a single line bus system with the impedance characterizes of the following R = 0.15pu while XL = 0.45pu. find the inverse of the impedance given that z = R + jx
- A power of 90+j70 MVA is drawn from the end of a 220 km three-phase transmission line with a voltage of 380 kV. The following values are given for the line: z = 0.166 + j0.86 Ω/km and y = j6x10^(−6) w/km .Calculatethe sending end voltage, sending end current and efficiency for each of the following cases. 1-)Using short transmission line approximation. 2-)Using long transmission line approximation.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 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.
- 470 kVA load at 12 kV. Its resistance is 7 Ω and inductive reactance is 7 Ω 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 Note:please do not handwritingA three-phase 138-kV transmission line is connected to a 49-MW load at a 0.85 lagging power factor. The line constants of the 52-mi-long line are Z = 95∠78° Ω and Y = 0.001∠90° S. Using nominal-T circuit representation, (i) Calculate the A, B, C, and D constants of the line, (ii) send end voltagefor a power system having Vs=765<35Kv , Vr=740<0 Kv , Z=180<87 and A=0.956<0.284 ,determine :a)the sending end powerb)the stability limit powerc) repeat a and b if the lone is lossless