A 50HZ, 119A, three phase transmission line delivers 5000KW at 0.85 power facto 30kV.The resistance and inductance of the line are 5.5 ohm and 5.3 ohm respect is Choose... v Choose... Transmission system efficiency is 28539 V 95.5 % 90.5 % 16477 V Elag question
Q: A 3-phase, 60 Hz, 40 km long overhead line supplies 575 kW at 11 kV, 0.8 p.f. lagging. The line…
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Q: Q2/ A single phase overhead transmission line delivers 1100 kW at 33 kV at 0•8 p.f. lagging. The…
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Q: 5. A 3-phase line 3 km long delivers 3000 kW at a p.f. 0-8 lagging to a load. The resistance and…
A: As per Bartleby guidelines we are allowed to solve only one question, please asks the rest again.…
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A: Given: Line voltage=258 kV Rated VA=510 MVA CT ratio of current transformer=1000/5
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Q: A 50HZ, 119A, three phase transmission line delivers 5000KW at 0.85 power factor lagging. The…
A: In this question , we will find receiving voltage per phase...
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A: Given f=60 Hzl=55 KmPL=575 KWVRL=11 KVPF=0.9 laggingResistance/phase=3.5 ΩL=10 mH
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A: Dear student as per our guidelines we are supposed to solve only one question in which it should…
Q: A 3-phase, 50 Hz, 40 km long overhead line supplies 550 kW at 11 kV, 0.9 p.f. lagging. The line…
A:
Q: A 3-phase, 60 Hz, 55 km long overhead line supplies 575 kW at 11 kV, 0.9 p.f. lagging. The line…
A: Given Frequency f=60 Hz length of line l=55 km Load power PL=575 kW Receiving end voltage VRL=11 kV…
Q: A single phase transmission line is delivering 440 kVA load at 11 kV. Its resistance is 50 and…
A: Sending end voltage =receiving end voltage +drop in the line. Efficiency = output power/input power.…
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A: “Since you have asked multiple question, we will solve the first question for you. If you want any…
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A: Hello. Since your question has multiple sub-parts, we will solve the first three sub-parts for you.…
Q: The resistance and reactance of the single-phase 60HZ transmission line conductors are 8.8 ohm and 9…
A: Given single phase transmission lineResistance R=8.8 ΩReactance XL=9 ΩReceiving end voltage VR=56…
Q: A single phase transmission line is delivering 450 kVA load at 13 kV. Its resistance is 7 Q and…
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Q: A 370 kV, three phase transmission line with a 410 km length. The series impedance Z =(0.45+j0.94)…
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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 3-phase, 60 Hz, 30 km long overhead line supplies 550 kW at 22 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 3-phase, 60 Hz, 50 km long overhead line supplies 550 kW at 11 kV, 0.8 p.f. lagging. The line…
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Q: EXAMPLE : Estimate the distance over which a load of 15000 KW at p.f=0.8 lagging can be delivered by…
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A: Note: As per guidelines will be solving only first 3 subparts. Repost for others For the given data…
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A: In this question we will find voltage regulation and efficiency of transmission line...
Q: A 3-phase, 60 Hz, 50 km long overhead line supplies 575 kW at 11 kV, 0.8 p.f. lagging. The line…
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- A 40-km, 220-kV, 60-Hz, three-phase overhead transmission line has a per-phase resistance of 0.15/km, a per-phase inductance of 1.3263 mH/km, and negligible shunt capacitance. Using the short line model, find the sending-end voltage, voltage regulation, sending-end power, and transmission line efficiency when the line is supplying a three-phase load of (a) 381 MVA at 0.8 power factor lagging and at 220 kV and (b) 381 MVA at 0.8 power factor leading and at 220 kV.A single-phase overhead transmission line consists of two solid aluminum conductors having a radius of 3 cm with a spacing 3.5 m between centers. (a) Determine the total line inductance in mH/m. (b) Given the operating frequency to be 60 Hz, find the total inductive reactance of the line in /km and in/mi. (c) If the spacing is doubled to 7 m, how does the reactance change?A three-phase line, which has an impedance of (2+j4) per phase, feeds two balanced three-phase loads that are connected in parallel. One of the loads is Y-connected with an impedance of (30+j40) per phase, and the other is -connected with an impedance of (60j45) per phase. The line is energized at the sending end from a 60-Hz, three-phase, balanced voltage source of 1203V (rms. line-to-line). Determine (a) the current, real power. and reactive power delivered by the sending-end source: (b) the line-to-line voltage at the load: (C) the current per phase in each load: and (d) the total three-phase real and reactive powers absorbed by each load and by the line. Check that the total three- phase complex power delivered by the source equals the total three-phase power absorbed by the line and loads.
- 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.(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 regulationQuestion-2) The parameters of a three-phase transmission line are given as Z = (12.84 + j72, 76)Ω and y = j5, 83x10^-4 mho. At the end of the line, a power of 55 MVA with a power factor of 0.8 is drawn under 132 kV voltage. Accordingly, calculate the line head voltage, active and reactive power values per line, and voltage regulation of the line using the nominal π circuit.7-) Since 55 MVA power is drawn from the end of the line under the conditions mentioned above, calculate the line head voltage (phase-phase voltage) and enter it in the box below. (The value will be entered in kiloVolts. Only the amplitude value of the voltage will be entered. The phase value will NOT be entered!!! Two digits after the comma will be sufficient. )8-) Since 55 MVA power is drawn from the end of the line under the conditions mentioned above, calculate the active power value per line and enter it in the box below. (The value will be entered in MegaWatt. It will be sufficient to take two digits after…
- 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 bundled 500kv, 60Hz three phase completely transposed overhead line having three ACSR 1113kcmil(556.50mm) conductors per bundle,with 0.5m between conductors in the bundle. The horizontal phase spacings between bundle centers are 10,10,and 20m.Calculate the capacitance -to- neutral in F/m. and the admittance -to-neutral in S/km.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.
- S.1) The serial impedance per phase of a three-phase 45 km energy transmission line is 2 + j4 / phase. A load with a power factor of cos2 = 0.8 forward is fed from the end of the line. Since the line voltage at the beginning and end of the line of the energy transmission line is wanted to be kept constant at 115 kV, a) Active and reactive powers drawn from the beginning and end of the line, b) Calculating the power consumed along the energy transmission line and the efficiency of the line. S.2) Line constants of an energy transmission line are given as A = D = 0.8746 + j0, B = 0 + j128.34, C = j0.0018316 S. At the beginning of the line, it is desired to write 1920 MW active power and 600 MVAr reactive power lines under 7650kV line voltage. According to this business, a) Calculate the line end magnitudes (U2, I2 and P2). b) What value does the end voltage take when the load fed from the end of the line is deactivated? S.3) The length of a phased energy transmission line with a…Estimate the distance over which a load of 15000 kW at 0·85 p.f. can be delivered by a 3-phase transmission line having conductors of steel-cored aluminum each of resistance 0·905 Ω/phase per kilometer. The voltage at the receiving end is to be 132 kV and the loss in transmission is to be 7·5% of the load.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.