A load of 145 MW at a power factor of 0.6 lagging can be delivered by a 3-phase transmission line. The voltage at the receiving end is to be maintained at 36 kV and the loss in the transmission as 5 % of the power delivered. (Consider the line to be a short transmission line) Find Single phase Power delivered Per phase voltage Current flowing through the transmission line 3 Phase Losses in the transmission line Per phase resistance of the transmission line
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Q: A load of 135 MW at a power factor of 0.9 lagging can be delivered by a 3-phase transmission line.…
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Q: A single phase transmission line is delivering 490 kVA load at 10 kV. Its resistance is 6.5 Q and…
A: Hello. Since your question has multiple sub-parts, we will solve first three sub-parts for you. If…
Q: For Figure 1: A short 3-phase line with an impedance of (6+j8) per line has sending end and…
A: Ans. Is shown below.
Q: A load of 120 MW at a power factor of 0.75 lagging can be delivered by a 3-phase transmission line.…
A: single phase power =three phase power3. power in 3 phase power =3×Line voltage×line current×power…
Q: A load of 120 MW at a power factor of 0.9 lagging can be delivered by a 3-phase transmission line.…
A:
Q: A 3 phase line having an impedance of (5+j20)ohm per phase delivers a load of 30MW at a power…
A: It is given that: Z=5+j20 Ω =20.61∠75.96° Ωso, R=5 Ω and X=20j Ωcosϕ=0.3Y=0 (neglected)V=33 KVSo,…
Q: 9.33 A three-phase, 60-Hz, 350-km transmission line has the following parameters: R 0.10 /km, XL at…
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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…
A: Percentage rise in voltage at receiving end is calculated as shown below
Q: A load of 130 MW at a power factor of 0.9 lagging can be delivered by a 3-phase transmission line.…
A: Given P3ϕ=130 MWcosϕ=0.9 lagVr=33 KVLosses in the transmission line=7% of power delivered…
Q: A load of 130 MW at a power factor of 0.9 lagging can be delivered by a 3-phase transmission line.…
A:
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: The RL (Resistive and Inductive) Load in the Load Side Section of the Distribution Line Simulator is…
A: This question is based on the load connection in the distribution line simulator. RL load in the…
Q: A load of 125 MW at a power factor of 0.8 lagging can be delivered by a 3-phase transmission line.…
A: A 3 phase -Load 125MW, power factor 0.8 logging, Receiving end voltage VR = 36kV. Loss in…
Q: A single phase short-transmission line is feeding a load of 12 kW at a 0.8 lagging power factor. The…
A: Given values are - PL=12kWcosϕ=0.8R=5ohmX=10ohmVL=440∠0oV
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 load of 120 MW at a power factor of 0.65 lagging can be delivered by a 3-phase transmission line.…
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Q: electrical engg .fig.shows a single-line diagram of a power system where the generator is connected…
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Q: A load of 125 MW at a power factor of 0.6 lagging can be delivered by a 3-phase transmission line.…
A: single phase power=3 phase power 3. per phase voltage=Line voltage3. line current=power…
Q: A single phase transmission line is delivering 490 kVA load at 12 kV. Its resistance is 6 N and…
A: current in transmission line = power delivered to load in KVA voltage in KV. sending end voltage =…
Q: A load of 125 MW at a power factor of 0.7 lagging can be delivered by a 3-phase transmission line.…
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Q: A load of 135 MW at a power factor of 0.65 lagging can be delivered by a 3-phase transmission line.…
A: Below are the answers calculated for the above given data
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A: In this question we need to find a sending end voltage, line efficiency and regulation for the given…
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Q: A 69-kV, three phase short transmission line is 16km long. The line has a per phase series impedance…
A: We need to determine the sending end voltage, voltage regulation, the sending end power, and…
Q: A load of 135 MW at a power factor of 0.65 lagging can be delivered by a 3-phase transmission line.…
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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 load of 145 MW at a power factor of 0.6 lagging can be delivered by a 3-phase transmission line.…
A: 1 phase power delivered=3 phase power delivered 3. per phase voltage=receiving end line voltage3.…
Q: A load of 145 MW at a power factor of 0.9 lagging can be delivered by a 3-phase transmission line.…
A:
Q: A load of 120 MW at a power factor of 0.6 lagging can be delivered by a 3-phase transmission line.…
A: Note- as per bartleby policy we are only allowed to solve 1 ques per window. Please post the second…
Q: A load of 140 MW at a power factor of 0.6 lagging can be delivered by a 3-phase transmission line.…
A: Given 3-phase transmission line Load PL=140 MWPower factor PF=0.6 lagReceiving end voltage VR=36…
Q: A load of 130 MW at a power factor of 0.6 lagging can be delivered by a 3-phase transmission line.…
A: 1_∅ power=3-∅ power3. Per phase voltage=line voltage3power losses=3×I2 R.
Q: (b) A 3-phase transmission line has a resistance per phase of 50 and an inductive reactance of 150…
A: Given 3-phase transmission line Resistance per phase R=5 ΩInductive reactance per phase XL=15…
Q: A load of 120 MW at a power factor of 0.8 lagging can be delivered by a 3-phase transmission line.…
A:
Q: A three-phase, three-wire Y-Y system a balance load. The following information are given of the…
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Q: A load of 125 MW at a power factor of 0.9 lagging can be delivered by a 3-phase transmission line.…
A: Given a three phase transmission line with load 125 MW ,0.9 pf, 57 kv The loss in the transmission…
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A: Fig: Equivalent circuit diagram of given single-phase Tr-line (a) current flowing…
Q: A single phase transmission line is delivering 450 kVA load at 14 kV. Its resistance is 5.5 Q and…
A: Sending end voltage Vs = Receiving end voltage + drop in the line Regulation = Vs -VrVr…
Q: A load of 130 MW at a power factor of 0.75 lagging can be delivered by a 3-phase transmission line.…
A: Sending end voltage =recieving end voltage +drop Losses =3×I2×Rph
Q: A load of 140 MW at a power factor of 0.8 lagging can be delivered by a 3-phase transmission line.…
A: single phase power=three phase power3. current=three phase power3×voltage×power factor. total…
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: A load of 120 MW at a power factor of 0.8 lagging can be delivered by a 3-phase transmission line.…
A: per phase power =3 phase power 3Given 3 phase power = 120 MWso per phase power = 1203 = 40 MWPer…
Q: Using a test equipment, Vmax was found to be 5V while Vmin is 1V. The distance between voltage…
A: Given : Note : Please note that for the proper understanding here we have used two methods to…
Q: A balanced load of 30 MW is supplied at 132 kV, 50 Hz and 0-85 p.f. lagging by means of a…
A: The line current at receiving end (IR) is given by: Where, The active power is “P”, The receiving…
Q: A load of 130 MW at a power factor of 0.7 lagging can be delivered by a 3-phase transmission line.…
A:
Q: A load of 145 MW at a power factor of 0.8 lagging can be delivered by a 3-phase transmission line.…
A:
Q: Question 4 If the phase parameters for this 50HZ, 40km transmission line are R=20, L=10mH, and…
A: R= 2 ohms L = 10 mH and C = 8000 μF, f = 50 Hz XL = 2πfL = 2 x 3.14 x 50 x 10 x 10 -3 = 3.14j ohms…
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- of stion 4 A single phase transmission line is delivering 450 kVA load at 12 kV. Its resistance is 4.5 2 and inductive reactance is 6 2. 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 A load of 120 MW at a power factor of 0.8 lagging can be delivered by a 3-phase transmission line. The voltage at the intained at 33 kV and the loss in the transmission as 7.5 % of the power delivered. (ConsiderA load of 135 MW at a power factor of 0.6 lagging can be delivered by a 3-phase transmission line. The voltage at the receiving end is to be maintained at 57 kV and the loss in the transmission is 6.5% of the power delivered. (Consider the line to be a short transmission line) Find A) Single phase Power delivered B) Per phase voltage C) Current flowing through the transmission line D) 3 Phase Losses in the transmission line E) Per phase resistance of the transmission lineA single phase transmission line is delivering 450 kVA load at 12 kV. Its resistance is 4.5 and inductive reactance is 6 O. If the load power factor is 0.9 lagging. Determine the of Current through the line stion Sending end voltage Sending end power factor Regulation of transmission line Efficiency of transmission line A load of 120 MW at a power factor of 0.8 lagging can be delivered by a 3-phase transmission line. The voltage at the intained at 33 kV and the loss in the transmission as 7.5 % of the power delivered. (Consider
- A load of 145 MW at a power factor of 0.9 lagging can be delivered by a 3-phase transmission line. The voltage at the receiving end is to be maintained at 45 kV and the loss in the transmission as 7.5 % of the power delivered. (Consider the line to be a short transmission line) Find Single phase Power delivered Per phase voltage Current flowing through the transmission line 3 Phase Losses in the transmission line Per phase resistance of the transmission lineThe VSWR on an 50-Ohm transmission line is 5. The distance between successive voltageminima is 80 cm while the distance from the load to the first minimum is 30 cm. What are thereflection coefficient and load impedanceA load of 135 MW at a power factor of 0.9 lagging can be delivered by a 3-phase transmission line. The voltage at the receiving end is to be maintained at 63 kV and the loss in the transmission is 9 % of the power delivered. (Consider the line to be a short transmission line) Find 3 Phase Losses in the transmission line and Per phase resistance of the transmission line
- Efficiency of transmission line A load of 120 MW at a power factor of 0.8 lagging can be delivered by a 3-phase transmission line. The voltage at the receiving end is to be maintained at 33 kV and the loss in the transmission as 7.5 % of the power delivered. (Consider the line to be a short transmission line) Find t of Single phase Power delivered estion Per phase voltage Current flowing through the transmission line 3 Phase Losses in the transmission line Per phase resistance of the transmission line A 3-phase, 50 Hz, 35 km long overhead line supplies 500 kW at 22 kV, 0.8 p.f. lagging. The line resistance is 4 2 per Calgulato tho Ronctanco of the Line Current flowing through the 5.THESE ARE THE QUESTIONS FROM THE SUBJECT POWER SYSTEM FUNDAMENTALS AND THE CHAPTER IS PERFORMANCE OF TRANSMISSION LINES AND THE TOPIC IS SHORT TRANSMISSION LINES THE ANSWERS ARE GIVEN WITH THE QUESTION PLEASE DO ALL THE QUESTIONS PROPERLY „DONOT SKIP ANY STEP AND DO YOUR BEST 4.) 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 aluminium each of resistance 0-905 O/phase per kilometre. The voltage at the receiving end is to be 132 kV and the loss in transmission is to be 7-5% of the load. [69-55 km] 5). A 3-phase line 3 km long delivers 3000 kw at a p.f. 0-8 lagging to a load. The resistance and reactance per km of each conductor are 0-40 and 0-3 Q respectively. If the voltage at the supply end is maintained at 11 kv, calculate: (i) ceceiving end voltage (line-to-line) (ii) line current (ii) transmission efficiency. [(i) 10.46 kv (ii) 207 A (ii) 95%] 6). A short 3-0 transmission line with an…Paragraph Styles The power factor must be close to in the transmission lines will be reduced To insure that losses D(Ctrl) -
- A single phase transmission line is delivering 410 kVA load at 10 kV. Its resistance is 5.5 ohm and inductive reactance is 8 ohm if the load power factor is 0.7 lagging. Determine the Current through the line Sending end voltage Sending end power factor Regulation of transmission line Efficiency of transmission lineA single phase transmission line is delivering 450 kVA load at 13 kV. Its resistance is 6.5 N and inductive reactance is 6 N. If the load power factor is 0.8 lagging. Determine the Current through the line Sending end voltage Sending end power factor Regulation of transmission line Efficiency of transmission lineThe Power transfer capability of transmission line is most affected by: it) shunt conductance b) capacitance c) Resistance. d) inductance