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• Q3//A transmission line 200 km long has the following constant: • Resistance per km=0.152 •...
• Q3//A transmission line 200 km long has the following constant: • Resistance per km=0.152 • Reactance per km=0.500 • Susceptance per Km=2.0x10-6 mho • Voltage at the receiving end is 132 Ky. The transmission line is delivering 50MVA at 0.85 lagging at the receiving end. calculate (i) sending end voltage (ii)sending-end current (iii)voltage regulation (iv)efficiency.
• Q3//A transmission line 200 km long has the following constant: Resistance per km=0.150 Reactance per...
• Q3//A transmission line 200 km long has the following constant: Resistance per km=0.150 Reactance per km=0.500 Susceptance per Km=2.0x10-6 mho • Voltage at the receiving end is 132 Kv. The transmission line is delivering 50MVA at 0.85 lagging at the receiving end. calculate (i) sending end voltage (ii)sending-end current (iii)voltage regulation (iv)efficiency. 3
A 3-phase, 50 Hz, long 300 Km transmission line delivers 60 MVA at 124 kV and...
A 3-phase, 50 Hz, long 300 Km transmission line delivers 60 MVA at 124 kV and 0-8 p.f. lagging. The total resistance 25.3 ohm and total reactance is 66.5 ohm and the admittance due to capacitance is 0.442*10-3 mho. Determine: (i) (ii) (iii) A,B, C and D constants of long T.L Sending end voltage, current and power factor Transmission efficiency, Voltage regulation
please,I need the solution within 15 min Question 3 b: /Mark 17] (CLO 3 and 4)....
please,I need the solution within 15 min
Question 3 b: /Mark 17] (CLO 3 and 4). A 236 kV, three-phase medium transmission line is 211 km long. The line has a per phase series resistance R = 0.041 N, inductive reactance XL =j 0.3012, per kilo-meter for both, and shunt capacitive reactance X = 211.8 k2-km. Using the medium line model (nt- model) of transmission line to calculate: a- The transmission line A, B, C, and D constants. (Mark 3)...
UTORIAL PROBLEMS 1 A 150 km 34, 110 kV, 50 Hz transmission line transmits a load...
UTORIAL PROBLEMS 1 A 150 km 34, 110 kV, 50 Hz transmission line transmits a load of 40,000 kw at 0-8 pf lagging at the receiving end. Resistance/km/phase-0-15Ω ; reactance/km/phase :06 Ω; susceptance km phase 10 S. Determine (i) the A, B, C and D constants of the line (ii) regulation of the line. [(i) A = D = 0.968 <1° ; B = 92-8 <7.5°Ω ; C 0.00145く90-5° S (ii) 33-5%)!
Outside diameter= 0.927 inch, GMR Ds= 0.0314ft. Use conductor DOVE for other values.
outside diameter= 0.927 inch, GMR Ds= 0.0314ft. Use conductor
DOVE for other values.
SPECIFICATIONS 1. The load size is 275 MVA at 0.85 pf lagging 2. Length 300 mi 3. Voltage at the receiving end is 500 KV 4. Do it for all 31 conductors 20 in 20 in 20in Output (make sure to identify your output properly in your program and in your report) Determine, for each conductor, in addition to the outputs from previous projects GMD GMP .Capacitance...
#2. A 3-phase, 60-Hz transmission line is 140 miles long and has r :0.30 Ohms/mile, x...
#2. A 3-phase, 60-Hz transmission line is 140 miles long and has r :0.30 Ohms/mile, x =1.5 Ohms/mile, and the shunt admittance is 7.8 x 100900 mho /mile. The load at the receiving end of the line is 36 MVA at 220 kV and a power factor of 0.90 lagging (i)Find the ABCD parameters of the line. (i)Find the sending end phasor voltage, Vs and phasor current, Is iv)What is the real power, P and the reactive power Q at...
#2. The A B C D parameters of a 180 km transmission line are: A D-0.853 + j 0.016, B = (31.4 + j1...
#2. The A B C D parameters of a 180 km transmission line are: A D-0.853 + j 0.016, B = (31.4 + j137.0) Ω, C = (-5.00 + j855) x 10-6 S. The load at the receiving end is 100 MVA at 220 kV line to line and o.80 pf lagging. Compute (i) the sending end voltage, Vs (ii) Voltage Regulation (VR) of the line and (ii) the efficiency, n, of the line.
#2. The A B C D...
A 3-ph, 50 Hz overhead transmission line 100 km long delivers 20 MW at 0.9 p.f...
A 3-ph, 50 Hz overhead transmission line 100 km long delivers 20 MW at 0.9 p.f lagging and at 110 kV. The resistance and reactance per phase per km are (0.2) Ω and (j0.4) Ω respectively, while capacitive admittance per phase per km is (j2.5 * 10-6) siemen. Using nominal T circuit, Find: 1- Constants A, B, C, and D. 2- Sending end voltage. 3- Sending end current 4- Sending end power factor 5- Voltage regulation of this T.L. 6-...
Question: A three-phase, 60-Hz, completely transposed transmission line has a length of 100-km and has a...
Question: A three-phase, 60-Hz, completely transposed transmission line has a length of 100-km and has a series impedance per phase of (0.25+j0.85) ohms/mile and shunt admittance of 5.0*10^-5 Siemens/mile. The transmission line delivers 150 MW at 0.85 lagging power factor to a load connnected to its receiving end. The line-to-line voltage at the receiving end is 138-kV. Note: The Medium Length Line method should be used since it is used for distances between 50 miles to 150 miles. Determine the...
• Q3//A transmission line 200 km long has the following constant: • Resistance per km=0.152 • Reactance per km=0.500 • Susceptance per Km=2.0x10-6 mho • Voltage at the receiving end is 132 Ky. The transmission line is delivering 50MVA at 0.85 lagging at the receiving end. calculate (i) sending end voltage (ii)sending-end current (iii)voltage regulation (iv)efficiency.
• Q3//A transmission line 200 km long has the following constant: Resistance per km=0.150 Reactance per km=0.500 Susceptance per Km=2.0x10-6 mho • Voltage at the receiving end is 132 Kv. The transmission line is delivering 50MVA at 0.85 lagging at the receiving end. calculate (i) sending end voltage (ii)sending-end current (iii)voltage regulation (iv)efficiency. 3
A 3-phase, 50 Hz, long 300 Km transmission line delivers 60 MVA at 124 kV and 0-8 p.f. lagging. The total resistance 25.3 ohm and total reactance is 66.5 ohm and the admittance due to capacitance is 0.442*10-3 mho. Determine: (i) (ii) (iii) A,B, C and D constants of long T.L Sending end voltage, current and power factor Transmission efficiency, Voltage regulation
please,I need the solution within 15 min
Question 3 b: /Mark 17] (CLO 3 and 4). A 236 kV, three-phase medium transmission line is 211 km long. The line has a per phase series resistance R = 0.041 N, inductive reactance XL =j 0.3012, per kilo-meter for both, and shunt capacitive reactance X = 211.8 k2-km. Using the medium line model (nt- model) of transmission line to calculate: a- The transmission line A, B, C, and D constants. (Mark 3)...
UTORIAL PROBLEMS 1 A 150 km 34, 110 kV, 50 Hz transmission line transmits a load of 40,000 kw at 0-8 pf lagging at the receiving end. Resistance/km/phase-0-15Ω ; reactance/km/phase :06 Ω; susceptance km phase 10 S. Determine (i) the A, B, C and D constants of the line (ii) regulation of the line. [(i) A = D = 0.968 <1° ; B = 92-8 <7.5°Ω ; C 0.00145く90-5° S (ii) 33-5%)!
outside diameter= 0.927 inch, GMR Ds= 0.0314ft. Use conductor
DOVE for other values.
SPECIFICATIONS 1. The load size is 275 MVA at 0.85 pf lagging 2. Length 300 mi 3. Voltage at the receiving end is 500 KV 4. Do it for all 31 conductors 20 in 20 in 20in Output (make sure to identify your output properly in your program and in your report) Determine, for each conductor, in addition to the outputs from previous projects GMD GMP .Capacitance...
#2. A 3-phase, 60-Hz transmission line is 140 miles long and has r :0.30 Ohms/mile, x =1.5 Ohms/mile, and the shunt admittance is 7.8 x 100900 mho /mile. The load at the receiving end of the line is 36 MVA at 220 kV and a power factor of 0.90 lagging (i)Find the ABCD parameters of the line. (i)Find the sending end phasor voltage, Vs and phasor current, Is iv)What is the real power, P and the reactive power Q at...
#2. The A B C D parameters of a 180 km transmission line are: A D-0.853 + j 0.016, B = (31.4 + j137.0) Ω, C = (-5.00 + j855) x 10-6 S. The load at the receiving end is 100 MVA at 220 kV line to line and o.80 pf lagging. Compute (i) the sending end voltage, Vs (ii) Voltage Regulation (VR) of the line and (ii) the efficiency, n, of the line.
#2. The A B C D...
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