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5 500 2 12.5Z-10 kV --517502 - Dj 750 0 Given: A 12.5 kV circuit has...
Phasor17 364012 7.620°kV | |-jX. 2j1280 22 Given: A 7.6 kV circuit has a load consisting...
Phasor17
364012 7.620°kV | |-jX. 2j1280 22 Given: A 7.6 kV circuit has a load consisting of 640 22 of resistance in series with 1280 2 of inductive reactance. Required: How much parallel capacitive reactance is needed to correct the power factor to 0.96 lagging? Solution: Xc = 's Submit this value If you are not ready to submit the answer now, you can print this, work it off-line, then log in again to submit the answer. As long as...
Given: A 12.5 kV circuit has a load of 8000 kVA with a lagging power factor...
Given: A 12.5 kV circuit has a load of 8000 kVA with a lagging power factor of 0.8. Required: How much capacitive reactive power is needed to correct the power factor to 0.92 lagging? Solution: Q= O kVAR's
1, Two balanced three-phase loads are in parallel. Load 1 draws 10 kW at 0.8 PF...
1, Two balanced three-phase loads are in parallel. Load 1 draws 10 kW at 0.8 PF lagging Load 2 draws 20 kVA at 0.6 PF leading a. b. The loads are supplied by a balanced three-phase 480 Vu source. (a) Draw the power triangle for the combined load. (b) Determine PF of the combined load. (c) Determine the magnitude of the line current from the source. (d) Y-connected inductors are now installed in parallel with the combined load. What value...
A 60 Hz, balanced three-phase source is connected to a balanced load of 2815 kVA at...
A 60 Hz, balanced three-phase source is connected to a balanced load of 2815 kVA at 0.95 pf lagging through a short transmission line with negligible resistance and a series inductive reactance of 13 12. The load is operated at 25 kV. Compute: (a) the line current magnitude (b) the line voltage magnitude at the source (c) the line-to-neutral source voltage (d) the power factor of the source
Please show all work and concepts 5.2 (15 pts) In the following circuit, voltage source V...
Please show all work and concepts
5.2 (15 pts) In the following circuit, voltage source V 10020° V, 60 Hz supplies power to three load circuits with impedances Z1, Z2, and Z3. The following information was deduced from measurements performed on the three load circuits Load Z1: 45 W at pf 0.95 lagging Load Z2: 70 VA at pf 0.75 leading Load Z3: 100 VA at pf = 0.6 lagging (a) Are Z1, Z2, and Z3 inductive or capacitive? (b)...
Problem 4.4 For the AC circuit in Fig. 4.4, I PF leading. oad # 1 is...
Problem 4.4 For the AC circuit in Fig. 4.4, I PF leading. oad # 1 is 1000 VA at 0.7 PF lagging, load # 2 is 700 VA at zero (a) Determine real power, rea (b) D etermine real power, reactive power and power factor of the input source ( etermine the reactance of a capacitor to be connected in parallel with the source to improve the source power factor to unity Load 36 Fig. 4.4
For parallel loads given, with load 2 is inductive (L), while load 3 is capacitive (C)....
For parallel loads given, with load 2 is inductive (L), while load 3 is capacitive (C). Find the total a. average power, b. reactive power, c. apparent power, d. overall power factor pf of the network given. Load | 1 Load 2 Load 3 V = 220 V 20° O VAR 100 W 700 VAR (L) 200 W 1500 VAR (C) 300 W 10
4. In the circuit below, the impedance Z1 dissipates 10 kW with a power factor of...
4. In the circuit below, the impedance Z1 dissipates 10 kW with a power factor of 0.80 lagging. Z2 draws 14 kVA apparent power with a power factor of 0.70 leading. The frequency of the source is 60 Hz 208 V (rms)- Z1 (a) Determine the impedance Zi. (b) Determine the impedance Z2. (c) Determine the complex power Ssource for the voltage source. (d) Sketch and label the power triangle for each impedance, labeling the lengths of the sides and...
show all work Example 2: Calculate the BW for the modeled tuning circuit of the Fig....
show all work
Example 2: Calculate the BW for the modeled tuning circuit of the Fig. below at the Frequencies: 540 kHz (bottom of AM dial); 980 kHz (middle of dial); 1620 kHz (top dial) Comment your results. L1 500 μΗ LOOPSTICK C1 R (load) 100 K R (load) is the combined coil loss (L1) and input resistance of U1. It represents all the losses in the tuned circuit. 150 pF TUNING Parallel resistance X Q for loaded parallel resonant...
Question 4 (10 marks) A) A 10-kVA, 415-V, three phase, Y -connected synchronous generator has a...
Question 4 (10 marks) A) A 10-kVA, 415-V, three phase, Y -connected synchronous generator has a winding resistance of 0.3 Q and a synchronous reactance of 0.6 on a per phase basis. Determine its voltage regulation at full load when the power factor is (a) 75% lagging and (b) 75% leading. B) (10 marks) A 220-V, Y-connected, three-phase, synchronous motor has a synchronous reactance of 4 O/phase and negligible armature winding resistance. At a certain load the motor takes 7.5...
Phasor17
364012 7.620°kV | |-jX. 2j1280 22 Given: A 7.6 kV circuit has a load consisting of 640 22 of resistance in series with 1280 2 of inductive reactance. Required: How much parallel capacitive reactance is needed to correct the power factor to 0.96 lagging? Solution: Xc = 's Submit this value If you are not ready to submit the answer now, you can print this, work it off-line, then log in again to submit the answer. As long as...
Given: A 12.5 kV circuit has a load of 8000 kVA with a lagging power factor of 0.8. Required: How much capacitive reactive power is needed to correct the power factor to 0.92 lagging? Solution: Q= O kVAR's
1, Two balanced three-phase loads are in parallel. Load 1 draws 10 kW at 0.8 PF lagging Load 2 draws 20 kVA at 0.6 PF leading a. b. The loads are supplied by a balanced three-phase 480 Vu source. (a) Draw the power triangle for the combined load. (b) Determine PF of the combined load. (c) Determine the magnitude of the line current from the source. (d) Y-connected inductors are now installed in parallel with the combined load. What value...
A 60 Hz, balanced three-phase source is connected to a balanced load of 2815 kVA at 0.95 pf lagging through a short transmission line with negligible resistance and a series inductive reactance of 13 12. The load is operated at 25 kV. Compute: (a) the line current magnitude (b) the line voltage magnitude at the source (c) the line-to-neutral source voltage (d) the power factor of the source
Please show all work and concepts
5.2 (15 pts) In the following circuit, voltage source V 10020° V, 60 Hz supplies power to three load circuits with impedances Z1, Z2, and Z3. The following information was deduced from measurements performed on the three load circuits Load Z1: 45 W at pf 0.95 lagging Load Z2: 70 VA at pf 0.75 leading Load Z3: 100 VA at pf = 0.6 lagging (a) Are Z1, Z2, and Z3 inductive or capacitive? (b)...
Problem 4.4 For the AC circuit in Fig. 4.4, I PF leading. oad # 1 is 1000 VA at 0.7 PF lagging, load # 2 is 700 VA at zero (a) Determine real power, rea (b) D etermine real power, reactive power and power factor of the input source ( etermine the reactance of a capacitor to be connected in parallel with the source to improve the source power factor to unity Load 36 Fig. 4.4
For parallel loads given, with load 2 is inductive (L), while load 3 is capacitive (C). Find the total a. average power, b. reactive power, c. apparent power, d. overall power factor pf of the network given. Load | 1 Load 2 Load 3 V = 220 V 20° O VAR 100 W 700 VAR (L) 200 W 1500 VAR (C) 300 W 10
4. In the circuit below, the impedance Z1 dissipates 10 kW with a power factor of 0.80 lagging. Z2 draws 14 kVA apparent power with a power factor of 0.70 leading. The frequency of the source is 60 Hz 208 V (rms)- Z1 (a) Determine the impedance Zi. (b) Determine the impedance Z2. (c) Determine the complex power Ssource for the voltage source. (d) Sketch and label the power triangle for each impedance, labeling the lengths of the sides and...
show all work
Example 2: Calculate the BW for the modeled tuning circuit of the Fig. below at the Frequencies: 540 kHz (bottom of AM dial); 980 kHz (middle of dial); 1620 kHz (top dial) Comment your results. L1 500 μΗ LOOPSTICK C1 R (load) 100 K R (load) is the combined coil loss (L1) and input resistance of U1. It represents all the losses in the tuned circuit. 150 pF TUNING Parallel resistance X Q for loaded parallel resonant...
Question 4 (10 marks) A) A 10-kVA, 415-V, three phase, Y -connected synchronous generator has a winding resistance of 0.3 Q and a synchronous reactance of 0.6 on a per phase basis. Determine its voltage regulation at full load when the power factor is (a) 75% lagging and (b) 75% leading. B) (10 marks) A 220-V, Y-connected, three-phase, synchronous motor has a synchronous reactance of 4 O/phase and negligible armature winding resistance. At a certain load the motor takes 7.5...
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