If the synchronous reactance of a synchronous generator is jXs = j 60 Ω, and the internal resistance R exists but its value is unknown. At the terminals, a resistive load of unknown value RL is connected. For the given generated voltage Eo = 120 [V], if the current is 0.38∠- 11° [A], and the voltage regulation is 0.05 (that is, the magnitude of the terminal voltage is 5% lower than the generated voltage), then find (a) the internal resistance R and (b) the resistance value RL of the resistive load. Show your calculation.
If the synchronous reactance of a synchronous generator is jXs = j 60 Ω, and the...
Please correctly answer question and post all steps! Will rate! Thanks! A 480 V, 375 kVA, Y-connected synchronous generator has a synchronous reactance of 0.4 Ω and a negligible armature resistance. This generator is supplying power to a 480 V, 80 kW, Y-connected synchronous motor with a synchronous reactance of 1.1 Ω and a negligible armature resistance. The synchronous generator is adjusted to have a terminal voltage of 480 V when the motor is drawing the rated power at unity...
PLEASE ASAP answer dlbe where necessary Q1 A 2.6KV, 1.3-MVA, 0.8-PF-lagging, 50-Hz, 8 pole, Y-connected synchronous 120 generator, has a synchronous reactance o and an amature resistance of 0.2 Ω, CLO At 50 Hz, its friction and windage losses are 28 kW, and its core losses are 22 kW. The 04 field circuit has a de voltage of 220 V, and the maximum I is 10 A. The resistance of the field circuit is adjustable over the range from 25...
A 60-MVA, 69.3-kV, three-phase synchronous generator has a synchronous reactance of 15 Ω/phase and negligible armature resistance. -a. The generator is delivering rated power at 0.8 power factor lagging at the rated terminal voltage to an infinite bus bar. Determine the magnitude of the generated emfper phase and the power angle δ. -b. If the generated emfis 36 kV per phase, what is the maximum three-phase power that the generator can deliver before losing its synchronism? Winter
A synchronous generator with a synchronous reactance of XS =j 0.45Ω is connected to a 20 kV infinite bus via a transmission system whose reactance is Xe = j0.1Ω. The generator terminal voltage is adjusted as 20 kV to synchronized with the infinite bus. The generator delivers 400 MW to the infinite bus. a) Compute the armature current. b) Compute the generator's internal voltage (E).
6) 480 V, 0.5 KHz. A -connected. P-pole synchronous generator. This generator has a synchronous reactance of 0.11 and an armature resistance of 0.015 N. IL = 1310- At full load, the machine supplies 1200 A at 0.8 PF lagging. The phasor diagram of the generator is shown below. E RU 1. = 692.82 -36.87°A Figure 2 i. 11. Calculate the number of poles (P) if the speed of rotation of this generator ise 3000 r/min? [2 marks] If the...
A 100-MVA 12.5-KV 0.85-PF lagging 50-Hz two-pole Y-connected synchronous generator has a synchronous reactance of 1.7 Q and a negligible armature resistance. I) What is the magnitude of the internal generated voltage at rated conditions? 2) What is its torque angle at these conditions? 3) What is its voltage regulation? 4) Ignoring the losses in this generator, what torque must be applied to its shaft by the prime mover at full load? 5) What is the maximum power the generator...
b) A 1MW, 3300 V, 50 Hz, wye-connected, 3-ф, twenty four-pole, synchronous motor has a synchronous reactance of 3.24 2 per phase. Assume armature resistance is negligible. This machine is connected to an infinite bus-bars at 3300 V. Its field excitation is adjusted to provide P.F-1 at rated load Calculate: 0 the internal generated voltage EA and armature current la at rated conditions (S marks) ii) the maximum power and torqu e that the motor can deliver with its Ir...
Assignment 4 An 11 kV, 50-Hz, Y-connected synchronous generator has a synchronous reactance of Xs-0.5Ω and armature resistance, Ra-005Ω. The terminal voltage in all working conditions is assumed constant and equal to the rated voltage. The generator is delivering a load current of 2000A at 0.8 PF leading a. Draw the per-phase equivalent circuit of the generator. b. Calculate the induced EMF, EA. c. Calculate the real and reactive power delivered at the generator terminals. d. Sketch the phasor diagram...
A 75 MVA, 25 Kv, three-phase, 60 Hz synchronous generator has a synchronous reactance of X= 9 Ω per phase and a negligible resistance. The generator is delivrimg rated power at a 0.8 power factor lagging at the rated terminal voltage to an infinitie bus, as shown in the following figure 1. Figure 1.The synchronous generator connected to infinite bus in single phase. 1) The excitation voltage is E = 26.87 KV, The generator delivring 60 MW. Compute the powe...
A 2300 V (terminal voltage), 1000 kVA, 0.8 PF lagging, 60-Hz, two pole, Y connected synchronous generator has a synchronous reactance of 1.1 2 and an armature resistance of 0.15 Ω. At 60Hz, its friction and windage losses are 24 kW, and its core losses are 18 kW The field circuit has a dc voltage of 200 V, and the maximum If Ir is 10 A. The resistance of the field circuit is adjustable over the range from 20 to...