Enter the value of real power in W and reactive power in VAR A naval in-board...
For the following voltage and current phasors, calculate the complex power, apparent power, real power, and reactive power. Determine whether the power factor is leading or lagging. V = 260 230 Vrms, I0.5260 Arms The value of apparent power is VA The value of real power is W. VAR. The value of reactive power is The power factor is Click to select B
4. Sarawak Energy Berhad provides real and reactive power to a shoe's factory in the form of apparent power. Initially the shoe's factory has an uncorrected 460 kVA/month demand, 480 V, three-phase at 0.87 power factor. The billing is RM 4.75/kVA demand. However, the shoe's factory plans to install capacitance bank to raise the power factor to 0.97 in order to reduce the amount of electric bill. Table 1 is multipliers to determine capacitor (kVar) required for power factor correction....
please show steps. Thank you. (40%) Problem 2 of 3: An engine-generator set is paralleled with a 13.2 kv, 60 Hz infinite (utility) bus to deliver power to a 2000 kw plant load at 0.866 lagging power factor. The synchronous generator is wye-connected and rated 3750 kva, 13.2 kv, and 0.8 power factor lagging with 1.0 per unit synchronous reactance and negligible armature resistance. 13.2 kVI 60 Hz I infinite bus utility) rated: 3750 kva 0.8 lag load: 2000 kW...
Question 5 (Svnchronous machines) a. A synchronous generator connected to an infinite grid has its frequency and terminal b. A six-pole, Y-connected three-phase synchronous machine rated 208 V (line-to- voltage fixed. What is the effect of increasing the excitation current in this case? line), 5500 VA has a synchronous reactance of 8 2 per phase at rated terminal voltage. It is operating as a generator connected to an infinite grid Determine the excitation voltage and the power angle if the...
1. If a circuit element absorbs O W real power and O VAR reactive power, then the instantaneous power in the circuit element is always 0 W. (a) True (b) False
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...
Question 1: Consider a 3 phase hydropower generator feeding power into the grid bus, which is held at line voltage of 26kV. The internal reactance is 0.8pu for a rated power of 30MVA. (a) Choose as base value So.3-30MVA and Vo.Lu-26k V and calculate the per-unit (b) Assume the generator initially runs overexcited with E-1.3 pu and a real power values for the power and grid voltage output of Pe 0.32pu. Compute the reactive power and the apparent power output...
A \(30 \mathrm{KV}, 3\) phase, \(50 \mathrm{HZ}\) synchronous generator has a synchronous reactance of 9 \(\Omega\) phase and an armature resistance of \(2 \Omega\) phase. The generator is delivering 50 MVA at a 0.8 power factor lagging at the rated terminal voltage to an infinite bus. a) Determine the excitation voltage \(E\) per phase and the power angle. b) With excitation held constant at the value found in (a), the driving torque is reduced until the generator is delivering \(25...
Consider a 3-phase, 4 pole, 60Hz, 450 V synchronous generator rated to supply 1687.5 kVA to a ship distribution system requiring a 0.8 lagging power factor. (a) If this machine was operating at rated conditions, what would the real (P) and reactive (Q) power and the current being supplied? (b) If the generator has an efficiency ( η ) of 95%, what torque does the prime mover provide? (c) What is the speed of the rotor (rpm)?
2) A 480 V, 60 Hz, 400 hp 0.8 PF-lagging eight-pole A-connected synchronous motor has a synchronous reactance of 0.6 and negligible armature resistance. Ignore the mechanical and core losses. The magnitude of the internal machine voltage is 480 V when the field current is 4 A. Assume magnetic linearity. Initially, the motor operates at the rated conditions. a) Find the speed of this motor. b) Find the armature and field currents. c) What is the developed torque? What is...