Experiment of synchronous generator as the power source of lagging PF load. Why efficiency of power...

Experiment of synchronous generator as the power source of lagging PF load. Why phase voltage of...

Experiment of synchronous generator as the power source of lagging PF load. Why phase voltage of synchronous generator is low compares to experiment of synchronous generator as the power source of unity PF load?

A 10kW load with 0.65 pf lagging is supplied by an AC source rated 400V. A.)...

A 10kW load with 0.65 pf lagging is supplied by an AC source rated 400V. A.) draw the power triangle of the load B.)If a capacitor is connected across the load to correct its power fctor to 0.95 lagging, what will be the required size of the capacitor bank in kVAR? C.) Draw the new power triangle of the system. D.) what will be the new system current

A synchronous generator 480-V, 50-Hz, Y-connected, six-pole has a power rating of 50 kVA at pf...

A synchronous generator 480-V, 50-Hz, Y-connected, six-pole has a power rating of 50 kVA at pf 0.8 lagging. The synchronous Reactance Generator is 1.0 Ω per-phase. This Generator is connected to the 45 kW steam turbine. The friction loss and the core generators are respectively 1.5 kW and 1.0 kW. Question : Draw a Capability curves!

A 3 phase, 3.3 kV industrial plant has an overall power factor of 0.88 lagging. A...

A 3 phase, 3.3 kV industrial plant has an overall power factor of 0.88 lagging. A 200 kVA synchronous motor is added to the system and is run at zero power factor and slightly reduced rating to provide power factor correction only. The total load is then 350 kVA at unity power factor. It was then decided to run the synchronous machine at its rated kVA and use it as a source of mechanical power, what gross mechanical power would...

A 75-kW, 440-V, 0.8-PF-leading Y-connected synchronous generator has an armature resistance of 0.22 Ω and a...

A 75-kW, 440-V, 0.8-PF-leading Y-connected synchronous generator has an armature resistance of 0.22 Ω and a synchronous reactance of 3.0 Ω. Its efficiency at full load is 89% (1 Hp=746 watt). (a) What is the line current of the generator at rated conditions? (b) What is the internal generated voltage EA of this motor at rated conditions?

The physical size of an synchronous generator has a profound effect upon its efficiency, power output,...

The physical size of an synchronous generator has a profound effect upon its efficiency, power output, relative cost, and temperature rise. Discuss and analyze why these characteristics are intimately related.

A submarine has a 3-phase, Y-connected, 2- pole, 60Hz synchronous generator rated to deliver 1687.5 kVA...

A submarine has a 3-phase, Y-connected, 2- pole, 60Hz synchronous generator rated to deliver 1687.5 kVA at a FP = 0.8 lagging with a line voltage of 450-V. The machine stator resistance RS = 0.004 ?. The synchronous reactance is Xs=0.08 ?. The actual system load on the machine draws 900 kW at FP = 0.6 lagging. Assume that a voltage regulator has automatically adjusted the field current so that the terminal voltage is its rated value. Mechanical losses are...

1. A single phase circuit has a load of 500kVa at a power factor of 0.707...

1. A single phase circuit has a load of 500kVa at a power factor of 0.707 lagging. Calculate the kVA of the capacitors needed to improve the power factor to unity 3. When connected to a 120-v(rms), 60Hz power line, a load absorbes 4 kw at a lagging power factor of 0.8. Find the capacitance necessary to raise the pf to 0.9 4. A three phase motor draws 20kva at 0.707 power factor lagging from a 208V source. Determine the...

A 100 MVA, 13.2 kV three phase generator (G) having a synchronous reactance of 10% is...

A 100 MVA, 13.2 kV three phase generator (G) having a synchronous reactance of 10% is connected to a three phase Y-Y transformer T1 which feeds a 132 kV 10 miles transmission line having an impedance per phase of 2 + j5 ?/mile. At the receiving end of the transmission line is a Y-Y step down transformer T2. Three loads are connected to the secondary side of the transformer T2. Loads are as follows: Load#1 40 MVA at 0.8 pf...

Example: The load with lagging 0.8 PF absorbs 60 watts of a 100 V, 60 Hz...

Example: The load with lagging 0.8 PF absorbs 60 watts of a 100 V, 60 Hz power line. Required to correct power factor to 0.9 lag. Find: 3- The original and last line current b) The value of the element to be added to achieve the required pf correction ... power factor