B) A short line having an impedance of (2 + j3) ohm interconnects two power stations A and B both operating at 11kV equal in magnitude and phase. To transfer 25 MW at 0.8 power factor lagging from A...

A short line having an impedance of (2 + j3) ohm interconnects two power stations A and B both operating at 11kV equal in magnitude and phase. To transfer 25 MW at 0.8 power factor lagging from A to B determine the voltage drop must be compensated by the booster so that the voltages are maintain the same at both ends.

B) A short line having an impedance of (2 + j3) ohm interconnects two power<br>stations A and B both operating at 11kV equal in magnitude and phase. To transfer<br>25 MW at 0.8 power factor lagging from A to B determine the voltage drop must be<br>compensated by the booster so that the voltages are maintain the same at both ends.<br>

Extracted text: B) A short line having an impedance of (2 + j3) ohm interconnects two power stations A and B both operating at 11kV equal in magnitude and phase. To transfer 25 MW at 0.8 power factor lagging from A to B determine the voltage drop must be compensated by the booster so that the voltages are maintain the same at both ends.

Jun 11, 2022

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B) A short line having an impedance of (2 + j3) ohm interconnects two power stations A and B both operating at 11kV equal in magnitude and phase. To transfer 25 MW at 0.8 power factor lagging from A...

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