Q2) A 3-phase load of 5 MW at a power factor of 0.9 lagging is to be transmitted over a distance of 100 km with a receiving end voltage of 66 kV, 50 Hz. Each conductor has a resistance Of 0.8 2 /km...


Q2) A 3-phase load of 5 MW at a power factor of 0.9 lagging is to be<br>transmitted over a distance of 100 km with a receiving end voltage of 66<br>kV, 50 Hz. Each conductor has a resistance Of 0.8 2 /km and radius of<br>26.1 mm, the conductors have an equilateral spacing of 2 m. Find the<br>sending end voltage, current and power factor, by using: 1) Nominal a<br>circuit method. 2) Nominal T circuit method.<br>

Extracted text: Q2) A 3-phase load of 5 MW at a power factor of 0.9 lagging is to be transmitted over a distance of 100 km with a receiving end voltage of 66 kV, 50 Hz. Each conductor has a resistance Of 0.8 2 /km and radius of 26.1 mm, the conductors have an equilateral spacing of 2 m. Find the sending end voltage, current and power factor, by using: 1) Nominal a circuit method. 2) Nominal T circuit method.

Jun 11, 2022
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