Question 1 A 208-V three-phase power system is shown in Figure Q4.1. It consists of an ideal 208- V star-connected three-phase generator connected through a three-phase transmission line to a star-connected load. The transmission line has an impedance of (0.06 + j0.12) ohm/phase and the load has an impedance of (12 + j9) ohms/phase. Find the real power, the reactive power and the apparent power consumed by the load. Also, find the power-factor of the load. 0.06 N D.12 N 0.06 N j0.12 N Va= 1202-240° - 12020 2, = 12 + 9N | 208 V w O V - 1202-120° 0.06 N j0.12 N

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Question 1
A 208-V three-phase power system is shown in Figure Q4.1. It consists of an ideal 208-
V star-connected three-phase generator connected through a three-phase transmission
line to a star-connected load. The transmission line has an impedance of (0.06 + j0.12)
ohm/phase and the load has an impedance of (12 + j9) ohms/phase. Find the real
power, the reactive power and the apparent power consumed by the load. Also, find the
power-factor of the load.
0.06 N D.12 N
0.06 N j0.12 N
2,
, = 12 + j9 N
Va- 1202-240°
12020
| 208 V
Vn - 1202-120°
0.06 N j0.12 N
Transcribed Image Text:Question 1 A 208-V three-phase power system is shown in Figure Q4.1. It consists of an ideal 208- V star-connected three-phase generator connected through a three-phase transmission line to a star-connected load. The transmission line has an impedance of (0.06 + j0.12) ohm/phase and the load has an impedance of (12 + j9) ohms/phase. Find the real power, the reactive power and the apparent power consumed by the load. Also, find the power-factor of the load. 0.06 N D.12 N 0.06 N j0.12 N 2, , = 12 + j9 N Va- 1202-240° 12020 | 208 V Vn - 1202-120° 0.06 N j0.12 N
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