A power system network as shown in Figure 1 comprises of synchronous generators, transformers, transmission lines and three loads. Using SB as 100 MVA and VB generator as 11 kV, determine the followings: 2 3 20 MVA, 132/22 kV X-15% Xline 1 32.52 40CMVA, 11/132 kV X-20% T3 Xline 2 20.8 2 T 40 MVA, 11/132 kV X-20% 20 MVA, 10MW +j20MVAR pf 0.83 lagging 35 MVA, pf 0.72 lagging Figure 1: A single line diagram (a) The single phase transformer, T3 has a shunt resistance of 360 Q and a shunt reactance of 290 2. A short circuit test performed on the high-voltage side of the transformer yielded the following data: Vsc = 450 V Isc= 125 A Psc = 46.4 kW %3D Given core loss is 55.6 kW, find the equivalent circuit referred to the low voltage side of this transformer and the efficiency when it is operating at full load for 0.70 power factor lagging.

Introductory Circuit Analysis (13th Edition)
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Author:Robert L. Boylestad
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A power system network as shown in Figure 1 comprises of synchronous generators,
transformers, transmission lines and three loads. Using SB as 100 MVA and VB generator as
11 kV, determine the followings:
2
3
20 MVA,
132/22 kV X-15%
1
4
Xline 1 = 32.5 2
40CMVA,
T3
G
11/132 kV X-20%
Xline 2 = 20.8 2
T
40 MVA,
11/132 kV X-20%
20 MVA,
pf 0.83 lagging
10MW + j20MVAR
35 MVA,
pf 0.72 lagging
Figure 1: A single line diagram
(a)
The single phase transformer, T3 has a shunt resistance of 360 2 and a shunt reactance
of 290 2. A short circuit test performed on the high-voltage side of the transformer
yielded the following data:
Vsc = 450 V
Isc = 125 A
Psc = 46.4 kW
Given core loss is 55.6 kW, find the equivalent circuit referred to the low voltage side
of this transformer and the efficiency when it is operating at full load for 0.70 power
factor lagging.
Transcribed Image Text:A power system network as shown in Figure 1 comprises of synchronous generators, transformers, transmission lines and three loads. Using SB as 100 MVA and VB generator as 11 kV, determine the followings: 2 3 20 MVA, 132/22 kV X-15% 1 4 Xline 1 = 32.5 2 40CMVA, T3 G 11/132 kV X-20% Xline 2 = 20.8 2 T 40 MVA, 11/132 kV X-20% 20 MVA, pf 0.83 lagging 10MW + j20MVAR 35 MVA, pf 0.72 lagging Figure 1: A single line diagram (a) The single phase transformer, T3 has a shunt resistance of 360 2 and a shunt reactance of 290 2. A short circuit test performed on the high-voltage side of the transformer yielded the following data: Vsc = 450 V Isc = 125 A Psc = 46.4 kW Given core loss is 55.6 kW, find the equivalent circuit referred to the low voltage side of this transformer and the efficiency when it is operating at full load for 0.70 power factor lagging.
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