6.1. A power system network is shown in Figure 47. The generators at buses 1 and 2 are represented by their equivalent current sources with their reactances in per unit on a 100-MVA base. The lines are represented by n model where series reactances and shunt reactances are also expressed in per unit on a 100 MVA base. The loads at buses 3 and 4 are expressed in MW and Mvar. (a) Assuming a voltage magnitude of 1.0 per unit at buses 3 and 4, convert the loads to per unit impedances. Convert network impedances to admittances and obtain the bus admittance matrix by inspection.

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6.1. A power system network is shown in Figure 47. The generators at
buses 1 and 2 are represented by their equivalent current sources with
their reactances in per unit on a 100-MVA base. The lines are
represented by n model where series reactances and shunt reactances
are also expressed in per unit on a 100 MVA base. The loads at buses 3
and 4 are expressed in MW and Mvar.
(a) Assuming a voltage magnitude of 1.0 per unit at buses 3 and 4,
convert the loads to per unit impedances. Convert network impedances
to admittances and obtain the bus admittance matrix by inspection.
j0.25
50.25
-j4
j0.4
j0.1
j0.16
j0.2
-j4+3
4
S3
-j4
S4
FIGURE 47
One-line diagram for Problem 6.1.
100 MW +j25 Mvar
200 MW +j50 Mvar
Transcribed Image Text:6.1. A power system network is shown in Figure 47. The generators at buses 1 and 2 are represented by their equivalent current sources with their reactances in per unit on a 100-MVA base. The lines are represented by n model where series reactances and shunt reactances are also expressed in per unit on a 100 MVA base. The loads at buses 3 and 4 are expressed in MW and Mvar. (a) Assuming a voltage magnitude of 1.0 per unit at buses 3 and 4, convert the loads to per unit impedances. Convert network impedances to admittances and obtain the bus admittance matrix by inspection. j0.25 50.25 -j4 j0.4 j0.1 j0.16 j0.2 -j4+3 4 S3 -j4 S4 FIGURE 47 One-line diagram for Problem 6.1. 100 MW +j25 Mvar 200 MW +j50 Mvar
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