Problem 1(C)- If the fault in Problem 1(A) was a double line to ground fault a phases B and C through a fault impedance Z, = 0.5 p.u., determine the fault current (p.u.). %3D

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Please solve Q1(C) ONLY. Q1(A) is for reference.

Problem 1(A)- In reference to the power system shown below, the system is operating at nominal
voltage without pre-fault currents (load currents ignored) when a bolted ( = 0p .u .) single line-
to
ground fault occurs on phase A at bus 3. Both machines are grounded through reactance.
X, = X, =15%
X, = 50%
1
2
3
4
my O
어。
100MVA,20KV
100MVA
100MVA
100MVA,20KV
X, = X = 20%
20Υ/345Y - kV
20Y /345Y – kV
X, = X = 20%
X2 = 20%
X, = X, = X, = 8%
X, = X, = X, = 8%
X2 = 20%
%3D
X, = 4%
X, = 4%
X, = 5%
X = 5%
Fig. 1-Single-line diagram for the system in problems 1-A, 1-B, and 1-C
(a) The system's Thevenin equivalent positive-, negative-, and zero-sequence networks
(b) The fault current (p.u.) at phase A
Transcribed Image Text:Problem 1(A)- In reference to the power system shown below, the system is operating at nominal voltage without pre-fault currents (load currents ignored) when a bolted ( = 0p .u .) single line- to ground fault occurs on phase A at bus 3. Both machines are grounded through reactance. X, = X, =15% X, = 50% 1 2 3 4 my O 어。 100MVA,20KV 100MVA 100MVA 100MVA,20KV X, = X = 20% 20Υ/345Y - kV 20Y /345Y – kV X, = X = 20% X2 = 20% X, = X, = X, = 8% X, = X, = X, = 8% X2 = 20% %3D X, = 4% X, = 4% X, = 5% X = 5% Fig. 1-Single-line diagram for the system in problems 1-A, 1-B, and 1-C (a) The system's Thevenin equivalent positive-, negative-, and zero-sequence networks (b) The fault current (p.u.) at phase A
Problem 1(C)- If the fault in Problem 1(A) was a double line to ground fault a phases B and C
through a fault impedance Zf = 0.5 p. u., determine the fault current (p.u.).
Transcribed Image Text:Problem 1(C)- If the fault in Problem 1(A) was a double line to ground fault a phases B and C through a fault impedance Zf = 0.5 p. u., determine the fault current (p.u.).
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