3 Referring to a 3-phase power system as shown, a short circuit fault occurs at point F. The equipment rating is shown below. Use 200 MVA as base MVA , determine: Generator (G): 60MVA, 11KV, 0.1pu Transformer (T): 50MVA, 11kV/132KV, 0.1pu Transmission Line (L): 132kV, j20SN G (a) the per-unit impedance of the Generator (G); (b) the per-unit impedance of the Transformer (T); (c) the per-unit impedance of the Line (L); (d) the per-unit equivalent impedance of the system; (e) the voltage at the 11 kV busbar in per-unit; and (f) the voltage at the 11 kV busbar in the unit Voltage (V).
3 Referring to a 3-phase power system as shown, a short circuit fault occurs at point F. The equipment rating is shown below. Use 200 MVA as base MVA , determine: Generator (G): 60MVA, 11KV, 0.1pu Transformer (T): 50MVA, 11kV/132KV, 0.1pu Transmission Line (L): 132kV, j20SN G (a) the per-unit impedance of the Generator (G); (b) the per-unit impedance of the Transformer (T); (c) the per-unit impedance of the Line (L); (d) the per-unit equivalent impedance of the system; (e) the voltage at the 11 kV busbar in per-unit; and (f) the voltage at the 11 kV busbar in the unit Voltage (V).
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Referring to a 3-phase power system as shown, a short circuit fault occurs at point F.
The equipment rating is shown below. Use 200 MVA as base MVA , determine:
Generator (G): 60MVA, 11KV, 0.1pu
Transformer (T): 50MVA, 11kV/132kV, 0.1pu
Transmission Line (L): 132kV, j202
(a) the per-unit impedance of the Generator (G);
(b) the per-unit impedance of the Transformer (T);
(c) the per-unit impedance of the Line (L);
(d) the per-unit equivalent impedance of the system;
(e) the voltage at the 11 kV busbar in per-unit; and
(f) the voltage at the 11 kV busbar in the unit Voltage (V).
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