A single-line diagram of a planned network is shown in Figure B1, and component parameters given in Table B1. Motor M1 takes an electrical input power of 2 MW from a supply voltage of 11 kV. The fault level capacity of motor M1 is 10 MVA. Calculate: (i) (ii) The corresponding reactances using a common base of 5 MVA and draw a per-unit reactance diagram, showing the location of the fault. The fault level and fault current which would flow into a three-phase symmetrical short circuit fault at the 11 kV busbar. Component Generator G1 Generator G2 Transformer T1 Rating or Length 12.9 MW, 0.86 pf 8.5 MW, 0.85 pf Voltage 6.6 kV Reactance XG1 = 0.1 pu 6.6 kV XG2 = 0.16 pu 25 MVA 6.6/66 kV XT1 = 0.08 pu Transformer T2 Transformer T3 25 MVA 12.5 MVA 66/11 kV XT2 = 0.2 pu 11/0.4 kV XT3 = 0.2 pu Motor M1 2 MW, 0.89 pf, eff=83% 11 kV XM1 = 0.25 pu Line L1 12 km 66 kV 0.9 Q/phase/km Table B1
A single-line diagram of a planned network is shown in Figure B1, and component parameters given in Table B1. Motor M1 takes an electrical input power of 2 MW from a supply voltage of 11 kV. The fault level capacity of motor M1 is 10 MVA. Calculate: (i) (ii) The corresponding reactances using a common base of 5 MVA and draw a per-unit reactance diagram, showing the location of the fault. The fault level and fault current which would flow into a three-phase symmetrical short circuit fault at the 11 kV busbar. Component Generator G1 Generator G2 Transformer T1 Rating or Length 12.9 MW, 0.86 pf 8.5 MW, 0.85 pf Voltage 6.6 kV Reactance XG1 = 0.1 pu 6.6 kV XG2 = 0.16 pu 25 MVA 6.6/66 kV XT1 = 0.08 pu Transformer T2 Transformer T3 25 MVA 12.5 MVA 66/11 kV XT2 = 0.2 pu 11/0.4 kV XT3 = 0.2 pu Motor M1 2 MW, 0.89 pf, eff=83% 11 kV XM1 = 0.25 pu Line L1 12 km 66 kV 0.9 Q/phase/km Table B1
Power System Analysis and Design (MindTap Course List)
6th Edition
ISBN:9781305632134
Author:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma
Publisher:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma
Chapter7: Symmetrical Faults
Section: Chapter Questions
Problem 7.2MCQ: Even though the fault current is not symmetrical and not strictly periodic, the rms asymmetrical...
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Question
![A single-line diagram of a planned network is shown in Figure B1, and
component parameters given in Table B1.
Motor M1 takes an electrical input power of 2 MW from a supply voltage
of 11 kV. The fault level capacity of motor M1 is 10 MVA.
Calculate:
(i)
(ii)
The corresponding reactances using a common base of 5
MVA and draw a per-unit reactance diagram, showing the
location of the fault.
The fault level and fault current which would flow into a
three-phase symmetrical short circuit fault at the 11 kV
busbar.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F30ec4eed-bdd5-48d9-8aac-b321c326b42b%2F80feddc5-e4ed-4977-aa5e-a255c86148d4%2F95549sp_processed.png&w=3840&q=75)
Transcribed Image Text:A single-line diagram of a planned network is shown in Figure B1, and
component parameters given in Table B1.
Motor M1 takes an electrical input power of 2 MW from a supply voltage
of 11 kV. The fault level capacity of motor M1 is 10 MVA.
Calculate:
(i)
(ii)
The corresponding reactances using a common base of 5
MVA and draw a per-unit reactance diagram, showing the
location of the fault.
The fault level and fault current which would flow into a
three-phase symmetrical short circuit fault at the 11 kV
busbar.
![Component
Generator G1
Generator G2
Transformer T1
Rating or Length
12.9 MW, 0.86 pf
8.5 MW, 0.85 pf
Voltage
6.6 kV
Reactance
XG1 = 0.1 pu
6.6 kV
XG2 = 0.16 pu
25 MVA
6.6/66 kV
XT1 = 0.08 pu
Transformer T2
Transformer T3
25 MVA
12.5 MVA
66/11 kV
XT2 = 0.2 pu
11/0.4 kV
XT3 = 0.2 pu
Motor M1
2 MW, 0.89 pf, eff=83%
11 kV
XM1 = 0.25 pu
Line L1
12 km
66 kV
0.9 Q/phase/km
Table B1](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F30ec4eed-bdd5-48d9-8aac-b321c326b42b%2F80feddc5-e4ed-4977-aa5e-a255c86148d4%2Foskeigq_processed.png&w=3840&q=75)
Transcribed Image Text:Component
Generator G1
Generator G2
Transformer T1
Rating or Length
12.9 MW, 0.86 pf
8.5 MW, 0.85 pf
Voltage
6.6 kV
Reactance
XG1 = 0.1 pu
6.6 kV
XG2 = 0.16 pu
25 MVA
6.6/66 kV
XT1 = 0.08 pu
Transformer T2
Transformer T3
25 MVA
12.5 MVA
66/11 kV
XT2 = 0.2 pu
11/0.4 kV
XT3 = 0.2 pu
Motor M1
2 MW, 0.89 pf, eff=83%
11 kV
XM1 = 0.25 pu
Line L1
12 km
66 kV
0.9 Q/phase/km
Table B1
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