A radial transmission line system can be represented by a generating source connected to a three-phase transformer – (11kV/132kV, 50MVA, 10 % reactance) to which an overhead transmission line (j100 Ω) is connected. Connected to the other end of the transmission line is another three-phase transformer (132kV/33kV,50MVA, 12% reactance). This three-phase transformer located at a 33kV substation supplies a load of 30MW at a power factor of 0.8 lagging. The voltage level of the substation is to be maintained at 30kV. Use a base of 100MVA and 33kV . Use the above information to answer Q12 – Q16 12. Calculate the per unit value of reactance of the sending end transformer. a) 0.20 b) 0.25 c) 0.30 d) 0.343 e) none 13. Calculate the per unit value of reactance of the receiving end transformer. a) 0.32 b) 0.24 c) 0.41 d) 0.51 e) none 14. Calculate the per unit value of the reactance of the transmission line . a) 0.864 b) 0.575 c) 0.768 d) 0.683 e) none 15. Calculate the per unit value of the load current . a) 0.451 b) 0.685 c) 0.418 d) 0.214 e) none 16 Calculate the per unit value of the receiving end voltage . a) 0.851 b) 0.910 c) 0.718 d) 0.814 e) none Please show working for question 12 to 16
A radial transmission line system can be represented by a generating source connected to a three-phase transformer – (11kV/132kV, 50MVA, 10 % reactance) to which an overhead transmission line (j100 Ω) is connected. Connected to the other end of the transmission line is another three-phase transformer (132kV/33kV,50MVA, 12% reactance). This three-phase transformer located at a 33kV substation supplies a load of 30MW at a power factor of 0.8 lagging. The voltage level of the substation is to be maintained at 30kV. Use a base of 100MVA and 33kV . Use the above information to answer Q12 – Q16 12. Calculate the per unit value of reactance of the sending end transformer. a) 0.20 b) 0.25 c) 0.30 d) 0.343 e) none 13. Calculate the per unit value of reactance of the receiving end transformer. a) 0.32 b) 0.24 c) 0.41 d) 0.51 e) none 14. Calculate the per unit value of the reactance of the transmission line . a) 0.864 b) 0.575 c) 0.768 d) 0.683 e) none 15. Calculate the per unit value of the load current . a) 0.451 b) 0.685 c) 0.418 d) 0.214 e) none 16 Calculate the per unit value of the receiving end voltage . a) 0.851 b) 0.910 c) 0.718 d) 0.814 e) none Please show working for question 12 to 16
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
Chapter3: Power Transformers
Section: Chapter Questions
Problem 3.54P: An infinite bus, which is a constant voltage source, is connected to the primary of the...
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A radial transmission line system can be represented by a generating source connected to a three-phase transformer – (11kV/132kV, 50MVA, 10 % reactance) to which an overhead transmission line (j100 Ω) is connected. Connected to the other end of the transmission line is another three-phase transformer (132kV/33kV,50MVA, 12% reactance). This three-phase transformer located at a 33kV substation supplies a load of 30MW at a power factor of 0.8 lagging. The voltage level of the substation is to be maintained at 30kV. Use a base of 100MVA and 33kV .
Use the above information to answer Q12 – Q16
12. Calculate the per unit value of reactance of the sending end transformer.
a) 0.20 b) 0.25 c) 0.30 d) 0.343 e) none
13. Calculate the per unit value of reactance of the receiving end transformer.
a) 0.32 b) 0.24 c) 0.41 d) 0.51 e) none
14. Calculate the per unit value of the reactance of the transmission line .
a) 0.864 b) 0.575 c) 0.768 d) 0.683 e) none
15. Calculate the per unit value of the load current .
a) 0.451 b) 0.685 c) 0.418 d) 0.214 e) none
16 Calculate the per unit value of the receiving end voltage .
a) 0.851 b) 0.910 c) 0.718 d) 0.814 e) none
Please show working for question 12 to 16
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