The module is Energy systems 3 phase. The voltage of power station A is advanced with an angle of 10.5 degrees withrespect to the voltage of power station B. The loading of power station B has a realpower of 200 MW. The respective loads of the two power stations are as follows:Power station A: 165 MVA at a power factor of 0.819 lagging.Power station B: The reactive power consumed by the load is 155 Mvar.Determine the following:12. The interconnector current (kA).13. The reactive power received by power station A (MXar).14. The active power received by power station B (MW).15. The active power loss within the interconnector (MW).16. The reactive power loss within the interconnector (MVar).17. The final loading of power station A (MVA).18. The final loading of power station B (MVA).19. The reactive power received by power station A if the reactive power loadingfrom power station A is to be reduced by 30% (MVar).20. The required advancement angle at power station A to achieve the 30%reduction in reactive power loading of power station A (degrees). Question 2: Transmission System2.1 Two power stations, A and B, are synchronized at 66 KV. They are inter-connectedby a transmission line with an inductive reactance of 1.8 Q and resistance of 1.12 perphase. The voltage of power station A is advanced with an angle of 10.5 degrees withrespect to the voltage of power station B. The loading of power station B has a realpower of 200 MW. The respective loads of the two power stations are as follows:Power station A: 165 MVA at a power factor of 0.819 lagging.Power station B: The reactive power consumed by the load is 155 Mvar.Determine the following:12. The interconnector current (kA).13. The reactive power received by power station A (MVar).14. The active power received by power station B (MW).15. The active power loss within the interconnector (MW).16. The reactive power loss within the interconnector (MVa).17. The final loading of power station A (MVA).18. The final loading of power station B (MVA).19. The reactive power received by power station A if the reactive power loadingfrom power station A is to be reduced bv 30% (MVar).

Answered: Image /qna-images/answer/44e4dc4c-7753-4bb2-951d-4d7bcac227e4.jpg

phase. The voltage of power station A is advanced with an angle of 10.5 degrees with respect to the voltage of power station B. The loading of power station B has a real power of 200 MW. The respective loads of the two power stations are as follows: Power station A: 165 MVA at a power factor of 0.819 lagging. Power station B: The reactive power consumed by the load is 155 Mvar. Determine the following: 12. The interconnector current (kA). 13. The reactive power received by power station A (MVar). 14. The active power received by power station B (MW). 15. The active power loss within the interconnector (MW). 16. The reactive power loss within the interconnector (MVan. 17. The final loading of power station A (MVA). 18. The final loading of power station B (MVA). 19. The reactive power received by power station A if the reactive power loading from power station A is to be reduced by 30% (MVar). 20. The required advancement angle at power station A to achieve the 30% reduction in reactive power loading of power station A (degrees).

phase. The voltage of power station A is advanced with an angle of 10.5 degrees with respect to the voltage of power station B. The loading of power station B has a real power of 200 MW. The respective loads of the two power stations are as follows: Power station A: 165 MVA at a power factor of 0.819 lagging. Power station B: The reactive power consumed by the load is 155 Mvar. Determine the following: 12. The interconnector current (kA). 13. The reactive power received by power station A (MVar). 14. The active power received by power station B (MW). 15. The active power loss within the interconnector (MW). 16. The reactive power loss within the interconnector (MVan. 17. The final loading of power station A (MVA). 18. The final loading of power station B (MVA). 19. The reactive power received by power station A if the reactive power loading from power station A is to be reduced by 30% (MVar). 20. The required advancement angle at power station A to achieve the 30% reduction in reactive power loading of power station A (degrees).

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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Concept explainers

Methods of Wiring

Electrical wiring is the way of integrating cables and wires to interconnected equipment such as fuses, switches, sockets, lights, fans, and so on to the main distribution board, which is a specific structure attached to the utility pole that ensures a constant power supply.

Question

The module is Energy systems 3

phase. The voltage of power station A is advanced with an angle of 10.5 degrees with
respect to the voltage of power station B. The loading of power station B has a real
power of 200 MW. The respective loads of the two power stations are as follows:
Power station A: 165 MVA at a power factor of 0.819 lagging.
Power station B: The reactive power consumed by the load is 155 Mvar.
Determine the following:
12. The interconnector current (kA).
13. The reactive power received by power station A (MXar).
14. The active power received by power station B (MW).
15. The active power loss within the interconnector (MW).
16. The reactive power loss within the interconnector (MVar).
17. The final loading of power station A (MVA).
18. The final loading of power station B (MVA).
19. The reactive power received by power station A if the reactive power loading
from power station A is to be reduced by 30% (MVar).
20. The required advancement angle at power station A to achieve the 30%
reduction in reactive power loading of power station A (degrees).

Question 2: Transmission System
2.1 Two power stations, A and B, are synchronized at 66 KV. They are inter-connected
by a transmission line with an inductive reactance of 1.8 Q and resistance of 1.12 per
phase. The voltage of power station A is advanced with an angle of 10.5 degrees with
respect to the voltage of power station B. The loading of power station B has a real
power of 200 MW. The respective loads of the two power stations are as follows:
Power station A: 165 MVA at a power factor of 0.819 lagging.
Power station B: The reactive power consumed by the load is 155 Mvar.
Determine the following:
12. The interconnector current (kA).
13. The reactive power received by power station A (MVar).
14. The active power received by power station B (MW).
15. The active power loss within the interconnector (MW).
16. The reactive power loss within the interconnector (MVa).
17. The final loading of power station A (MVA).
18. The final loading of power station B (MVA).
19. The reactive power received by power station A if the reactive power loading
from power station A is to be reduced bv 30% (MVar).

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