Course
| code | EE746 |
| credit_hours | 3 |
| title | Computer Control of Power Systems |
| arbic title | |
| prequisites | None |
| credit hours | 3 |
| Description/Outcomes | State transition diagram. Security oriented s. Data acquisition (SCADA systems). State estimation. Load frequency control. Excitation and voltage control. Active and reactive power control. Contingency evaluation. Real time control and protection. |
| arabic Description/Outcomes | |
| objectives | The student should be able to: Understand data acquisition, transmission and processing (SCADA systems). Understand frequency and voltage power control and protection. Understand active and reactive power control and protection. |
| arabic objectives | |
| ref. books | P. M. Anderson and A. A. Fouad, “Power System Control and Stabilityâ€, IEEE Computer Society Publisher, 1994. T. J. Miller, “Reactive Power Control in Electric Systemsâ€, J. Willey, N. Y. 1982. |
| arabic ref. books | |
| textbook | |
| arabic textbook | |
| objective set | |
| content set | |
Course Content
| content serial |
Description |
| 1 |
Control problems in electrical power system.
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| 2 |
Control system Hierarchy of power system.
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| 3 |
Computer Control System Fundamentals.
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| 4 |
Digital Model of power system loops (1).
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| 5 |
Digital Model of power system loops (2).
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| 6 |
Digital model and analysis of load frequency control loop.
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| 7 |
Digital model and analysis of excitation control system and voltage control.
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| 8 |
Digital control of active power and power factor (1).
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| 9 |
Digital control of active power and power factor (2).
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| 10 |
Digital control of distribution system.
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| 11 |
SCADA system application in power system (1).
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| 12 |
SCADA system application in power system (2).
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| 13 |
Distributed generation (DG) Control (1).
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| 14 |
Distributed generation (DG) Control (2).
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| 15 |
Advanced topics in Digital Control and Protection Systems.
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| 16 |
Final Exam.
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