dCourse Title
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English Code /No
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ARABIC code/no.
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contact hours /week
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c.U.
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Th.
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Pr.
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Tr.
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TCU
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Fundamental of Power Systems
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EEN 330
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هن ك 330
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3
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-
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1
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3
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Pre-requisites
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EEN 340 - EEN 341
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Electrical Characteristics and steady state performance of overhead transmission lines. Equivalent Circuit and Power Circle Diagrams. Per-unit Systems and Transformers. Transmission line parameters. Power systems flow.
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Instructor:
Dr. Hussain Bassi, Assistant Professor
http://hmbassi.kau.edu.sa/
Office Room and Hours: 5-103, Monday and Wednesday 9:30-11:30 am
Text book:
J. Duncan Glover, Mulukutla S. Sarma, Thomas Overbye, “Power System Analysis and Design”, Cengage Learning, 5th edition, 2011 – ISBN-10: 1111425779 | ISBN-13: 978-1111425777.
Supplementary references:
- Hadi Saadat, "Power System Analysis", McGraw-Hill, 2nd ed, 2011
- William D. Stevenson., "Electrical of Power System Analysis", 4th edition, Mc Graw-Hill, 1982
Class Room and Time:
Room 5-102, Monday and Wednesday 1 pm - 2:20 pm
Objectives:
On successful completion of this course, student will be able to:
- Apply concepts from basic electromagnetics to determine the inductance, capacitance, and resistance of single and three phase transmission lines.
- Derive the relationships between the voltage and current on a transmission line, and be able to solve for the voltage or current at any point along the line.
- Derive the model for short, medium and long transmission line.
- Understand the rationale behind per unit analysis, and be able to use per unit analysis to solve single and three phase circuits.
- Understand the single line diagram and be able to derive the impedance and reactance diagrams.
Contents:
- Electrical Characteristics and steady state performance of overhead transmission lines.
- Equivalent Circuit and Power Circle Diagrams.
- Transformers and Per-unit Systems
- Transmission lines resistance, capacitance and inductance.
- Power systems flow.
Course Outcomes:
A- Knowledge:
On successful completion of this course, student will be able to:
- Define the steady state performance of overhead transmission lines
- Model the equivalent circuit and power circle diagrams
- Define and solve the per unit systems
- Define and understand different types of transformers
- Define the transmission lines parameters.
- Define an introduction to switchgear and protection.
B-Cognitive Skills:
On successful completion of this course, student will be able to:
- Assess system steady state conditions based on load flow analysis
- Assess transmission line loadability and maximum power flow.
- Suggest alternative solutions to transmission lines and enhance the equivalent circuit and power circle diagrams in the system
- Assess the operation of transformers with off-nominal turns ration.
C- Interpersonal skills and responsibilities:
On successful completion of this course, student will be able to:
- Identify data and structure of realistic power systems
- Deal with professional computer programs for power system analysis
- Analyze power flow output data and the optimum solution for the contingency analyses.
D- Analysis and communication:
On successful completion of this course, student will be able to:
- Present power system analysis input/output data
- Write technical reports and conduct presentation about power system problems in normal operating conditions.
- Practice working in a team to develop simplified power system analysis computer program modules.
Assessment methods for the above elements
- Written exams (mid-term & final) to assess understanding and scientific knowledge.
- Assignments and Quiz to assess ability to solve problems and analyze results independently.
- Report to assess practical, and presentation skills.
Weighting of assessments
Quizzes 20 %
Assignments 10 %
Course Project or Reports 15 %
Mid-term exam 15 %
Final exam 40 %
Total 100 %
Class Schedule:
Time table for distributing theoretical course contents
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weak
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Theoretical course contents
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Remarks
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1-2
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Fundamentals
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3-4
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Power Transformers
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5-6
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Transmission line Parameters
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7
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Midterm Exam and Review
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8-9
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Transmission lines steady-state Operation
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10-11
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Power Flows
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12
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Design Project
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13
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Final Exam Review
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