منهج مادة نظم القوى 1

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, 2^nd ed, 2011
• William D. Stevenson., "Electrical of Power System Analysis", 4^th 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:

1. Apply concepts from basic electromagnetics to determine the inductance, capacitance, and resistance of single and three phase transmission lines.
2. 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.
3. Derive the model for short, medium and long transmission line.
4. Understand the rationale behind per unit analysis, and be able to use per unit analysis to solve single and three phase circuits.
5. Understand the single line diagram and be able to derive the impedance and reactance diagrams.

Contents:

1. Electrical Characteristics and steady state performance of overhead transmission lines.
2. Equivalent Circuit and Power Circle Diagrams.
3. Transformers and Per-unit Systems
4. Transmission lines resistance, capacitance and inductance.
5. Power systems flow.

Course Outcomes:

A- Knowledge:

On successful completion of this course, student will be able to:

1. Define the steady state performance of overhead transmission lines
2. Model the equivalent circuit and power circle diagrams
3. Define and solve the per unit systems
4. Define and understand different types of transformers
5. Define the transmission lines parameters.
6. Define an introduction to switchgear and protection.

B-Cognitive Skills:

On successful completion of this course, student will be able to:

1. Assess system steady state conditions based on load flow analysis
2. Assess transmission line loadability and maximum power flow.
3. Suggest alternative solutions to transmission lines and enhance the equivalent circuit and power circle diagrams in the system
4. 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:

1. Identify data and structure of realistic power systems
2. Deal with professional computer programs for power system analysis
3. 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:

1. Present power system analysis input/output data
2. Write technical reports and conduct presentation about power system problems in normal operating conditions.
3. Practice working in a team to develop simplified power system analysis computer program modules.

Assessment methods for the above elements

1. Written exams (mid-term & final) to assess understanding and scientific knowledge.
2. Assignments and Quiz to assess ability to solve problems and analyze results independently.
3. 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:

• Lectures: two 75 minutes sessions per week
• Tutorials: one hour session per week

  Course Contribution to professional Component:

• Engineering Science:100 %
• Engineering Design: 0 %