Learning Outcomes |
PO |
MME |
The students who succeeded in this course: |
|
|
LO-1 |
Can explain the structure and classification of power systems. |
PO-22 Performs the analysis of power systems using energy parameters in power systems.
|
Examination |
LO-2 |
Can defines the unit value account and can resize the power system components. |
PO-22 Performs the analysis of power systems using energy parameters in power systems.
|
Examination |
LO-3 |
Can use the symmetrical components method. |
PO-22 Performs the analysis of power systems using energy parameters in power systems.
|
Examination |
LO-4 |
Can calculate Fault current and short-circuit power of the power system. |
PO-22 Performs the analysis of power systems using energy parameters in power systems.
|
Examination |
LO-5 |
Can drawing positive-negative and zero sequence analysis of circuits |
PO-22 Performs the analysis of power systems using energy parameters in power systems.
|
Examination |
PO: Programme Outcomes MME:Method of measurement & Evaluation |
Course Contents |
Overview of power systems and basic concepts, symmetrical components, power transformers, steady-state transmission line models and power flow |
Weekly Course Content |
Week |
Subject |
Learning Activities and Teaching Methods |
1 |
Phasor, power and compensation in single phase systems |
Lecture and problem solving |
2 |
Balanced three-phase systems and power calculation. |
Lecture and problem solving |
3 |
Symmetrical component method for load and three phase transmission lines |
Lecture and problem solving |
4 |
Symmetrical component method for rotating machines |
Lecture and problem solving |
5 |
Unit sequence models of three-phase transformers and power calculation in sequential circuits |
Lecture and problem solving |
6 |
Transformers and equivalent circuits |
Lecture and problem solving |
7 |
Unit system and unit equivalent circuits of transformers |
Lecture and problem solving |
8 |
mid-term exam |
|
9 |
Short and medium line simulations |
Lecture and problem solving |
10 |
Transmission lines differential equations and equivalent pi circuit |
Lecture and problem solving |
11 |
Lossless transmission lines and maximum power flow |
Lecture and problem solving |
12 |
Gaussian elimination, Jacobi and gauss-seidel methods |
Lecture and problem solving |
13 |
Newton-Raphson Method and power flow problem |
Lecture and problem solving |
14 |
Power flow solution using Gauss seidel method |
Lecture and problem solving |
15 |
Power flow solution by Newton-Raphson method |
Lecture and problem solving |
16 |
final exam |
|
Recommend Course Book / Supplementary Book/Reading |
1 |
Arifoğlu, U.(2002).Güç Sistemlerinin Bilgisayar Destekli Analizi.İstanbul: Alfa Basım Yayım Dağıtım. |
Required Course instruments and materials |
Computer, Projection, lesson notes |