Description

Concepts and theories of mathematics and sciences, appropriate to the discipline. Methodologies of solving engineering problems, data collection and interpretation. Principles of performing electrical system calculations, including load flow, earthling and equipment sizing. Design and analysis of power system generation, transmission and distribution. Formulate the problem, realizing the requirements and identifying the constraints.

Program

Bachelor Degree in Electrical and Control Engineering

Objectives

To introduce to the students good knowledge on per unit system. To apply different numerical methods for solving the power flow problem. To inform the student of different types of power system control. To introduce the students to the different methods of optimal dispatch of thermal generation.

Textbook

Data will be available soon!

Course Content

content serial	Description
1	Single line diagram of power system.
2	The per unit system.
3	Bus admittance matrix.
4	Bus impedance matrix.
5	Power flow equations.
6	Gauss-Seidel power flow solution.
7	Gauss-Seidel power flow solution.
8	Newton Raphson power flow solution.
9	Newton Raphson power flow solution.
10	Synchronous generator for power control.
11	Tap changing transformers.
12	Non linear optimization.
13	Economic dispatch neglecting losses and no generator limits.
14	Economic dispatch neglecting losses and including generator limits.
15	Economic dispatch including losses.
16	Final Exam.

Markets and Career

Generation, transmission, distribution and utilization of electrical power for public and private sectors to secure both continuous and emergency demands.
Electrical power feeding for civil and military marine and aviation utilities.
Electrical works in construction engineering.

Degree Bachelor
Code: EE342
Credit hrs: 3
Prequisites: EE341

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Power Systems (1)