Akademik Dersler - İçerik

Students will be able to define power systems and the basic concepts related to them.
Be able to express network equations mathematically
In resistor, inductor and capacitor, explain the phase relationship between AC current and voltage with phasor notation
To be able to perform basic calculations on balanced three-phase circuits
Students will be able to interpret symmetrical components related to three-phase systems and make mathematical calculations about them.
Will be able to compare balanced and unbalanced systems and distinguish the differences between them
Be able to describe sequential component circuits
Calculate the transmitted power in three-phase systems
Students will be able to explain the basic principles and working principles of power transformers.
will be able to calculate various parameters using the unit system
To be able to make calculations about transformers in power systems
will be able to determine the parameters of the transformer by applying various tests
Students will be able to describe the most basic equipment used in power systems.
be able to classify electrical networks
will be able to compare the equipment of power lines according to different purposes
Will be able to transfer the internal structures, working principles and usage areas of the equipment
Students will be able to describe various steady-state transmission line models and calculate their related parameters mathematically.
will be able to interpret various concepts and definitions of transmission lines
will be able to distinguish the differences between line models of various lengths
will be able to define the voltage profiles of the lines in load dependent situations
Students will be able to solve power flow problems using various linear algebra methods.
Will be able to use Jacobi and Gauss-Seidel iterative solution methods in power flow and compare them among themselves.
will be able to identify and solve power flow problems
be able to interpret power flow control