Module (01) Introduction to Power System Engineering

 

• 1.1            Overview of Generation; Transmission & Distribution of Electrical Power

• 1.2            Layout of Transmission & Distribution System

• 1.3            Choice of System Voltage & Frequency; Comparison between AC and DC Power Systems

• 1.4            System units and parameter

Module (02) Balanced 3-Phase Voltages

• 2.1            Basic Three-Phase Circuit Connections

• 2.2            Basic Three-Phase Relationships

• 2.3            Active power, reactive power, and apparent power in a 3-phase system

• 2.4            Advantages of three-phase systems

• 2.5            Unbalanced Three-Phase Systems 

Module (03) Inductance of Overhead Transmission Lines

• 3.1            Transmission Line Conductors

• 3.2            Inductance of a conductor due to internal and external flux linkages

• 3.3            Inductance of single phase transmission line

• 3.4            Flux linkages of a conductor in a group of conductors

• 3.5            Inductance of composite conductor

• 3.6            Three phase conductor with equilateral and spacing with the concept of transposition

• 3.7            Inductance of double circuit transmission line

• 3.8            Inductance of bundled conductor transmission line

Module (04) Capacitance of Overhead Transmission Lines

• 4.1            Capacitance of single phase transmission line

• 4.2            Capacitance of composite conductor;

• 4.3            Capacitance of double circuit transmission line

• 4.4            Capacitance of bundled conductor transmission line

• 4.5            Capacitance of single & three phase transmission line taking into account the effect of ground

Module (05) Transmission Line Analysis

• 5.1           Parameters of Transmission Line

• 5.2           Classification of Transmission Lines

• 5.3           Modeling and analysis of short, medium and long transmission lines

•  5.5           Generalized circuit constants

•  5.6           Concept of SIL and propagation constant

Module (06) Traveling Waves on Transmission Lines

•      6.1           Transient analysis of a transmission line

•    6.2           Reflection & refraction at the junction of two lines

•    6.3           Reflection at the short and open circuit end of line

•    6.4           Bewley lattice diagram.

Module (07) T.L Accessories and Function & Protection Philosophy

•  7.1           Protection philosophy used to protect the power

• station system.

•  7.2           Types of insulators and string efficiency.

• 7.3           Types of accessories and function.

• 7.4           Overhead TL, Underground TL.

• 7.5           Transmission line types.

• 7.6           Smith chart & solving microwave problems using chart

Module (08) Overhead T.L Maintenance

• 8.1           Power plant maintenance (preventive maintenance)

• 8.2           Power factor, How to improve the power factor

• 8.3           Why we are using high voltage in transmission line in- stead of high Current

• 8.4           Mechanism of heat flow in cable

• 8.5           DC and AC distribution

• Lockout&Tagoutprocedureduringthemaintenance

Module (09) Overhead T.L Maintenance Washing Proce- dures

• 9.1           Solving of TL problems, Earthing system

• 9.2           Live line insulator washing procedures for MV and HV power line

• 9.3           SCADA system to monitor

• 9.4           Distribution plant, Voltage drop

• 9.5           Reducing the power consumption

• 9.6           Daily and weekly check should be done in our systems

• 9.7           Difference between turbines and generators

• 9.8           What is the newest tech. in power transmission system?