Teaching Responsibility
LJMU Schools involved in Delivery:
LJMU Partner Taught
Learning Methods
Lecture
Off Site
Tutorial
Module Offerings
5508ICBTEL-APR-PAR
5508ICBTEL-JAN-PAR
5508ICBTEL-SEP-PAR
Aims
This module introduces the student to fundamentals of an Electrical power system. Moreover, the student is introduced to three phase symmetrical/unsymmetrical faults, and analysing/solving power quality and harmonic problems.
Learning Outcomes
1.
Summaries basic power generation along with per unit values in an electrical power system and describe the single line representation of the power system.
2.
Analyse a three phase power systems and transmission line parameters.
3.
Solve power flow calculations
4.
Analyse three phase symmetrical/unsymmetrical fault and apply power quality and harmonic problems
Module Content
Outline Syllabus:Introduction and Basic concepts
Power System Representation/ Power Generation
Single Line Diagram
Per Unit System for single phase circuits
Per Unit System for three phase circuits
Transmission Lines
Transmission Line Representation
AC vs. DC transmission
Standard Transmission Voltages
Series Impedance Calculation : Resistance, Inductances and Capacitances
Short, Medium and Long line models; A,B,C,D constants
Efficiency and Voltage regulations
Series and Shunt Compensations
Power Flow
Power Flow Calculations
Review of Real, Reactive and Apparent Power
Gauss-Seidel Load Flow Method
Newton-Raphson Load Flow Method
Decoupled Load Flow Method
Contingency calculations
DC Load Flow
Three Phase Systems
Three Phase Fault Calculations
Symmetrical fault
Symmetrical components
Positive, Negative and Zero sequence equivalent circuits
Unsymmetrical Faults : L-G, L-L-G, L-L faults
Circuit Breaker ratings.