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EET424: POWER ELECTRONICS FOR ENERGY SYSTEM
KOLEJ UNIVERISITI KEJURUTERAAN UTARA MALAYSIA
SCHOOL OF ELECTRICAL SYSTEM ENGINEERING
EET 424/3
POWER ELECTRONICS FOR ENERGY SYSTEM
COURSE OUTLINE
1.0 SYNOPSIS:
This course gives a detail exposure to the students about power electronics for energy
system where it emphasize on four major parts; power quality, power electronics
inverter, uninterruptible power supplies (UPS) and sustainable energy. In part 1, it
covers terminology, problems and solutions related to power quality. Part 2 concentrate
on power electronic inverter and waveform shaping techniques used in a typical energy
system. Subsequently, in part 3, an introduction of uninterruptile power supplies (UPS)
which are on topologies, performance and applications added with MOSFET and IGBT
power electronics controller. Part 4 focus on sustainable energy system especially solar
energy system and energy storage methodologies with current practice in Malaysia.
Energy audit for case study in Malaysia also being discussed later in the end of the
course.
2.0 COURSE OUTCOME(based on OBE):
1.
2.
3.
4.
5.
Understanding of power quality terminology, problems and alternative solutions.
Knowledge on single phase and three phase voltage source inverter.
Understanding of UPS topologies, energy storage and its applications.
Awareness of the need of sustainable energy
Knowledge on energy management for electrical energy system.
3.0 PRACTICAL
List of experiments:
Experiment 1: Power source and voltage supply disturbances
Experiment 2: Power line harmonic
Experiment 3: PWM inverter wave shaping
Experiment 4: Introduction to PSIM software
Experiment 5: Computer analysis of PWM inverter
Experiment 6: Single phase voltage source inverter (VSI)
Experiment 7: Three phase voltage source inverter (VSI)
Experiment 8: Solar energy system
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EET424: POWER ELECTRONICS FOR ENERGY SYSTEM
4.0 COURSE IMPLEMENTATIONS
i) Lecture
 2 hours per week for 14 weeks (Total = 28 hours)
ii) Tutorial
2 hours per week for 3 weeks (Total = 6 hours)
iii) Laboratory/Mini project/Assignment
 2 hours per week for 8 weeks (Total = 16 hours)
5.0 ASSESSMENT
Laboratory/Mini
Project/Assignment
Test
Final Exam
Total
40%
10%
50%
100%
6.0 LECTURE AND LAB TIME
LECTURE :
MONDAY (4-6 PM)
BILIK KULIAH 2 TMN MUHIBBAH (BKM2)
LAB:
WEDNESDAY (5-7 PM)
THURSDAY (8-10 AM)
MEY5
MEY5
CONSULTATION TIME:
WEDNESDAY (2.00 PM – 5.00 PM)
1ST FLOOR (DEAN’S OFFICE)
TEL NO: 04-9798779
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EET424: POWER ELECTRONICS FOR ENERGY SYSTEM
7.0 TEACHING PLAN
Weeks
Session
1
10/7 – 14/7
Lecture
Contents
References/Remarks
SY. ASHIKIN
[1], [2]
Topic 1: Power Quality
 Overview of power quality
 Terminology of power quality
 Growing Importance
 IEEE and IEC standards
 Quality versus reliability
(2 Hours)
SY. ASHIKIN
2
17/7 – 21/7
(CONVO
WEEK)
Lecture
3
24/7 – 28/7
Lab
4
31/7 – 4/8
Lecture
Topic 2: Power Quality (cont.)
 Classes of power quality problems
 Power quality effects
 Sources of power quality problems
 Remedies to power quality problems
 Power quality measurement
[1], [2], [3]
(4 Hours)
Experiment 1: Power Supply and Voltage Source
Disturbances
(2 Hours)
INDRA
Topic 3: Inverters
 Overview of inverter
 Types of inverter circuits
 Inverter applications
 Single phase voltage source inverter
 Output voltage control of single phase inverter
[1],[6], [9]
(2 Hours)
Lab
Experiment 2 : Power Line Harmonic
(2 Hours)
(2 hours)
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EET424: POWER ELECTRONICS FOR ENERGY SYSTEM
INDRA
5
7/8 – 11/8
Lecture
Topic 3 (cont.): Inverters
 Three phase voltage source inverter
 Output voltage control of three-phase inverter
 Current source inverter
6
14/8 – 18/8
[1], [6], [9]
(4 Hours)
Lab
Experiment 3: PWM Inverter Wave Shaping
Experiment 4: Introduction to PSIM software
(4 Hours)
Weeks
Session
7
21/8 – 25/8
(ISRAK &
MIKRAJ)
Lecture
Contents
References/Remarks
INDRA
Topic 4: Uninterruptible Power Supply (UPS)
 Contemporary topologies of UPS
[1], [4]
(2 Hours)
Lab
Experiment 5: Computer Analysis of PWM Inverter
(2 Hours)
Lecture
8
28/8 – 1/9
INDRA
Topic 4 (cont.): Uninterruptible Power Supply (UPS)
 Comparative analysis of UPS topology
 Application
[4], [1]
(2 Hours)
Lab
Tutorial 1
(2 Hours)
9
4/9 – 10/9
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Mid-term break
4
EET424: POWER ELECTRONICS FOR ENERGY SYSTEM
10
11/9 – 15/9
Lecture
INDRA
Topic 5: Power Electronics Controller for UPS System
 MOSFET and IGBT Power Controller in UPS
 Digital power control for UPS
(2 Hours)
Lab
Experiment 6: Single Phase Voltage Source Inverter (VSI)
(2 Hours)
Assignment Assignment 1
Test
Weeks
Session
11
18/9 – 22/9
Lecture
12
25/9 – 29/9
Lab
Test 1
Contents
References/Remarks
Topic 6: Energy Storage Methodologies
 Overview of storage batteries, inertial storage, fuel cell,
hydrogen gas and pumped storage.
 Current practice of energy storage in Malaysia
Battery
 Concept of battery
 Types of battery
 Battery application
 Environmental consideration
Fuel cell
 Basic concept of fuel cell
 Types of fuel cells
 Fuel cell application
 Economy and environmental issue related to fuel cell
(4 Hours)
Experiment 7: Three Phase Voltage Source Inverter (VSI)
Experiment 8: Solar Energy System
SY. ASHIKIN
[7], [8]
(4 Hours)
SY. ASHIKIN
13
2/10 – 6/10
14
9/10 –
13/10
Lecture
Lab
Topic 7: Sustainable Energy
 Overview of solar energy, biomass, biofuels and biogas,
hydropower and geothermal energy
 Solar applications – Current practice in Malaysia
(4 Hours)
Tutorial 2
(2 Hours)
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[7], [8]
EET424: POWER ELECTRONICS FOR ENERGY SYSTEM
SY. ASHIKIN
15
16/10 –
20/10
Lecture
Topic 8: Energy Management
 Overview of energy management with relevant case
study in Malaysia
(2 Hours)
16
23/10 –
5/11
Revision week
17-19
6/11 –
26/11
FINAL EXAM
8.0 REFERENCES
[1] Mohan, Undeland and Robin, “Power Electronics: Converter, Applications and
Design”, Second Edition, John Wiley and Sons Inc., 2003.
[2] Roger C. Dugan, Mark F. Mcgranaghan and Surya Santoso,” Electrical Power
System Quality”, McGraw-Hill, 2003.
[3] Barry W. Kennedy ,”Power Quality Primer”, McGraw-Hill, 2000.
[4] Alexander King and William Knight, “Uninterruptible Power Supplies and Standby
Power Systems”, McGraw-Hill, 2003.
[5] J. Michael Jacob, “Power Electronics: Principles & Applications”, Delmar Thomson
Learning, 2002.
[6] D. Grahame Holmes and Thomas A. Lipo, “Pulse Width Modulation for Power
Converters”, IEEE Press, John Wiley & Sons, 2002.
[7] G N Tiwari and M K Ghosal,” Renewable Energy Resources”, Alpha Science, 2005.
[8] Jefferson W. Teter, Elisabeth M. Drake,” Sustainable Energy: Choosing Among
Options”, MIT Press, 2005.
[9] M. H. Rashid, “Power electronics: circuit, devices and applications”, Prentice Hall,
2004.
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