Energy Systems, 6 ECTS

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TMES12, Energy Systems, 6 ECTS
For: ENV
Prel. scheduled hours:38 Rec. Self-study hours:122
Area of Education: Technology
Subject: Mechanical Engineering
Advancement level: D
Aim:
The aim of this course is to present an international system perspective on combined energy
systems of energy suppliers and energy users. The course describes sustainable energy
systems, the energy systems effects on the environment and climate changes.
The most important intellectual development a student will undertake is:
 Present energy systems interrelations and system theory
 Describe energy resources, sustainability and climate changes
 Describe the design of a heat and power generation plant and distribution of district
heating
 Describe the development and design of national and regional as well as municipal
energy systems
 Demonstrate the energy balance of energy use and energy supply
Prerequisites:
Basic courses in thermodynamics.
Supplementary courses:
Building energy systems, Energy systems analysis, Industrial ecology, Industrial energy
systems, Integrated management systems, Impact assessment and project appraisal,
International energy markets, Resource efficient products.
Organisation:
The course is given in the form of lectures and seminars. The course also contains two project
works and a visit at a combined heat and power plant.
Course contents:
The course consists of an opening section, three subject fields, and a closing section. The
three subject fields are Energy Supply (I), Sustainability (II), and Energy Use (III).
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The course starts by an opening section where the aim, contents, literature and project work of
the course are presented. In the opening section an introduction to energy system is presented
and a demonstration of system theory by explaining system definition, system boundaries,
case study research and energy systems and the environment
Subject field I present production and distribution of steam, hot water, chilled water, and
power. The system of combined heat and power plants, steam power plants, gas turbine plant,
and vapor compression/absorption cycles are described. The design criteria for district heating
and district cooling are illustrated.
Subject field II demonstrates the world’s potential, and techniques, of supplying sufficient
amounts of renewable energy for sustainable energy systems. Renewable energy sources,
climate changes and resource and sustainability are illustrated.
Subject field III represents energy use. Sweden’s energy balance and the energy balance of
the worlds, industrial energy use, and energy use in building are demonstrated.
The combined sustainable energy systems of energy supply and energy use are demonstrated
in subject field IV. The totality of the different subject fields is presented in municipal,
regional and national energy systems.
On basis of all course items the course ends by explaining the future energy system by
demonstrating how to design sustainable energy systems of energy suppliers and energy
users.
The figure below illustrates the main contents in the course and how the different subject
fields are connected.
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Introduction
• Course opening, System theory
• Introduction to energy systems
•Energy systems and the environment
Subject field I – Energy Supply
Subject field II - Sustainability
Subject field III – Energy Use
• Heat and power production
• Renewable energy
• Energy balance
• District heating
• Resource and sustainability
• Industrial energy use
• Climate changes
• Building energy systems
• Exergy
Subject field IV - The combined energy system
• Municipal, regional and national
energy systems
Conclusion
• Future energy system
Course literature:
Some of the course literature will be available on It´s learning (www.itslearning.com).
Additional course literature is the following:




K Blok, 2007, Introduction to Energy Analysis, Techne Press,
ISBN-13:978-8594-016-6
K. C. Weston, 2000, Energy Conversion, Ebook version,
http://www.personal.utulsa.edu/~kenneth-weston/.
M. M. El-Wakil, 2002, Powerplant Technology, McGraw-Hill, ISBN 0072871024
Handouts from lectures.
Examination:
The student will be examined by:
 A written examination, 4 ECTS, with the grades failed, 3, 4, and 5
 Two project works, a total of 2 ECTS, with the grades failed and passed
Course language: English
Director of studies: studierektor@iei.liu.se
Examiner: Bahram Moshfegh
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TMES12, Energy Systems, 6 ECTS
ht08
27/8
10-12
Course opening / System theory
28/8
10-12
Introduction to energy systems
1/9
13-15
Environmental aspects on energy systems
2/9
8-10
Steam power plants
5/9
15-17
Combined heat and power plant (CHP)
8/9
13-15
District heating
9/9
8-10
District heating /Renewable energy
10/9
10-12
Renewable energy
11/9
10-12
Gas turbine plant and CHP
16/9
8-10
Vapor compression and absorption cycles
18/9
10-12
Resource and sustainability
19/9
15-17
Climate changes
23/9
13-17
Study visit to a CHP plant
24/9
10-12
Exergy
25/9
10-12
Energy use and energy supply
26/9
15-17
Industrial energy use
2/10
10-12
Building energy systems
7/10
8-10
8/10
8-12
Municipal, regional and national energy
systems
Future energy systems
Louise
Trygg
Björn
Karlsson
Olof Hjelm
IKP2
Bahram
Moshfegh
Bahram
Moshfegh
Heimo
Zinko
Heimo
Zinko
Heimo
Zinko
Bahram
Moshfegh
Bahram
Moshfegh
Louise
Trygg
Heimo
Zinko
IKP2
Heimo
Zinko
Shahnaz
Amiri
Magnus
Karlsson
Bahram
Moshfegh
Louise
Trygg
Björn
Karlsson
IKP2
IKP2
IKP2
IKP2
IKP2
IKP2
IKP2
IKP2
IKP2
IKP2
IKP2
IKP2
IKP2
IKP2
IKP2
IKP2
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