Courses within the program

Programnamn

Master Programme in Energy Engineering Online 60 cr

Overview of the courses that make up the programme:

Year 1

Semester 1
Energy Resources 7.5 hp
Field Energy Systems

After completion of the course the student shall be able to
1. explain how conversion of energy commodities into electrical energy and heat is made
2. describe renewable energies, their possibilities, and problems
3. present current research and development work related to the course content
4. present the fundamental challenges of sustainable environment with a special focus on the challenges faced by future energy systems
5. present the construction of a district heating network, its theory, technique, and function
6. analyse technical solutions and system integration of sustainable and renewable energy
7. define and formulate a project work autonomously as well as plan and, using appropriate methods, undertake the same within predetermined time frames
8. in writing report their project work and discuss their conclusions and the knowledge and arguments on which they are based
9. demonstrate awareness of ethical aspects of research and development work
10. make assessments informed by disciplinary issues related to the course content
11. make assessments informed by social issues related to the course content.

Syllabus
Take as freestanding course

Semester 1
Sustainable Power Generation 7.5 hp
Field Energy Systems

After the course the students should be able to:
• Describe and explain the principles of different conventional heat and power generation methods.
• Analyse conventional heat and power generation methods thermodynamically.
Describe and explain the basic fundamentals of combustion theory and perform an environmental assessment and suggest measures for emission control in a power plant.
Compare different power generation alternatives and choose the most suitable for
given conditions.
• Describe and explain the physics of nuclear power and how such a system can be built up.
• Describe the main components in a power plant.
• Describe, explain, and analyse heat pump and refrigeration systems and its components.

Syllabus
Take as freestanding course

Semester 1
Energy Systems 6 hp
Field Energy Systems

After the course the students should be able to:
• Describe and explain the principles of different conventional heat and power generation methods.
• Analyse conventional heat and power generation methods thermodynamically.
Describe and explain the basic fundamentals of combustion theory and perform an environmental assessment and suggest measures for emission control in a power plant.
Compare different power generation alternatives and choose the most suitable for
given conditions.
• Describe and explain the physics of nuclear power and how such a system can be built up.
• Describe the main components in a power plant.
• Describe, explain, and analyse heat pump and refrigeration systems and its components.

Syllabus
Take as freestanding course

Semester 1
Energy Utilization in Buildings 9 hp
Field Energy Systems

Different energy carriers will be judged against each other as well as measures to decrease the energy demand either at the production stage or at utilization. Other objectives of the course are to provide a fundamental knowledge in heating, cooling, ventilation and indoor climate in buildings. Heat transfer principles are introduced with applications to energy losses from a building envelope and moisture transmission in buildings will be discussed.

Syllabus
Take as freestanding course

Semester 2
Energy System Simulation and Optimisation 7.5 hp
Field Energy Technology

After the course should the students be able to use simulation and optimisation tools for analysing energy systems. Municipal energy system, regional energy system and national energy systems will be analysed from a system perspective. Environmental and economical impacts of the analysed energy systems will be covered.

The most important intellectual development a student will undertake is:
- Use a general proposed simulation and optimisation programme and models for energy systems analysis
- The principal details in the optimisation code
- Analyse the output data from the program
- Find the limitations and prerequisites when using the program

Syllabus
Take as freestanding course

Semester 2
Thermal Comfort and Indoor Climate, internet course 7.5 hp
Field Energy Technology

At the end of the course, the student should be able to:

- understand the effects of heating and ventilation on indoor air quality and thermal comfort,
- have implications on energy management in the built environment.
- design HVAC systems
- become familiar with the concept of the environmental building assessment and various assessment schemes and tools commercially available.

Syllabus
Take as freestanding course

Published by: Veronica Liljeroth Page responsible: Veronica Liljeroth Updated: 2018-03-08
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