Curriculum for Sustainable Energy Technologies

Programme provision

To obtain the MSc degree in Sustainable Energy Technologies the student must fulfil the following requirements:
  • Have passed Polytechnical foundation courses adding up to at least 10 ECTS
  • Have passed Programme specific courses adding up to at least 50 ECTS
  • Have performed a Master thesis of 30 ECTS points within the field of the general programme
  • Have passed a sufficient number of Elective courses to bring the total number of ECTS of the entire study to 120 ECTS

Curriculum

Polytechnic foundation courses (10 ECTS):

The following courses are mandatory: 

12100 Quantitative Sustainability (Polytechnical Foundation) 5 point F7 (Tues 18-22)
or
12106 Quantitative Sustainability (Polytechnical Foundation) 5 point Autumn E3B (Fri 13-17)
or
12105 Quantitative Sustainability (Polytechnical Foundation) 5 point E7 (Tues 18-22)
or
12101 Quantitative Sustainability (Polytechnical Foundation) 5 point Spring F3B (Fri 13-17)
42500 Innovation in Engineering (Polytechnical Foundation) 5 point January
or
42504 Innovation in Engineering (Polytechnical Foundation) 5 point August
or
42501 Innovation in Engineering (Polytechnical Foundation) 5 point June

Students with advanced innovation competences may take one of the following courses as an alternative to 42500/42501/42504:

42502 Facilitating Innovation in Multidisciplinary Teams 5 point January
or
42505 Facilitating Innovation in Multidisciplinary Teams 5 point August
or
42503 Facilitating Innovation in Multidisciplinary Teams 5 point June

The following course can be taken as an alternative to the mandatory course 12100/12101/12105/12106:

41636 Design for Circular Economy 5 point January

Programme specific courses (50 ECTS)

Innovation course II - choose 5 ECTS among the following courses: 

28485 Biobusiness and Process Innovation 5 point Autumn E1B (Thurs 13-17)
34541 Entrepreneurship in photonics and communications 5 point Autumn E1B (Thurs 13-17)
38102 Technology Entrepreneurship 5 point Autumn E1B (Thurs 13-17)
41636 Design for Circular Economy 5 point January

Core competence courses - mandatory (15 ECTS)

28870 Energy and Sustainability 5 point E7 (Tues 18-22)
42015 Energy Economics 5 point Autumn E3B (Fri 13-17)
46205 Feasibility studies of energy projects 5 point Autumn E3A (Tues 8-12)

Choose 30 ECTS among the rest of the programme-specific courses: 

10304 Experimental Surface Physics 10 point Spring F3 (Tues 8-12, Fri 13-17)
10333 Physics of Sustainable Energy 5 point Autumn E5B (Wed 13-17)
10339 Concepts in heterogeneous catalysis and applications to energy conversion 5 point Autumn E3B (Fri 13-17)
10850 Advanced micro- and nanofabrication technology 5 point Spring F3B (Fri 13-17)
26510 Catalysis and Sustainable Chemistry 10 point Spring F4 (Tues 13-17, Fri 8-12)
28242 Chemical Kinetics and Catalysis 5 point Autumn E1A (Mon 8-12)
28244 Combustion and High Temperature Processes 5 point Autumn E4B (Fri 8-12)
28271 Thermal gasification, pyrolysis and sustainability 5 point August
28345 Industrial BioReaction Engineering 5 point Spring F4A (Tues 13-17)
28350 Process Design: Principles and Methods 10 point Spring F3A (Tues 8-12) and Spring F3B (Fri 13-17)
28871 Production of Biofuels 10 point Spring F2A (Mon 13-17) and Spring F4B (Fri 8-12)
28872 Biorefinery 5 point Autumn E4B (Fri 8-12)
34540 Light emitting diodes and photovoltaics for energy applications 5 point Autumn E2A (Mon 13-17)
34551 Thin film photovoltaics 5 point January
34552 Photovoltaic systems 5 point Spring F2B (Thurs 8-12)
34553 Applied photovoltaics 5 point June
34554 Design of Ground Mounted Photovoltaic Power Plants 5 point E7 (Tues 18-22)
34620 Basic power electronics in energy systems 5 point Spring F1B (Thurs 13-17)
41320 Advanced fluid mechanics 5 point Autumn E2B (Thurs 8-12)
41343 Fuels and emissions from current and future transportation 5 point June
41416 Energy systems - analysis, design and optimization 10 point Spring F5 (Wed 8-17)
41417 Digitalization of Thermal Energy Technologies – Modelling and Simulation Methods 5 point Autumn E1B (Thurs 13-17)
41418 Green fuels and power-to-x 5 point Spring F3A (Tues 8-12)
41420 Refrigeration and Heat Pump Technology 10 point Autumn E5 (Wed 8-17)
41461 Building Integrated Photovoltaics 5 point Autumn E2B (Thurs 8-12)
41464 Solar Heating Systems 10 point Spring F3 (Tues 8-12, Fri 13-17)
41467 Development of solar energy systems 5 point Autumn E4A (Tues 13-17)
41468 Sustainable District Heating 5 point Spring F1A (Mon 8-12)
46100 Introduction to Micrometeorology for Wind Energy 5 point Autumn E2B (Thurs 8-12)
46120 Scientific Programming for Wind Energy 5 point Spring F2B (Thurs 8-12)
46200 Planning and Development of Wind Farms 5 point January
46211 Offshore Wind Energy 10 point Autumn E4 (Tues 13-17, Fri 8-12)
46215 Socio-technical dimensions of Renewable Energy 5 point Spring F1A (Mon 8-12)
46230 Power system balancing with large scale wind power 5 point Spring F4B (Fri 8-12)
46300 Wind Turbine Technology and Aerodynamics 10 point Autumn E1 (Mon 8-12, Thurs 13-17)
46310 Wind Turbine Aeroelasticity 10 point Spring F5A (Wed 8-12) and Spring F5B (Wed 13-17)
46320 Loads, Aerodynamics and Control of Wind Turbines 10 point Autumn E5 (Wed 8-17)
46400 Wind Turbine Measurement Technique 10 point Spring F1 (Mon 8-12, Thurs 13-17)
46500 Probabilistic Methods in Wind Energy 5 point Autumn E2A (Mon 13-17)
46550 Offshore wind grid connection and high-voltage DC (HVDC) transmission 5 point Autumn E4B (Fri 8-12)
46600 Aeroacoustics 5 point Spring F1B (Thurs 13-17)
46700 Introduction to Electric Power Systems 10 point Autumn E4 (Tues 13-17, Fri 8-12)
46725 Electrical machines 5 point Spring F2A (Mon 13-17)
46735 Wind, solar and energy storage electrical drive trains 10 point Autumn E2 (Mon 13-17, Thurs 8-12)
46745 Integration of wind power in the power system 5 point Autumn E3B (Fri 13-17)
46755 Renewables in electricity markets 5 point Spring F2A (Mon 13-17)
47301 Hydrogen energy and fuel cells 5 point Spring F1B (Thurs 13-17)
47302 Hydrogen and fuel cell chemistry - experimental course 5 point January
47305 Electrochemistry 5 point Spring F3A (Tues 8-12)
47310 Battery materials and chemistries: from fundamental mechanisms to battery cells 5 point Autumn E5B (Wed 13-17)
47317 Exergy analysis 5 point Autumn E1B (Thurs 13-17)
47319 Functional materials 5 point Spring F1A (Mon 8-12)
47330 Energy storage and conversion 5 point Autumn E1A (Mon 8-12)
47332 AI-orchestrated self-driving labs 5 point June
47333 Electron microscopy for materials science 5 point Autumn E3A (Tues 8-12)
47335 Atomic-scale modelling of energy materials (online) 5 point Spring F4B (Fri 8-12)
47336 Applications of X-ray and neutron scattering in biology, chemistry, and physics 5 point August
47338 Organic energy materials 5 point Autumn E5A (Wed 8-12)
47514 PhD course in advanced electrochemistry 5 point Autumn E2A (Mon 13-17)

Elective courses: 

Any course classified as MSc course in DTU's course base may be an elective course. This includes programme specific courses in excess of the minimal requirements. Master students may choose as much as 10 credit points among the bachelor courses at DTU and courses at an equivalent level from other higher institutions. In addition, it is possible to take MSc-level courses at other Danish universities or abroad.