MSc Innovative Sustainable Energy Engineering
Stockholm, Sweden
DURATION
2 Years
LANGUAGES
English
PACE
Full time
APPLICATION DEADLINE
Request application deadline
EARLIEST START DATE
Aug 2025
TUITION FEES
SEK 171,000 *
STUDY FORMAT
On-Campus
* The tuition fee (for the year spent at KTH) for non-EU/EEA/Swiss citizens studying this programme is SEK 171,000. Tuition fees for partner institutions differ.
Introduction
The joint master's programme in Innovative Sustainable Energy Engineering focuses on energy systems designs with economically and environmentally sustainable technologies. Students are awarded degrees from two leading Nordic universities and explore the unique energy engineering expertise of these universities through a specialisation track. Graduates know practices, policies and technologies to supply energy at the least financial, environmental and social cost.
Innovative Sustainable Energy Engineering at KTH
The master's programme in Innovative Sustainable Energy Engineering provides state-of-the-art education in the fields of sustainable energy like new power generation, solar energy, biomass energy, wind power and energy utilisation in the built environment by means of economically and environmentally sustainable systems and technologies.
The term sustainable energy engineering comprises a wide array of practices, policies and technologies (conventional, renewable and alternative) aimed at providing energy at the lowest possible economic, environmental and social cost. Emphasis is placed on dealing with energy engineering tasks with due consideration of related technical, environmental and socio-economic issues.
Strong emphasis is also put on the innovative and entrepreneurial aspects of the energy society, especially with regard to how existing and new efficiency-improving innovations can be brought to market in different countries. The innovative aspects of the programme are related to both the advanced renewable energy concept in the Nordic countries as well as new businesses in the energy sector.
Students gain expertise in project design, implementation, operation and maintenance, as well as the crucial phases on policy generation. The studies also include research-oriented, in-depth training from the energy sector.
This is a two year programme (120 ECTS credits) given in English. Graduates are awarded the degree of Master of Science from KTH and the equivalent degree from the other attended university. The programme is given mainly at KTH Campus in Stockholm by the School of Industrial Engineering and Management (at KTH).
Degree project
After successfully completing the course work, each student is assigned an individual degree project, on which they typically work over five to six months. The project may be carried out either in an academic environment (university, research institute, or equivalent) or in an industrial setting (power plant, energy consulting agency, or other industry/business). Thesis projects may or may not be linked to ongoing research activities at one or more of the partner universities.
Admissions
Curriculum
Year 1 at KTH
Profile Bio-Energy
Study year 1 at KTH, and study year 2 at Aalto University
One of the conditionally elective courses must be taken.
Mandatory courses
- Sustainable Power Generation (MJ2405) 9.0 credits
- Renewable Energy Technology (MJ2411) 6.0 credits
- Applied Heat and Power Technology (MJ2426) 6.0 credits
- Energy Systems for Sustainable Development (MJ2508) 6.0 credits
- Energy in the built environment (MJ2509) 9.0 credits
- Methods of research in sustainable energy (MJ2510) 7.5 credits
- Energy Management (MJ2511) 7.5 credits
- Sustainability perspectives for assessing and designing research, projects and policies (MJ2516) 3.0 credits
Year 2 at KTH
Course list: Information is based upon the curriculum for academic year 2022/2023, changes may occur.
Profile Energy System
Study year 1 at Aalto University, and study year 2 at KTH.
Master thesis 30 credits is mandatory
Two conditionally elective courses should be taken.
Mandatory courses
- Energy System Economics, Modelling and Indicators for Sustainable Energy Development (MJ2383) 6.0 credits
- Circular Economy and Energy System (MJ2513) 6.0 credits
- Energy Systems for Smart Cities (MJ2520) 6.0 credits
Program Outcome
Energy systems analyst, energy market analyst, policy maker in energy sector, sustainable project designer, researcher, doctoral studies, consultant in the energy sector, technology development, teaching at a university, environmental specialist.
Scholarships and Funding
Several scholarship options are available. Please check the institute website for more information.
Gallery
Career Opportunities
The energy field is an international and dynamic area where well-trained engineers are in constant demand. This is particularly the case for engineers exposed to practices in Nordic countries. Employment opportunities are very strong and graduates can pursue a diverse range of careers.
After graduation
Energy systems analyst, energy market analyst, policy maker in the energy sector, sustainable project designer, researcher, doctoral studies, consultant in the energy sector, technology development, a teacher at a university, and environmental specialist.
Program Tuition Fee
Program Admission Requirements
Show your commitment and readiness for Grad school by taking the GRE - the most broadly accepted exam for graduate programs internationally.