The Master's Sustainable Energy Engineering at the Lund University is a full-time 2 Years Postgraduate program in the field of Engineering. Delivered at the University's Lund Campus campus in Lund, Sweden, the course offers a balanced mix of academic study and practical experience.
Ideal for Bangladeshi students and other international applicants, this program provides high-quality education at a full-time competitive international tuition fee of SEK 370,000 Starting each August, it is designed to equip students with essential skills for advanced study and professional growth.
The Lund University offers modern facilities and a supportive environment, ensuring international students receive the guidance and resources needed for success. With a welcoming campus community and dedicated support services, Bangladeshi students can confidently plan their study abroad journey in the Sweden through this program.
Course Highlights
Explore the future of energy solutions with Lund University's Master's Programme in Sustainable Energy Engineering, designed to equip you with the knowledge and skills needed to lead in the evolving global energy sector.
The energy sector is rapidly transforming due to urgent concerns over global warming, the imperative shift towards non-fossil energy sources, and the increasing electrification of transport and industry. These shifts are accompanied by stringent regulations and visionary roadmaps toward a fossil-free future, adopted by nations worldwide.
Upon completing Lund University's Master's Programme in Sustainable Energy Engineering, graduates are poised for success in a variety of roles within energy companies, governmental bodies, consulting firms, and academia. The energy sector continues to grow substantially; for instance, many of the world's top revenue-generating companies are in the energy sector. With significant planned investments in energy infrastructure, the demand for skilled professionals in energy technology is projected to rise sharply. This trend is evident both in Sweden and globally, ensuring that our graduates are stepping into an in-demand field.
This programme facilitates strong connections with industry and research institutions. Through these collaborations, students have the opportunity to engage in Master’s thesis projects that are often conducted in partnership with leading companies or alongside academic research at Lund University. This direct involvement provides a significant advantage when entering the job market.
Course Modules
Mandatory
Elective
Mandatory
Elective
Learning Structure
This programme uniquely integrates technical knowledge with cutting-edge research, focusing on energy conversion and distribution. Students will engage with advanced technologies such as power plants, fuel cells, engines, batteries, and heat pumps, grounded in the core sciences of thermodynamics and fluid dynamics, along with elements of physics and chemistry. Our collaborative structure spans several specialized departments, including Energy Sciences, Architecture and the Built Environment, Biomedical Engineering, and Technology and Society at LTH - the faculty of Engineering at Lund University.
This curriculum is designed to bridge the gap between the graduate’s knowledge and a fast-developing energy industry by using the latest academic research with real-world applications. This prepares graduates to lead the way in enhancing electrical efficiency and reducing environmental impacts. The flexibility of course selection allows students to tailor their studies to personal interests and career goals, with opportunities for both theoretical exploration and hands-on learning. The program not only includes engaging group assignments and presentations but also incorporates a foundational research project for the Master’s thesis, empowering students to contribute to meaningful advancements in the energy sector.
Entry Requirements
- A 4-year Bachelor's degree in mechanical engineering, chemical engineering, civil engineering, environmental engineering or equivalent discipline.
- Completed courses in mathematics including calculus, multivariable analysis and linear algebra, as well as completed courses in classical thermodynamics, heat transfer (may be included in a comprehensive course in thermodynamics) and fluid mechanics.
- A course in electrical engineering, including circuit theory, three-phase AC and electrical machines.
English Language Requirements
Listening
5.5
Reading
5.5
Writing
5.5
Speaking
5.5
Documentary Evidence List
- Bachelor's Transcripts
- Degree Certificate
- English Test (IELTS/ TOEFL)
- Motivation Letter/ SOP
- 2 Recommendation Letters
- Updated CV/ Resume
- Work Experience Certificates (if study gap)
- Passport Copy
Study Gaps
For applicants with an academic or professional gap of up to 5 years, admission is generally considered acceptable. If the gap exceeds this period, applications may still be successful but will typically be assessed on a case-by-case basis.
To strengthen your profile, it is important to:
- Provide a clear explanation of how you spent the gap period (e.g., employment, further learning, personal responsibilities).
- Emphasize the skills and experiences you developed during this time that are relevant to the program.
- Demonstrate that your academic qualifications continue to meet the course entry requirements.
Disclaimer: The information provided on this page is sourced from the official university website. Please note that universities may update their course details, fees, entry requirements and any other related information at any time without prior notice. We recommend verifying the latest updates directly with the university.
Last reviewed on 11 November 2025.