Sustainable Energy Technology

Study mode:On campus Study type:Full-time Languages: English
Local:$ 2.25 k / Year(s) Foreign:$ 17 k / Year(s) Deadline: May 1, 2026
187 place StudyQA ranking:6764 Duration:24 months

Sustainable Energy Technology at Eindhoven University of Technology is a cutting-edge master's program designed to prepare students for the dynamic and rapidly evolving field of sustainable energy solutions. This program provides a comprehensive curricula that integrates engineering principles, innovative technologies, and sustainability concepts to address global energy challenges. Students will explore a broad spectrum of topics including renewable energy sources such as wind, solar, biomass, and geothermal, as well as energy storage, smart grids, and energy efficiency strategies. The program emphasizes both theoretical foundations and practical applications, ensuring graduates possess the skills necessary to develop, optimize, and implement sustainable energy systems in various contexts.

Throughout the program, students engage in interdisciplinary projects that foster collaboration across fields, encouraging innovative thinking and real-world problem solving. The programme’s coursework combines advanced engineering subjects with environmental and economic aspects of energy production and consumption, preparing graduates to not only design efficient energy systems but also consider their environmental impact and sustainability. Students are empowered to critically analyze current energy challenges, propose innovative solutions, and contribute to the transition towards a sustainable energy future.

Eindhoven University of Technology's state-of-the-art laboratories and research facilities provide students with hands-on experience in developing and testing energy technologies. The program also offers opportunities for internships and collaborations with industry partners, enabling students to gain valuable insights into the practical applications of sustainable energy solutions and establish professional networks. By the end of the program, graduates are equipped with the technical expertise, innovative mindset, and sustainability awareness required to lead the energy transition in various sectors, including industry, government, and research organizations.

This master's programme is ideal for students with a background in engineering, physics, environmental sciences, or related fields who are passionate about making a tangible impact on global energy sustainability. Graduates will be well-prepared to pursue careers in renewable energy development, energy consultancy, project management, and independent research, contributing to the global effort to reduce carbon emissions and promote sustainable development. With its combination of academic rigor, practical training, and a focus on innovation, the Sustainable Energy Technology program at Eindhoven University of Technology aims to cultivate the next generation of energy leaders committed to creating a cleaner, more sustainable world.

The MSc in Sustainable Energy Technology at Eindhoven University of Technology is a comprehensive program designed to equip students with advanced knowledge and skills necessary to develop innovative solutions for the global transition to sustainable energy systems. This program focuses on the integration of renewable energy sources, energy conversion technologies, and efficient energy management to address contemporary challenges related to climate change, resource depletion, and energy security. Throughout the course, students will learn about various renewable energy technologies, including solar, wind, biomass, and hydropower, as well as smart grids, energy storage solutions, and the role of digitalization in energy systems. The program emphasizes both theoretical understanding and practical application, allowing students to work on real-world projects, simulations, and collaborations with industry partners. Students will gain expertise in sustainable energy system design, optimization, and implementation, as well as insights into policy making, economic analysis, and environmental impact assessments. The curriculum is structured to foster interdisciplinary thinking and innovation, preparing graduates for careers in research, engineering, consultancy, or management within the rapidly evolving energy sector. By the end of the program, students will have developed a deep understanding of sustainable energy technologies and a set of versatile skills to contribute effectively to the global efforts towards a cleaner, more sustainable energy future.

Admission requirements

For admission a minimum of 75% CGPA. For entry to Amandus H. Lundqvist Scholarship Program (ALSP) a minimum of 80% CGPA.

Other requirements

  1. gemiddeld cijfer For admission a minimum of 75% CGPA. For entry to Amandus H. Lundqvist Scholarship Program (ALSP) a minimum of 80% CGPA.
  2. vooropleiding (ISPAC: vereiste vooropleiding) (University) BSc in mechanical engineering, applied physics, chemical engineering, energy technology, electrical engineering or equivalent study.
  3. schriftelijk verzoek Letter of motivation


Want to improve your English level for admission?

Prepare for the program requirements with English Online by the British Council.

  • ✔️ Flexible study schedule
  • ✔️ Experienced teachers
  • ✔️ Certificate upon completion

📘 Recommended for students with an IELTS level of 6.0 or below.

Enroll in the course

The financing of the Sustainable Energy Technology program at Eindhoven University of Technology is primarily supported through a combination of tuition fees, government grants, research funding, and private sponsorships. Tuition fees for international students are set annually and are structured to cover the costs of instruction, facilities, and research activities associated with the program. The university offers various scholarship opportunities for talented students, including grants based on academic merit and financial need, which can significantly reduce the overall cost of study. Additionally, national government subsidies aimed at promoting sustainable energy research and education contribute to the financial stability of the program, enabling continuous curriculum development and investment in cutting-edge laboratories and energy simulation tools.

Students may have access to government student loan programs, depending on their country of origin and individual eligibility, which assist in covering living expenses and registration costs. The university also collaborates with industry partners and environmental organizations that provide project funding and sponsorship for students involved in research projects or internships. Such collaborations often include stipends or funding allocations to support students' participation, thereby easing financial burdens and enhancing practical learning experiences.

Financial support through European Union grants, such as the Erasmus+ program, is available for eligible students for mobility and exchange programs, fostering international cooperation and cultural exchange while reducing educational expenses. Eindhoven University of Technology actively seeks external sponsorships from technological firms and energy sector companies, which contribute to specialized equipment and research grants within the Sustainable Energy Technology program.

Students are encouraged to explore various financial aid options early in their study planning to ensure comprehensive coverage of tuition, living expenses, and research costs. The combination of university funding mechanisms, governmental programs, external sponsorships, and scholarships forms a robust financial framework that makes studying Sustainable Energy Technology at Eindhoven University of Technology accessible to a diverse student body.

The Master’s programme in Sustainable Energy Technology at Eindhoven University of Technology (TU/e) is designed to equip students with the advanced knowledge and skills necessary to develop sustainable energy solutions for the future. The programme emphasizes innovation in the field of energy technology, focusing on areas such as renewable energy sources, energy conversion, energy storage, and smart energy systems. Students gain a comprehensive understanding of the physical principles behind energy technologies, along with practical skills in designing, analyzing, and implementing sustainable energy systems.

The programme offers a multidisciplinary curriculum, combining electrical engineering, mechanical engineering, physics, and computer science to address complex energy challenges. Students have the opportunity to specialize in areas like solar energy, wind energy, energy system integration, or energy efficiency. The curriculum includes courses on renewable energy technologies, power electronics, control systems, and environmental impact assessments. A significant component of the programme involves project work, where students collaborate on real-world problems, often in partnership with industry or research institutions.

The programme is structured to foster innovative thinking and problem-solving skills, preparing graduates for careers in research, industry, or policy development related to sustainable energy. The teaching approach leverages the university’s state-of-the-art laboratories and research facilities, offering students hands-on experience with cutting-edge technologies. Additionally, TU/e encourages international collaboration and offers avenues for students to participate in exchange programs, internships, and joint research projects.

Graduates of the Sustainable Energy Technology programme are well-positioned to contribute to the global transition to sustainable energy. They can pursue careers in engineering firms, renewable energy companies, governmental and non-governmental organizations, and research institutes, or continue with doctoral studies. The programme aligns with the university’s mission to deliver innovative solutions for societal challenges and aims to prepare students for leadership roles in the energy sector.

Overall, the programme provides a comprehensive education in sustainable energy, combining theoretical foundations with practical applications, within a highly collaborative and innovative academic environment.

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