Wind Energy (Erasmus)

Wind Energy (Erasmus) at the Norwegian University of Science and Technology offers a comprehensive and advanced education in the field of renewable energy with a focus on wind power technologies. This master's program is designed for students who aim to develop a deep understanding of wind energy systems, including turbine design, aerodynamics, grid integration, and offshore wind technologies. The program combines theoretical foundations with practical applications, preparing graduates for careers in research, industry, and policy-making related to sustainable energy solutions. Students will have the opportunity to participate in cutting-edge projects, internships, and collaborations with industry partners, gaining valuable hands-on experience in designing and analyzing wind energy systems. The curriculum covers subjects such as fluid dynamics, control systems, structural dynamics, and energy conversion processes, ensuring a well-rounded expertise in the technical aspects of wind energy. Additionally, the program emphasizes innovation and entrepreneurship, encouraging students to develop new solutions for current challenges in renewable energy deployment. As part of the Erasmus mobility track, students can spend a semester at a partner university within the European Erasmus network, enriching their academic experience and gaining international perspectives. Graduates of this program will be equipped with the technical skills and knowledge necessary to contribute to the global transition towards a sustainable energy future, working in areas such as offshore wind farm development, turbine manufacturing, project management, and energy policy. The program is taught by experienced faculty members specializing in renewable energy and wind technology, providing a stimulating academic environment that fosters critical thinking and research excellence. With state-of-the-art laboratories, research centers, and close industry collaborations, students will be at the forefront of technological innovation in wind energy. Upon completion, students will receive a master's degree that qualifies them for expert roles in the rapidly evolving renewable energy sector, supporting the worldwide efforts to reduce carbon emissions and combat climate change.

The Master’s Programme in Wind Energy offered by the Norwegian University of Science and Technology (NTNU) provides students with comprehensive knowledge and skills necessary to excel in the renewable energy sector, with a special focus on wind power technology, planning, and sustainable development. This interdisciplinary program is designed to equip students with a strong foundation in engineering, environmental sciences, and project management, preparing them for innovative work in the rapidly growing wind energy industry worldwide.

Throughout the programme, students will delve into the fundamental principles of aerodynamics, structural dynamics, and electrical systems relevant to wind turbines. They will gain practical experience in the design, analysis, and operation of wind energy systems through extensive coursework, laboratory exercises, and industry projects. The curriculum emphasizes current technological advancements, such as offshore wind solutions, turbine control systems, and grid integration challenges, providing a comprehensive understanding of how to optimize wind farm performance in an environmentally and economically sustainable manner.

The programme also highlights the importance of environmental and social impact assessments, regulatory frameworks, and policy development related to renewable energy deployment. Students will develop skills in project management, data analysis, and the use of simulation tools like wind resource assessment software. The interdisciplinary nature of the program allows students to collaborate with experts across engineering, environmental studies, and policy disciplines, fostering innovative solutions for wind energy challenges.

Students enrolled in this Master’s programme have the opportunity to participate in internships and research projects in Norway and internationally, often collaborating with industry partners and research institutions. The program also prepares students for doctoral studies or careers in industry, consulting, and research organizations focused on renewable energy technologies and sustainable development.

Graduates of the Wind Energy (Erasmus) Master's Programme will be equipped to contribute to the global transition toward clean and sustainable energy sources. They will possess the technical expertise, strategic insight, and practical experience necessary to drive innovation and implement effective wind energy solutions in diverse contexts. With Norway’s prominent position in offshore wind research and development, students benefit from exposure to cutting-edge projects and access to a vibrant research community dedicated to renewable energy advancements.

Overall, this programme offers a rigorous and holistic education in wind energy, preparing students to become leaders and innovators in global efforts to combat climate change and promote sustainable energy solutions.

The financing of the Wind Energy (Erasmus) master's program at the Norwegian University of Science and Technology is primarily supported through a combination of tuition fees, scholarships, government funding, and financial aid options available to international students. As an Erasmus program, it benefits from the European Union's mobility and exchange funding, which covers part of the costs associated with student exchanges within participating countries. Students from EU/EEA countries may be eligible for Erasmus+ grants, which can significantly offset travel and living expenses during study periods abroad.

Tuition fees for non-EU/EEA students are generally higher, but students are encouraged to explore various scholarship opportunities provided by NTNU, the Norwegian government, and external organizations. NTNU offers several merit-based scholarships aimed at outstanding international students, which can assist with covering tuition and living costs. Additionally, Norway provides certain funding opportunities for students engaged in energy-related studies, especially those aligned with sustainable development and technological innovation, which may include scholarships, grants, or stipends.

International students can also consider external funding sources such as Erasmus Mundus scholarships, industry-sponsored grants, and national scholarship programs specific to their home countries. Students often supplement their financing through part-time work permitted under Norwegian regulations, or through student loan schemes available in their home countries.

While tuition fees and scholarships form the core of the program’s financing plan, students are advised to prepare a comprehensive budget that accounts for accommodation, insurance, travel, and daily living expenses in Trondheim. The university also provides financial counseling and guidance to prospective students on available funding opportunities and application procedures. Overall, the financing structure aims to make the program accessible while promoting international mobility and cooperation within the field of wind energy engineering.

The Master's Programme in Wind Energy at the Norwegian University of Science and Technology (NTNU) is a specialized international master's degree designed to prepare students for careers in the growing renewable energy sector, with a particular focus on wind power. The program is delivered in collaboration with Erasmus and is part of NTNU’s commitment to promoting sustainable development and renewable energy technologies. It aims to provide students with a comprehensive understanding of wind turbine design, wind farm planning and operation, wind resource assessment, and the economic and environmental implications of wind energy projects.

Students enrolled in this program will gain both theoretical knowledge and practical skills through a curriculum that encompasses fluid dynamics, aerodynamics, structural engineering, control systems, and energy systems analysis. The program also emphasizes research and innovation, encouraging students to develop new solutions for challenges faced in wind energy generation. Courses often include practical laboratory work, computer simulations, and project work, often in collaboration with industry partners, research institutes, and local communities.

The program benefits from NTNU's strong research environment in renewable energy, including state-of-the-art laboratories and facilities. It also provides students with opportunities for international collaboration and mobility, facilitated through the Erasmus program, enabling them to study and conduct research at partner institutions across Europe. Graduates of the program are well-equipped to work in the wind energy industry, consulting firms, research institutions, or to pursue PhD studies.

Career prospects for graduates are excellent, given the increasing demand for renewable energy solutions worldwide. Many graduates find employment in wind turbine manufacturing companies, energy companies, and project development firms, working on the design, installation, and maintenance of wind turbines and wind farms. The program also prepares students for innovation and leadership roles within the energy sector, contributing to the global transition toward sustainable and renewable energy sources.

Overall, the Wind Energy (Erasmus) master's program at NTNU offers an internationally oriented, multidisciplinary education that combines rigorous engineering science with real-world applications and environmental considerations, aiming to produce graduates capable of making significant contributions to the development of clean energy solutions.