Description
The EWEM programme aims to train students in emerging research domains with a high potential impact to shape the future of the wind energy sector. It prepares students for employment in multidisciplinary departments in industry and/or for continuing their studies within PhD programmes.
After completing the EWEM programme the graduate will:
The student will acquire knowledge in both theoretical and applied sciences underlying wind energy systems in general and the chosen specialisation track, which will allow him/her to adapt quickly to changes in this constantly evolving field, and specific competencies necessary to operate in the chosen area of specialization.
The student will also attain expertize in putting his/her knowledge into practice by participating in laboratory projects and the internship placement. Moreover, the student will attain practical project management skills which are necessary for an effective application of the knowledge acquired.
EWEM graduates receive a double degree. Which degrees a student receives depends on the track. The degrees are equal to the degrees given to graduate students from the individual universities and programmes.
Rotor Design track
The Rotor Design track provides the students with the technical knowledge necessary to work in the research and development (R&D) of Wind Turbine Rotors.
Profile of the Rotor Design graduate
Mastery of rotor aerodynamics, aeroelasticity and blade technology from a theoretical as well as experimental perspective and of relevant engineering methodologies and applications
Awareness of current developments in the field of wind turbine rotors design and of the related issues
Ability to apply and judge advanced analysis and design techniques t to the chosen elective profile (Aerodynamics, Structures and Design, Composite Design Material Production and Manufacturing)
Aerodynamics graduate
Sound knowledge of fundamental aerodynamics, rotor aerodynamics, unsteady flows, active and passive flow control, applied wind turbine aerodynamics and aeroacoustics, wind farm wakes, as well as of the state-of-the-art experimental and numerical techniques
Mastery of analysis and design of aerodynamic systems
Structures and Composites graduate
Knowledge of fundamental structure mechanics and mechanics of metallic, composite, and hybrid material systems
Ability to develop analytical and numerical tools from fast to high-fidelity solutions
Experience in applying and improving multidisciplinary design, analysis and optimization
Mastery of analysis and design knowledge of the manufacturability of advanced composite products, with special attention to the aspects relevant to wind turbines (e.g. fatigue and sustainable production)
Competences in the field of conceptual design, manufacturing techniques and selection of advanced composite materials
Esperado Agosto 2024
Technical University of Denmark
Anker Engelunds Vej 1,
Building 101A,
KGS LYNGBY,
Hovedstaden,
2800, Denmark
The academic levels of the MSc Programmes are highly advanced, and a thorough basic knowledge of one engineering or science discipline related to the MSc programme is required for admission. Admission is based on the following criteria: Bachelor of Science in Engineering, Bachelor of Engineering or a Bachelor of Natural Science degree obtained at an internationally recognized university
IELTS - 6.5, TOEFL internet-based - 88, C1 Advanced / Cambridge Advanced English (CAE) - 180, Danish High School - English level B Overall grade 3.
Puede haber diferentes requisitos de IELTS en función del curso elegido.