Curricular Programs
We offer curricular programs designed to foster highly skilled professionals.
- 01
- Graduate courses are developed in collaboration with participating companies to train highly qualified professionals in the field of wind turbine support structures
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- An accreditation system is in place to ensure the quality of graduate programs and strengthen engineering capabilities
Graduate Courses
Wind Energy
in General
- Topics in Energy Industry
- Advanced Wind Energy
- Advanced Offshore Wind Plant
- Advanced Wind Energy Engineering
- Experiments for Wind Energy Engineering
Structural Design
and Materials
- Topics in Engineering of Steel Structures
- Advanced Design of Concrete Structures
- Limit State Design of Concrete Structures
- Fracture Mechanics of Concrete
- Advanced Solid Mechanics
- Fatigue Failure Design
Fixed Substructures
for Offshore Wind
- Design of Support Structures for Wind
- Offshore Wind Turbine Support Structure
- Seismic Design of Offshore Structures
- Advanced Applied Coastal and Port Engineering
- Dynamics of Structures
- Dynamics of Offshore Structures
- Advanced Computational Structural Analysis
Floating Substructures
for Offshore Wind
- Advanced Floating Offshore Structure Motion
- Advanced Fluid Mechanics
- Advanced Experimental Fluid Dynamics
- Marine Environment and Offshore Structures
- Structural Sensitivity Analysis
Foundations
and Anchors
- Ground Research & Instrumentation
- Pile Foundation Analysis
- Advanced Foundation Engineering
- Soil Dynamics
- Advanced Geotechnical Engineering
Accreditation System
Accreditation for Master's Students
- Taking at least 9 credits of graduate coursework
- Presenting at least 1 paper at a conference
- Conducting at least 1 R&D project in collaboration with participating companies
Accreditation for Doctoral Students
- Taking at least 12 credits of graduate coursework
- Publishing at least 1 SCI(E) journal paper
- Conducting at least 2 R&D projects in collaboration with participating companies