Course Overview
The course provides students with advanced knowledge of electromechanical systems used in renewable energy applications, particularly wind power. It covers the structure and function of electromechanical systems (SE), including generating and drive systems, power electronic converters, and control algorithms. Students learn modelling and simulation techniques for electromechanical systems using CAD and energy-based approaches. Laboratory classes focus on practical analysis of machine sets used in wind energy, as well as interpretation and evaluation of simulation and experimental results.
MAIN GOAL
To provide students with knowledge and practical skills in modelling, simulating, and analyzing electromechanical systems and power conversion technologies in renewable energy applications.
Learning Outcomes
On completion of this module the learner will gain:
- + Ability to model and simulate electromechanical systems using CAD and energy-based approaches.
- + Skills in analyzing steady-state and transient behaviour of electrical machines.
- + Competence in interpreting and evaluating simulation and experimental results.
- + Knowledge of electromechanical components in renewable energy applications, particularly wind turbines.
MEET YOUR INSTRUCTORS
Course Co-ordinator
Admissions
Entry Requirements
- + Knowledge of electric machines, electronics, and circuit analysis.
Teaching and Assessment Methods
- + Lectures: 10h
- + Laboratories: 20h
- + Assessment: Assessment based on written test (50%) and practical exercises (50%).
Application Deadline: Check institution page using link below
Fees & Funding
Tuition Fees
Visit institution page for information on fees and application deadlines.
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Practical Notes
Contact Michał Michna for any additional information relating to this course.
