Content, progress and pedagogy of the
module
The module is based on knowledge obtained in the module Control
of energy conversion systems or similar.
Learning objectives
Knowledge
- Be able to understand the importance of integration of
modelling and control in a dynamic ultidisciplinary system
- Be able to understand the importance of physical and
mathematical modelling in a dynamic system
- Have an understanding of digital implementation and basic
techniques for digital control design
- Have an understanding of implementation and basic techniques
for state-space control design and modern control technology
- Be able to understand scientific methods and theories in
relation to the semester theme and indentify differenct types of
problems
- Be able to understand how to set up a business case for the
dynamic multidisciplinary system
Skills
- Be able to apply a dynamic analysis process on offshore energy
systems
- Be able to apply digital models for and conduct analysis of
mechanical, electrical, electromechanical, fluid, thermal and
multidisciplinary systems, such as wind turbine transmission
systems, or oil and gas systems
- Have gained experience in laboratory work or real measured data
series with focus on a dynamic system control
- Be able to analyse obtained results from simulations and
laboratory work or real measured data series
- Be able to understand business principles and do a cost-benefit
analysis on the dynamic multidisciplinary system
Competences
- Have acquired the ability to translate academic knowledge and
skills within dynamic multidisciplinary systems into a practical
problem in offshore energy systems, and be able to process such a
problem and put this into perspective in relation to the
surrounding society
- Have acquired the ability to participate in professional and
interdisciplinary cooperation within the multidisciplinary
systems
- Have acquired the ability to assess basic economic conditions
in the development and commissioning of systems or
appliances
Type of instruction
Problem based and project organised work in project groups. Some
lectures are given in business principles and cost benefit analysis
to support the objectives in this area.
Extent and expected workload
Since it is a 15 ECTS project work, the work load is expected to
be 450 hours for the student.
Exam
Exams
Name of exam | Offshore Dynamic Systems |
Type of exam | Oral exam based on a project |
ECTS | 15 |
Assessment | 7-point grading scale |
Type of grading | External examination |
Criteria of assessment | The criteria of assessment are stated in the Examination
Policies and Procedures |