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Unit name |
Engineering Design for Wind and Marine Power |
Unit code |
AENGM3102 |
Credit points |
10 |
Level of study |
M/7
|
Teaching block(s) |
Teaching Block 1 (weeks 1 - 12)
|
Unit director |
Dr. Harper |
Open unit status |
Not open |
Pre-requisites |
This unit is available without pre-requisites to all Faculty of Engineering undergraduate students studying for a Masters-level qualification (course restrictions permitting).
|
Co-requisites |
None
|
School/department |
School of Civil, Aerospace and Design Engineering |
Faculty |
Faculty of Engineering |
Description including Unit Aims
This module provides students with an advanced knowledge of wind and tidal energy systems. Considerable emphasis is placed upon design and architecture, together with the influence of policy, regulation and whole-life cost on optimised solutions. A key aspect of the course is the high level of expert industrial input which will allow students to gain hands-on experience with state-of-the-art design and analysis tools. A series of industry case studies will complement the technical material and the coursework will include both individual and group projects, giving students the chance to apply the skills learned in a realistic design context.
The aims of this unit are:
To develop an advanced understanding of the design of wind and tidal energy systems.
To engage with the environmental, social and economic issues surrounding the design and development of wind and tidal energy farms.
To gain experience of using industry-standard methods and tools to aid the design of wind turbine devices
Intended Learning Outcomes
Upon successful completion of the unit the student should be able to:
- Explain how wind and tidal resources are assessed and used for site selection, and how the factors influencing wind and tidal turbine performance are characterised;
- Explain the main design options for wind and tidal stream energy devices and the factors influencing an optimised solution;
- Explain the loads acting on wind and tidal stream energy devices and describe their impact on structural/foundation design, manufacture, installation and maintenance requirements;
- Describe the aerodynamic/hydrodynamic and structural design processes for wind and tidal turbine rotor blades;
- Apply some of the current methods/tools used within industry to analyse wind and tidal turbine performance;
- Describe electrical system architectures and the main considerations necessary for the effective integration of electrical components in wind/tidal power generation systems;
- Describe the environmental and social impacts of wind and tidal energy farms;
- Conduct an economic assessment of a wind/tidal energy farm;
- Work as part of a multidisciplinary team in developing a wind/tidal energy farm design proposal.
Teaching Information
Lectures plus 2 computer lab classes
Assessment Information
100% Coursework (30% group report, 70% individual report)
Reading and References
- Manwell, J.F., Wind Energy Explained: Theory, Design & Application. 2009, 2nd ed., Wiley-Blackwell. ISBN: 0470015004
- Spera, D.A., Wind Turbine Technology: Fundamental Concepts in Wind Turbine Engineering. 2009, 2nd ed., ASME. ISBN: 0791802604.
- Hansen, M., Aerodynamics of Wind Turbines. 2008, 2nd ed., Earthscan. ISBN: 1844074382
- Wildi, T., Electrical Machines, Drives & Power Systems. 2006, 6th ed., Pearson. ISBN: 0131969188
- Boyle, G., Renewable Energy: Power for a Suitable Future. 2004, 2nd ed., OUP Oxford. ISBN: 0199261784
- MacKay, D.J., Sustainable Energy Without the Hot Air, 2009, Cambridge University Press. ISBN: 1906860017
- Burton, T., The Wind Energy Handbook. 2011, 2nd ed., Wiley-Blackwell. ISBN: 0470699752
- European Wind Energy Association, Wind Energy – The Facts: A Guide to the Technology, Economics & Future of Wind Power. 2015, 1st ed., EWEA, Luxembourg. ISBN: 1138881260