MAS502 Energy resources & conversion devices
Course description for academic year 2024/2025
Contents and structure
To ensure a basic quality of life there is a fundamental need to provide access to affordable and reliable sources of energy. Delivering this resource in a way that is sustainable, reduces the man-made effects of climatic change and provides energy for all which is an essential pre-requisite to a future living in harmony with our planet and its ecosystems. This need is directly coupled with our consumption and production demands. There is a requirement to concentrate efforts in scaling up our ability to deliver energy in a sustainable way and also to curtail its use.
Students are expected to initially gain an appreciation of the underlying need for energy; understanding the nature, location and quantity of the various resources that can potentially satisfy this and future demands. Given this overall perspective the course will then address a variety of resources in turn.
A common theme is that the student will be given an explanation of the physics pertaining to current energy harnessing devices and factors that affect their design, their efficiency, their technology maturity along with their potential for improvement, and future technologies with possible implementations.
Learning Outcome
Knowledge
The student…
- understands and can describe the physics of various energy conversion processes.
- can demonstrate an expanded knowledge on various topics and challenges related to all stages between the sourcing and the harnessing of various sources of energy.
- shows a critical awareness of and be able to explain societal aspects of energy conversion including health and environmental issues.
- understands the importance of reducing demand for energy in the context of a huge growth in the affluence of the world’s population.
Skills
The student…
- critically understands the principals which govern the design of energy harnessing devices and, on a basic level, is able to offer design evaluations.
- can make assessments through calculation or otherwise of the energy available or produced from a system or device in various scenarios.
General competency
The student…
- can communicate with engineers, technologists and scientists about the physics and design of energy conversion equipment in a critical and informed manner.
- is able to relate and discuss concepts of sustainability in connection with global energy consumption.
Entry requirements
None
Recommended previous knowledge
Requirements for the study programme.
Teaching methods
The course will be delivered by subject/discipline specialists and, where appropriate and/or beneficial, from industry. The course will consist of a combination of lectures and tutorials as deemed appropriate by each subject specialist. There will typically be the inclusion of practice/example calculations interspersed within the lectures and discussions of topics addressed.
Compulsory learning activities
During the delivery of the course the student will be required to complete and pass a number of engagement tasks. The number set and minimum number required to be passed will be specified at the start of the course.
The tasks need to be passed by the student to evidence engagement with the course and a basic level of comprehension. A task can consist of online (or otherwise) quizzes and/or additional exercises which can be, for example, calculations or writing a synopsis of a subject (as deemed appropriate by the subject specialist).
Assessment
Formal written closed book examination.
Duration 4 hours.
Typically, there will be a choice of questions in the examination.
Grading scale is A-F, where F is fail.
Examination support material
Simple, non-programmable calculator.
More about examination support material