Modiwl ICL-3012:
Sustainable Renewable Energy
Sustainable Renewable Energy 2024-25
ICL-3012
2024-25
School Of Computer Science And Electronic Engineering
Module - Semester 1 & 2
20 credits
Module Organiser:
Cameron Gray
Overview
Indicative content includes:
Sustainable energy
- Understand the principles of operation of sustainable energy conversion by wind; wave; tidal; solar; bioenergy; hydropower; and other technologies.
- Understand and be able to apply the principal aspects of engineering design underpinning these technologies including basic quantitative techniques.
- Understand the constraints on each technology, both imposed by physical fundamentals, and by current levels of technology and market.
- Understand the fundamentals of grid integration of renewable energy and the problems and constraints associated with this.
- Understand the fundamentals of economic analysis as applied to renewable energy technologies.
Wind energy
- Perform a basic wind resource estimation and site assessment.
- Understand the fundamentals of wind turbine design and operation.
- Understand issues related to integrating wind energy into an electricity distribution network.
- Understand the strengths and limitations of wind energy in an economic and political context.
Marine energy
- Understand the nature of the both the wave and tidal current resources and be able to perform preliminary resource assessments based upon oceanographic data.
- Understand the principles of design and operation for both wave and tidal current energy systems.
- Perform preliminary technology assessments for both wave and tidal energy.
- Develop preliminary exploitation plans for defined regions considering the resource, technology and environmental/social limitations.
Solar energy
- Understand the nature of the solar energy resource.
- Understand the mechanisms and technologies of solar energy conversion including photovoltaics, passive and active solar heating and concentrated solar thermal power generation.
- Undertake the dimensioning and system design for a solar thermal and/or photovoltaic array.
- Appreciate the market dynamics and the economics of solar energy.
- Understand the differences between grid-connected vs. isolated systems and the implications of energy storage.
Nuclear energy
- Understand the engineering, scientific and safety aspects of nuclear power.
- Understand current nuclear technology policy together with relevant business and policy awareness.
- Understand the wider policy contexts of nuclear electricity generation in the 21st century.
- Understand the principles of reactor physics, including core physics and shielding – steady state power and shapes, depletion control elements and use of poisons, core kinetics and system control.
- Understand the principles of reactor engineering and thermal-hydraulics, including coolant types, thermal cycles, heat transfer, thermal limits and Reactor systems, their optimisation and operating characteristics including normal operation and how to address main types of fault condition.
- Understand the different materials used for nuclear fuel and reactor materials, including selection, safety and life issues (radiation behaviour and damage, structural integrity and fracture mechanics).
- Understand the whole nuclear fuel cycle, including waste and decommissioning, mining for waste and how waste is managed, and the principles of decommissioning.
- Understand the principles and practice for nuclear safety, including an ability to recognise key design and safety issues and how they might be addressed, including the principles and practices of reactor safety as it affects design, operation and justification of modern reactors.
- Understand the history of nuclear practice, globally, within the UK and in Wales, considering important past events on the current prospects and issues that affect the sector.
- Understand the basic theory and methods in computational reactor physics and apply computational reactor modelling for simulation of nuclear systems.
- Understand the principles of advanced Fission and Fusion reactor systems, why they are being pursued, their advantages and their difficulties in proceeding to become commercially viable designs.
- Additionally, an introduction to the main ideas behind nuclear fusion for energy, focusing on the basic ideas and concepts and the practical issues of bringing fusion to market, will be provided.
Learning Outcomes
- Describe the principles behind Nuclear Power and the current trends towards this form of energy.
- Explain the business models and design behind renewable energy sources.
- Identify the principles behind sustainable energy.
Assessment type
Summative
Weighting
25%
Assessment type
Summative
Weighting
25%
Assessment type
Summative
Weighting
50%