EMS717U/P - Renewable Energy Sources - 2025/26
Section outline
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View all general news and announcements from the your module leaders.
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Forum Description: This forum is available for everyone to post messages to. Students can raise questions or discuss issues related to the module. Students are encouraged to post to this forum and it will be checked daily by the module leaders. Students should feel free to reply to other students if they are able to.
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Tuesday 9:00 - 11:00, Peter Land: PL3.01
Click here to download the module overview
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1. Introduction. Global energy scene past and present, fossil fuels and climate change, renewable energy.
2. Origins of Renewable Energy Sources. Solar radiation and solar processes, net radiation flux at Earth, Earth’s energy cycle; absorption of radiation in the atmosphere, absorption processes at the Earth’s surface, water cycles, tidal forces and wave motion and wind energy.
3. Thermodynamics. Laws of thermodynamics, forms of energy, energy conversion, efficiency.
4. Building energy efficiency. Thermal comfort, heating and cooling loads, building service systems, building energy efficiency.
5. Wind Power. Wind velocity and kinetic energy, types of wind turbines, aerodynamics of turbines, power generation from wind turbines, economic and environmental impacts of wind power.
6. Solar Energy Conversion. Variation of solar radiation, solar thermal systems, solar heating, photovoltaic; semiconductors and the p-n junction, bioenergy and biomass; solar energy storage, biomass conversion to fuels, economic and environmental costs of solar power.
7. Hydro and Wave Energies. Ocean currents and river flows, potential energy storage; power, head and flow rate, hydroelectric power generation and environmental impacts, power from waves.
8. Non Solar Renewables. Geothermal energy; types of geothermal resources, technologies for exploitation of geothermal energy. tidal energy, harnessing tidal power.
9. Alternative Energy Storage and Conversion. Hydrogen fuels, hydrogen generation and storage; electrochemical cells and the electrolysis of water, fuel cell technologies; chemical energy to electricity, electrochemical conversion of energy.
10. Sustainability of Resources. renewable energy global demands, forecasting future energy requirements, balancing economic and environmental considerations, future policies and integrated energy solutions. -
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This is an important document.
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For the full report, you can download from IPCC website (2042 pages, too big to be uploaded onto QM+)
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This is provided for those students who have not studied thermodynamics.
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Fig.1 in this paper shows an good example of the schematic presentation for system design.
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Assessment is carried out through the following elements:
Seq Type Description Weight 01 CWK CWK report 50% 02 Exam Final Exam 50% -
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This is a template for you to write your coursework report.
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Seven good coursework reports are provided as samples. You consider a specific topic as your own coursework.
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The system has been installed and tested.
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Every School has a dedicated student support contact who can offer advice on matters you feel may be impeding your ability to study. Below you can find the SEMS student support contacts:
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Coursework Details:
Coursework number 001 Coursework title Design and analysis of a sustainable energy application Coursework weighting 50% Issue date Monday 22th September 2025 DUE DATE Wednesday 26th November 2025 Late submission penalty For every period of 24 hours, or part thereof, that an assessment is overdue there shall be a deduction of five per cent (5%) of the total marks available (e.g. five marks for an assessment marked out of 100). After seven calendar days (168 hours or more late) the mark shall be reduced to zero, and recorded as 0FL(zero, fail, late). For more information see the taught programme academic regulations Feedback return date Friday 17th December 2025 Mark return date Friday 17th December 2025 Marking criteria Evaluation criteria
The coursework report will be assessed on the basis of:
• depth and relevance of research (e.g. review, design, analysis)
• synthesis and evaluation of data
• application and understanding of appropriate concepts
• critical appraisal and analysis of issues
• a clear, professional and well-presented reportMarking criteria
Understanding & Analysis (scientific awareness, justification) 40%
0-15 clear fail: Demonstrates essentially no understanding of project; no meaningful analysis.
16-19 borderline fail: Very limited grasp of key scientific issues (or key journal papers); little evidence of critical analysis (or limited number of key journal papers referenced).
20-23 pass: Some comprehension of scientific issues; attempts to apply reason-based analysis.
24-27 merit: Appreciation of scientific challenges (and has found journal papers beyond the initial suggested); reasoned justification of strategic decisions taken (or choice of papers referenced).
28-33 distinction: Clear awareness of scientific challenges; logical approach to problem solving.
33.5-40 exceptional: Lucid presentation of nub of challenges faced (or extensive number of papers referenced); mature, reasoning-based analysis.
Quality & Originality of Results and Discussion. 40%
0-15 clear fail: Quality of data (or papers discussed) doubtful; format unconventional.
16-19 borderline fail: Presentation of data (or papers discussed) imprecise/inaccurate.
20-23 pass: Some useful standard data presented (or papers discussed); format and presentation non-ideal.
24-27 merit: Useful data presented (or papers discussed); most important details documented (data from some papers compared); some inconsistencies.
28-33 distinction: High quality results/discussion of publication standard (data from multiple papers compared); format largely adheres to convention.
33.5-40 exceptional: Outstanding high quality results (outstanding quantity of papers found with excellent discussion)/ discussion; substantial project progress made.Presentation (structure, clarity, written style, quality of English). 20%
0-7 clear fail: Lacked any apparent order; English usage very poor. No links between text & schemes.
8-9 borderline fail: Minimal organisation of material; difficult to follow; unclear; poor English.
10-11 pass: Apparent structure into sections; English acceptable; some text to scheme links.
12-13 merit: English good; clear organisation of material into logical section; Good, clear style.
14-16 distinction: Essentially error free; clear logical construction; balanced presentation of message.
17-20 exceptional: Flawless English; clear, logical structure; engaging style; clear developed message.Student checklist: Report:
Page size: A4, portrait
Number of pages: 10 (maximum)
Font size: 11pt (minimum)
Margin: 20 mm all sides
Note: separate title and content pages are not needed. See samples and template.Assessment materials:
Click the link below to see coursework details.
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The coursework is flexible, allowing you to choose any topic relevant to climate change, renewable and sustainable energies e.g. a comprehensive review on a specific topic, a modelling and simulation of a sustainable energy system, a design of a new concept. The sample coursework reports show good examples.
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Opens: Saturday, 1 November 2025, 12:00 AMDue: Wednesday, 26 November 2025, 11:59 PM
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