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Throughout the 2020-21 academic year, we will be adapting the way we teach and assess your modules in line with government guidance on social distancing and other protective measures in response to Coronavirus. Teaching will vary between online and on-campus delivery through the year, and you should read guidance from the academic department for details of how this will work for a particular module. You can find out more about the University’s overall response to Coronavirus at: https://warwick.ac.uk/coronavirus.

ES9ZE-15 Sustainable Energy Technologies Group Project

Academic year
20/21
Department
School of Engineering
Level
Taught Postgraduate Level
Module leader
Chris Purssell
Credit value
15
Module duration
10 weeks
Assessment
100% coursework
Study location
University of Warwick main campus, Coventry
Introductory description

Sustainable Energy Technologies Group Design

Module aims

The design projects aim to give students experience of working within a team, and parallels the way engineers often work in industry. Students will integrate their knowledge and understanding in order to specify and solve a substantial Sustainable Energy Technologies problem (or user need), through the creation and development of a product, process or system. The project also allows students to develop their understanding of project management, time management, ethics, sustainability, The design projects aim to give students experience of working within a team, and parallels the way engineers often work in industry. Students will integrate their knowledge and understanding in order to specify and solve a substantial Engineering problem (or user need), through the creation and development of a product, process or system. The project also allows students to develop their understanding of project management, time management, ethics, sustainability, health and safety, risk, regulatory requirements, and intellectual property rights. Students will develop effective communication and leadership skills.

Outline syllabus

This is an indicative module outline only to give an indication of the sort of topics that may be covered. Actual sessions held may differ.

Projects will vary in nature. Many will be ‘design and make’ type projects. In this case small unit manufacture of prototype solutions may be possible and if required will be specified as part of the project briefing. Other projects will be more focussed on design and proof of concept stage, and might include no realization of the design in a physical form. Yet more projects may be evaluation exercises using proprietary software. Others may be restoration or re-commissioning projects, whilst others will be design evolutions of high-technology / high-complexity systems

In each case the project will normally involve groups of 6. , Projects will have industrial backing where possible or at least be able to demonstrate industrial applicability.

Students will be encouraged assume the positions of design engineers, development engineers, production engineers, test engineers, project managers, etc. in the delivery of the project. Each student will have an agreed responsibility within their own specialisation, but will have to interact with other disciplines and hence appreciate the complexities of complete systems from both the technical and organisational point of view. This will develop the student engineer’s ability to think and communicate in terms of integrated systems.

Member(s) of staff will provide guidance on technical and organisational matters. Regular meetings take place with minutes recorded by individuals in logbooks to provide a record of decisions and actions between meetings/seminars.

Learning outcomes

By the end of the module, students should be able to:

  • Create and develop a product, process or system to solve a complex Sustainable Energy Technologies problem and overcome technical challenges by integrating existing and new technical knowledge and experience to produce an innovative solution to the satisfaction of a customer/end user
  • Critically evaluate relevant data (including incomplete and uncertain data) so as to apply engineering analysis and advanced problem solving skills in order to quantify the impact of these findings on the solution and, using theory or research, to mitigate deficiencies.
  • Evaluate environmental and societal impact of design solutions (to include the entire life cycle of the product or process) and minimise adverse affects.
  • Consider the wider context of the project, including risk, health and safety, ethics, environmental and sustainability limitations, intellectual property rights, codes of practice and standards, product safety and liability(as appropriate), to inform the project solution.
  • Plan and manage a project from the design process to a deliverable outcome, including managing a budget and costs, and understand the commercial, economic and social environment of the project.
  • Demonstrate effective communication, both verbal and written, to a technical and non-technical audience
  • Demonstrate the ability to work as a member of a team to achieve shared objectives and project management goals within the scope of the project, then monitor and adjust a personal programme of work on an on-going basis
Subject specific skills

Ability to conceive, make and realise a component, product, system or process
Ability to be pragmatic, taking a systematic approach and the logical and practical steps necessary for, often complex, concepts to become reality
Ability to be risk, cost and value-conscious, and aware of their ethical, social, cultural, environmental, health and safety, and wider professional engineering responsibilities
Ability to seek to achieve sustainable solutions to problems and have strategies for being creative and innovative

Transferable skills

Exercise initiative and personal responsibility, including time management, which may be as a team member or leader
Be professional in their outlook, be capable of team working, be effective communicators, and be able to exercise responsibility and sound management approaches.
Communicate (written and oral; to technical and non-technical audiences) and work with others
Overcome difficulties by employing skills, knowledge and understanding in a flexible manner
Ability to formulate and operate within appropriate codes of conduct, when faced with an ethical issue

Study time

Type Required
Lectures 10 sessions of 2 hours (13%)
Private study 130 hours (87%)
Total 150 hours
Private study description

Students are expected to contribute a total of 130 hours to the project in addition to the 20 hours of facilitated seminars leading to a total of 150 hours work per student

Costs

No further costs have been identified for this module.

You must pass all assessment components to pass the module.

Assessment group A
Weighting Study time
Group Report 70%

70% Report (max 40 pages), including peer assessment

Group Presentation 15%

Group poster presentation

Individual viva 15%

15% individual logbook and viva to determine contribution and fulfilment of learning outcomes.

Feedback on assessment

Verbal formative feedback during group meetings with Project Director
Written feedback on the formal presentation
Written feedback on report

There is currently no information about the courses for which this module is core or optional.