Please note: Due to alternative arrangements for teaching and
assessment in place from 18 March 2020 to mitigate against the restrictions in
place due to COVID-19, information shown for 2019/20 may not always be accurate.
Please note: you are viewing unit and programme information
for a past academic year. Please see the current academic year for up to date information.
Unit name |
Design Project 2 |
Unit code |
CENG20015 |
Credit points |
20 |
Level of study |
I/5
|
Teaching block(s) |
Teaching Block 4 (weeks 1-24)
|
Unit director |
Dr. Morgan |
Open unit status |
Not open |
Pre-requisites |
None, but the projects will require students to apply knowledge from a variety of Year 1 units
|
Co-requisites |
Design Methods 2
|
School/department |
Department of Civil Engineering |
Faculty |
Faculty of Engineering |
Description including Unit Aims
This unit gives students experience in:
Applying core engineering knowledge and knowledge of design process and methods in solving real-world, open-ended problems
- CAD modelling and analysis
- Prototype build and test
- Carrying out a full design cycle from problem definition and requirements setting, through concept, embodiment, and detail design, to build and test of a prototype
- Working as part of a creative design team
Through carrying out two open-ended design projects, the aims of the unit are to develop skills in:
Team working and time management
- Self-directed learning
- Creativity
- Design trade-off and compromise
- Prototype build and evaluation
- Design communication
Intended Learning Outcomes
At the end of this course, students should be able to:
- Cope with the freedoms and constraints of a real design problem.
- Organise a team and manage tasks, scheduling and budgets.
- Use a variety of design methods to create a successful solution
- Critically review the issues of design, build and test.
- Communicate design information clearly by oral presentation, drawing/model and written report.
- Reflect on personal and group design activity, including design process and the use of design methods and tools.
- Use a variety of practical tools and techniques to build and test a physical prototype.
Teaching Information
- 11 x 2 hour design sessions in TB1 for students to complete their first design project
- 11 x 2 hour design/build sessions in TB2 for students to complete their second design, build and test project
- Timetabled slots also permit small group feedback and guidance sessions (to be scheduled)
Assessment Information
100% coursework assessment through 2 design projects:
1A) 10%: Concept design of a mechanical assembly to respond to a client brief, including problem definition, concept generation, and down-selection. This exercise will be carried out in groups of four and assessed by oral presentation (ILOs 1-6)
1B) 35%: Concept refinement, embodiment and detail design of the mechanical assembly developed in 1A. This exercise will be carried out in pairs, and assessed by submission of CAD models and drawings, and a design report (ILOs 1-5)
2) 55%: Design, build and test of an electro-mechanical assembly to respond to a client brief. Prototype build must be performed within the limits of available time, budget and facilities. The exercise will be carried out in groups of 4-5 and will be assessed by submission of a design report and associated CAD models and drawings as in Project 1, but also by demonstration and test of the prototyped solution and submission of meeting minutes. Students will also be required to submit an individual design reflection report for assessment (ILOs 1-7).
In both projects, students will be required to manage their own work, working in teams or pairs, to suit the outline timetable provided. Once group marks have been determined, variations will be applied to determine marks for individuals. These variations will be based on peer assessments, meeting minutes and staff observations.
Reading and References
- G. Dieter, L. Schmidt, Engineering Design, McGraw Hill, (various editions in library, TA174)
- K. Ulrich, S. Eppinger, Product Design & Development, McGraw Hill (various editions in library, TS171)
- D. Ullman, The Mechanical Design Process, McGraw Hill (various editions in library, TS171)
- M. French, Conceptual Design for Engineers, Springer (editions 1 and 2 in library TA174)
- H. Crispin, S. Gooch, Managing Engineering Design, 2nd edition, Springer, 2004 (in library TA174)
- N. Cross, Engineering Design Methods, Springer (various editions in library, TA174)
- S. Pugh, Total Design, 2nd edition, Springer, 2004 (in library TA174)
- G. Pahl & W. Beitz, Engineering Design: A Systematic Approach, Springer (various editions in library, TA174)