Module title: Engineering Design

SCQF level: 09:
SCQF credit value: 20.00
ECTS credit value: 10

Module code: MEC09130
Module leader: Norman Harris
School School of Engineering and the Built Environment
Subject area group: Mechanical Materials and Manufacturing Management
Prerequisites

MEC08101 Engineering Design and CAD

2019/0, Trimester 2, Face-to-Face, Edinburgh Napier University
Occurrence: 001
Primary mode of delivery: Face-to-Face
Location of delivery: MERCHISTON
Partner: Edinburgh Napier University
Member of staff responsible for delivering module: John Shackleton
Module Organiser:


Learning, Teaching and Assessment (LTA) Approach:
Learning & teaching methods including their alignment to LOs
The objective is to develop the students’ knowledge and understanding of engineering design, including conceptual, embodiment and detail design stages, through a combination of lectures, tutorials, individual design exercises and group project work. (LO’s 1-4).

Embedding of employability/ PDP/ scholarship skills
Students will be able to analyse and design suitable components and systems for practical situations including engineering design codes and standards.

Assessment (formative and summative)
Formative feedback is provided through tutorial sessions and written feedback on coursework (LOs 1-4). Summative assessment is provided by the individual and group work, and a 2-hour exam (LOs 1-4).

Research/ teaching linkages
The teaching team’s industrial contacts along with scholarly activity in the subject area keep them up to date with the subject material and latest computer software.

Supporting equality and diversity
The style, pace of presentation and lecture notes are continually monitored and reviewed through feedback from students to ensure that they are suitable for all types of students, e.g. part-time, full-time, mature, overseas and those with special needs.

All lecture, tutorial and assessment materials are available as hard copies or in VLE to permit access to a diverse student group. Academic help and support is provided on a weekly basis in the timetabled classes.

Internationalisation
The principles covered in this module apply to the field of engineering design anywhere in the world. All symbols, units, nomenclature and other parameters used in the teaching of this module are of international standards.

Formative Assessment:
The University is currently undertaking work to improve the quality of information provided on methods of assessment and feedback. Please refer to the section on Learning and Teaching Approaches above for further information about this module’s learning, teaching and assessment practices, including formative and summative approaches.

Summative Assessment:
The University is currently undertaking work to improve the quality of information provided on methods of assessment and feedback. Please refer to the section on Learning and Teaching Approaches above for further information about this module’s learning, teaching and assessment practices, including formative and summative approaches.

Student Activity (Notional Equivalent Study Hours (NESH))
Mode of activityLearning & Teaching ActivityNESH (Study Hours)
Face To Face Lecture 13
Face To Face Tutorial 26
Face To Face Seminar 26
Face To Face Centrally Time Tabled Examination 2
Independent Learning Guided independent study 133
Total Study Hours200
Expected Total Study Hours for Module200


Assessment
Type of Assessment Weighting % LOs covered Week due Length in Hours/Words
Practical Skills Assessment 30 1,2,3,4 6 HOURS= 0, WORDS= 2000
Practical Skills Assessment 30 1,2,3,4 12 HOURS= 0, WORDS= 2000
Centrally Time Tabled Examination 40 1,2,3,4 14/15 HOURS= 2, WORDS= 0
Component 1 subtotal: 60
Component 2 subtotal: 40
Module subtotal: 100

Description of module content:

Review of the design process and product design specifications, mechanical systems design, Functional Analysis and function structures, machine elements, engineering design codes and standards, Failure Mode and Effect Analysis, Value Analysis, Design for Manufacture.

Learning Outcomes for module:

On completion of this module you will be able to:
LO1: analyse a set of requirements, produce appropriate design concepts to meet them, and make informed judgements on the adequacy of alternative proposals.
LO2: develop an efficient design embodiment for an engineering system.
LO3: produce detail designs to appropriate standards.
LO4: appropriately select and apply a number of formal engineering design methods

Indicative References and Reading List - URL:

Recommended - PUGH, S. (1990) TOTAL DESIGN: INTEGRATED METHODS FOR SUCCESSFUL PRODUCT ENGINEERING: PRENTICE HALL, 1st ed. - ISBN: 978020141639
Recommended - PAHL, BEITZ, ET AL. (2006) ENGINEERING DESIGN: A SYSTEMATIC APPROACH, 2nd ed. - ISBN: 978184628318
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