Durham University
Programme and Module Handbook

Undergraduate Programme and Module Handbook 2006-2007 (archived)

Module ENGI4093: M ENG RESEARCH AND DEVELOPMENT PROJECT

Department: ENGINEERING

ENGI4093: M ENG RESEARCH AND DEVELOPMENT PROJECT

Type Tied Level 4 Credits 60 Availability Available in 2006/07 Module Cap None. Location Durham
Tied to H100

Prerequisites

  • Two compatible 40 credit modules from Engineering 3A (ENGI3102), Engineering 3B (ENGI3112), Engineering 3C (ENGI3122), Engineering 3D (ENGI3132), Engineering 3E (ENGI3142), Engineering 3F (ENGI3152), PLUS Engineering Applications 3A (ENGI3022) OR Engineering Applications 3B (ENGI3032), OR M.Eng Overseas Year 3.

Corequisites

  • One of: Electronic Engineering 4A (ENGI4013), Information Systems Engineering 4B (ENGI4023), New and Renewable Energy 4C (ENGI4033), Integrated Engineering 4E (ENGI4053), Mechanical Engineering 4F (ENGI4063), Civil Engineering 4G (ENGI4073).

Excluded Combination of Modules

  • Manufacturing Industrial Project (ENGI4111), Manufacturing Research Projects (ENGI4112), Manufacturing with Management 4D (ENGI4043)

Aims

  • This module provides an open-ended challenge for students to investigate a research topic at MEng level, to identify and initiate methods to investigate the topic, to generate data, to analyse this data, to formulate recommendations and to present the work in a written report.
  • It provides the opportunity for the student to carry out a research project at Masters level, contributing to the professional skills required by practising engineers.

Content

  • Technical project work.

Learning Outcomes

Subject-specific Knowledge:
  • Mathematics relevant to the application of advanced engineering concepts.
  • An in-depth knowledge and understanding of a students chosen area of specialisation and an ability to perform critical assessment and review
Subject-specific Skills:
  • to specify, plan, manage, conduct and report on an engineering project
  • to analyse, evaluate and interpret complex engineering data
  • to apply engineering principles to the solution of problems in an industrial context
  • to synthesise data from a variety of sources and apply to the solution of a particular problem
  • to demonstrate an awareness of practical engineering skills
  • to observe and record accurately, data and experimental evidence both in the laboratory and, if appropriate, in the field
  • preparation and delivery of advanced technical reports
  • effective preparation and delivery of technical presentations
  • the competent and safe use of engineering laboratory instrumentation for independent research
  • an understanding of Risk assessment and COSHH
  • the application of engineering principles to the design and manufacture process
  • to write advanced or highly specialised computer programs
  • to use advanced or highly specialised computational tools and packages
  • to be imaginative and innovative in the solution of technical and non-technical problems
Key Skills:
  • capacity for independent self-learning within the bounds of professional practice
  • the effective communication of advanced technical concepts (written, verbal, drawing, sketching etc.)
  • Highly specialised numerical skills appropriate to an engineer
  • Highly specialised use of information technology (IT) relevant to the engineering profession
  • time and resource management
  • advanced problem solving skills

Modes of Teaching, Learning and Assessment and how these contribute to the learning outcomes of the module

  • Individual, independent research and development project.
  • Students are supported by regular consultation with their project supervisor and, when appropriate, by laboratory technicians.
  • Examined through continuous assessment, written report and oral examination.
  • Soon after the start of the project an individual project plan is submitted and which is included in the overall assessment.
  • On completion of the project a substantial report is submitted which demonstrates the student's capacity for individual research, analysis, critical assessment and their ability to select and use advanced or specialised techniques appropriate to their research topic.
  • Each student is also examined by oral examination
  • An overall mark is derived from an assessment matrix which addresses all aspects of the project including effort and planning, initiative and ideas, written report, understanding, oral examination performance and achievement.
  • This module is complemented by an equally weighted programme of lectures, seminars and tutorials which are assessed primarily by written examinations.

Teaching Methods and Learning Hours

Activity Number Frequency Duration Total/Hours
Technical Project 1 399
Preparation and Reading 201
Total 600

Summative Assessment

Component: Project Component Weighting: 100%
Element Length / duration Element Weighting Resit Opportunity
project and oral examination 100%

Formative Assessment:

None


Attendance at all activities marked with this symbol will be monitored. Students who fail to attend these activities, or to complete the summative or formative assessment specified above, will be subject to the procedures defined in the University's General Regulation V, and may be required to leave the University