ENG1054

2011/2 Provisional Module Catalogue - UNDER CONSTRUCTION & SUBJECT TO CHANGE

Module Code: ENG1054

Module Title: INTRODUCTION TO SYSTEMS ENGINEERING & SUSTAINABILITY

Module Provider: Civil, Chemical & Enviromental Eng	Short Name: SE4103
Level: HE1	Module Co-ordinator: MILLINGTON CA Dr (C, C & E Eng)
Number of credits: 10	Number of ECTS credits: 5

Module Availability

Semester 2

Assessment Pattern

Unit(s) of Assessment

Weighting Towards Module Mark ( %)

Systems Engineering Coursework

50

Sustainability Group Coursework

50

Qualifying Condition(s)

A weighted aggregate mark of 40% is required to pass the module

Module Overview

This integrated module combines conceptual introduction to the fundamentals of systems engineering with examples of industrial application followed by the introduction to the fundamentals of sustainability and its industrial applications for sustainable development

Prerequisites/Co-requisites

Normal Entry Requirements for degree programmes in Chemical Engineering and Chemical and Bio-Systems Engineering

Module Aims

To introduce the students to systems thinking and creative problem solving methodology and their application in fundamental engineering design concepts

To introduce students to the environmental and social constraints that need to be considered by engineers and to put engineering in its global context and thereby to provide students with the conceptual understanding they will need to pursue professional careers.

Learning Outcomes

Upon successful completion of the module you will be able to :

i)        Understand the basic methodology of creative problem solving using the systems approach

ii)       Recognise simple and complex systems, identify sub-systems and be familiar with

      fundamentals of systems integration in engineering process design

iii)     Demonstrate knowledge of the interactions and integration management between

      engineering (process) systems, environmental and bio-systems and socio-economic

      enterprise systems in sustainable development

Module Content

Systems

10 x 1 hour lectures supported by 10 x 1 hour tutorials covering the following

Review of the systems processes and the related tools and the techniques, systems thinking, creative problem solving ; simple and complex applications, problem identification techniques, quantitative decision making tools, systems cube concept and its applications

Introduction to optimisation, systems integration and strategy management, evaluation of system dynamics, engineering risk and benefit analysis

Sustainability

10 X 1 hour lectures having the following themes:

Introducing Sustainability

Total Factor Productivity

Maximum Sustainable Yield

Consumption: Ecological Footprint

Energy systems and sustainability

Economics and sustainability

Assessing sustainability

Practising sustainability

Case study

Methods of Teaching/Learning

20 hours of lectures, 10 hours of tutorials, 1.5 hour exam and 68.5 hours of independent learning

Total Student Learning Time: 100 hours

Selected Texts/Journals

Essential Reading:

Sage AP and Armstrong JE Jr, “Introduction to Systems Engineering”, Wiley, 2000 (ISBN 047 10 27669)

Required Reading:

Buede DM “The Engineering Design of Systems : Models and Methods, Wiley, 1999 (ISBN 047 12 82251)

Azapagic A, Perdan S and Clift R (eds.), Sustainable Development in Practice: Case Studies for Engineers and Scientists, Wiley, 2004.

Kiely G, Environmental Engineering, McGraw-Hill, 1997. (ISBN 00770 91272)

Morse, S. (2010). Sustainability: A biological perspective. Cambridge University Press, Cambridge, UK. 288 pages. ISBN 978 0 52183 533 6. Copies will be made available in the restricted loan section of the library.

Short and targeted articles will be distributed during the semester

Recommended Reading:

None

Last Updated

30th September 2010

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