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Programme Specifications

Programme Specification

MEng (Hons) Chemical Engineering with Management

Academic Year: 2020/21

This specification provides a concise summary of the main features of the programme and the learning outcomes that a typical student might reasonably be expected to achieve and demonstrate if full advantage is taken of the learning opportunities that are provided.

This specification applies to delivery of the programme in the Academic Year indicated above. Prospective students reviewing this information for a later year of study should be aware that these details are subject to change as outlined in our .

This specification should be read in conjunction with:

  • Summary
  • Aims
  • Learning outcomes
  • Structure
  • Progression & weighting

Programme summary

Awarding body/institution 黑料网
Teaching institution (if different)
Owning school/department Department of Chemical Engineering
Details of accreditation by a professional/statutory body

Institution of Chemical Engineers

Final award MEng/MEng + DIS/DIntS/DPS
Programme title Chemical Engineering with Management
Programme code CGUM08
Length of programme The duration of the programme is either 8 semesters, or 10 semesters if students undertake industrial training leading to the additional award of the Diploma in Industrial Studies, Diploma in Professional Studies, or study at a University abroad leading to the award of the Diploma in International Studies. These occur between Parts B and C, or Parts C and D
UCAS code H8N2/H8NF
Admissions criteria

Date at which the programme specification was published Sun, 02 Aug 2020 21:21:50 BST

1. Programme Aims

  • To prepare graduates for professional careers in the process industries, primarily as process engineers in leading managerial roles.
  • To enable them to understand, solve, and handle technical problems in general to a high level, and to be able to take advantage of further education, research and experience throughout their careers.
  • To develop incoming students’ knowledge, skills, understanding and attitudes to those of more able professional chemical engineers with management ability.
  • To impart in-depth knowledge of chemical engineering principles through the underlying mathematics, science and associated technologies.
  • To provide knowledge and understanding of leading edge subjects within modern chemical engineering and of management topics of relevance to the process industries.
  • To develop the ability to reason critically, collect, analyse, evaluate and synthesise data to facilitate optimisation, gather and use information, apply concepts and methodologies.
  • To develop skills to a high level, especially in (a) drawing rational conclusions from experimental investigations, (b) information technology, including the use of calculation and design packages, computer graphics and word processing, and (c) communication, both oral and written, and (d) applying managerial techniques.
  • To impart thorough understanding of process principles through problem solving, projects and assignments, particularly process design exercises.
  • To encourage professional attitudes through the study of the human, environmental, business and economic implications of technology, through team work, and through working with established professionals.

2. Relevant subject benchmark statements and other external reference points used to inform programme outcomes:

  • QAA Benchmark statements for Engineering

  • Framework for Higher Education Qualifications

  • Accreditation of Chemical Engineering Degrees: A guide for university departments and assessors, IChemE

  • UK-SPEC

3. Programme Learning Outcomes

3.1 Knowledge and Understanding

On successful completion of this programme, students should be able to demonstrate good to excellent (as defined in the QAA Benchmark statements for Engineering) knowledge and understanding of: 

  1. Mathematics, science and engineering principles (including IT and technically leading subjects) relevant to the Process Industries.
  2. Managerial, economic and business evaluation principles relevant to engineering and engineers including entrepreneurship.
  3. More in-depth concepts, principles and theories in subjects of the student's own choice.
  4. The role of the engineer in society and as a team player, and the constraints within which their engineering and managerial judgement will be exercised.
  5. The professional and ethical responsibilities of engineers, including those in leading roles.
  6. The international role of the engineer and the impact of engineering solutions in a global context.
  7. The detailed principles of process selection and design.

3.2 Skills and other attributes

a. Subject-specific cognitive skills:

On successful completion of this programme, students should be able to:

 8. Demonstrate significant and wide ranging ability in identifying, defining and solving engineering problems using mathematical and modelling techniques with due cognisance of science and engineering principles.

9. Show strong ability in the selection, design and optimisation of process engineering systems and processes.

10. Recognise how to ensure safe operation of apparatus and plant whilst exercising judgement of economic and, where appropriate, managerial and business constraints.

11. Evaluate and integrate information and processes through individual and team project work; communicating articulately in the process.

12. Show strong ability to plan an experiment (or project), analyse and interpret data recorded in the laboratory and on processes to deliver supported recommendations and/or solutions.

b. Subject-specific practical skills:

On successful completion of this programme, students should be able to:

13. Use laboratory and pilot equipment well and safely, including advanced analytical apparatus.

14. Observe and record data in the laboratory and on processes.

15. Use computer packages appropriate to process engineering to a high level. Integrate them extensively with project, laboratory and design work.

16. Prepare technical reports, technical research papers and reviews to a level that demonstrates initiative and in-depth thinking. Research the material(s) required to produce these.

17. Give technical presentations, with IT multimedia whenever possible.

18. Understand technical drawings. Prepare block, flow, piping and instrumentation, and mechanical drawings.

19. Apply knowledge and skills to a high level in a professional environment through projects and training in industry (DIS/DIntS students and PDP in industry students only).

c. Key transferable skills:

On successful completion of this programme, students should be able to:

20. Communicate in a detailed and effective using written, oral, graphical and presentational skills – sorting data in the most appropriate manner.

21. Use IT effectively (e.g. process simulator, word processor, spreadsheet, presentation, CAD, email, www and specialist software) and integrate the benefits well with communication and reporting.

22. Use mathematical, engineering and management skills appropriate to a well qualified professional engineer.

23. Work independently to a high level.

24. Work in a team environment, taking a leading role if required.

25. Manage workloads, people and time effectively and efficiently.

26. Work with limited or contradictory information whilst being able to fully justify conclusions that are drawn.

4. Programme structure

4.1       PART A - Introductory Modules

            (i)  Compulsory modules - total modular weight 110

Code

Title    

Modular Weight

Semester

CGA001

Fluid Mechanics I

10

1

CGA002

Stagewise Processes

10

2

CGA004

Chemical Engineering Laboratory

20

1 & 2

CGA005

Chemical and Biochemical Processes

10

1

CGA006

Heat Transfer

10

2

CGA007

Process Balances

20

1 & 2

CGA008

Thermodynamics I

10

1

MAA308

Mathematical Methods in Chemical Engineering

20

1 & 2

             (ii)  Optional Modules - total modular weight 10

One from

Code

Title    

Modular Weight

Semester

 

Choice of Applied Languages

Current details available from the University-Wide Language Programme

10

2

 

CGA013

Chemical Engineering and Society

10

2

4.2       PART B - Degree Modules

            Compulsory modules - total modular weight 120

Code

Title

Modular Weight

Semester

CGB001

Process Design and Safety

20

1 & 2

CGB012

Mass Transfer and Separations

20

1 & 2

CGB013

Thermodynamics II

10

1

CGB014

Instrumentation and Control

10

1

CGB017

Reaction Engineering I

10

2

CGB018

Plant Engineering

10

2

CGB019

Particle Technology

10

2

CGB020

Process Systems Engineering

10

2

CGB022

Fluid Mechanics II

10

1

WSC204

Management of the Human Resource

10

2

4.3         PART I – Optional Placement Year

 One from

Code

Title

Modular Weight

Semester

CGI001

Diploma in Industrial Studies (DIS)

120

1&2

CGI002

Diploma in International Studies (DIntS)

120

1&2

CGI003

Diploma in Professional Studies (DPS)

120

1&2

4.4        PART C - Degree Modules

Compulsory modules - total modular weight 120

Code

Title

Modular Weight

Semester

BSC520

Business Systems

10

1

BSC522

Entrepreneurship & Innovation

10

1

CGC842

Environmental Protection and Pollution Control

10

1

CGC002

Professional Development Project

40

2

CGC044

Literature Review

10

2

CGC047

Chemical Process Control

10

1

CGC051

Transfer Processes

10

1

CGC052

Reaction Engineering II

10

1

CGC053

Process Economics and Project Management

10

1

4.5          Part D - Degree Modules

(i)  Compulsory modules - total modular weight 60

Code

Title

Modular Weight

Semester

CGD045

Individual Process Design Project

20

2

CGD046

Team Process Design Project

30

2

CGD068

Advanced Process Systems Engineering

10

1

(ii)  Optional Modules - total modular weight 60

Choose 4 from 7

Code

Title

Modular Weight

Semester

CGD082

Advanced Separations

15

1

CGD060

Mixing of Fluids and Particles

15

1

CGD062

Downstream Processing

15

1

CGD069

Advanced Biochemical Engineering

15

1

CGD070

Clean Chemical Energy and Sustainability

15

1

CGD059

Chemical Product Design

15

1

CGD083

Process Intensification

15

1

 

5. Criteria for Progression and Degree Award

In order to progress from Part A to Part B, from Part B to C, from C to D and to be eligible for the award of an Honours degree, candidates must not only satisfy the minimum credit requirements set out in Regulation XX but also:

- Candidates will be allowed to progress from Part A to Part B if in the Part A assessment they accumulate at least 100 credits in accordance with Regulation XX, and normally a minimum overall average of 60%.

- Candidates will be allowed to progress from Part B to Part C if in the Part B assessment they accumulate at least 100 credits in accordance with Regulation XX, and normally a minimum overall average for Part B of 55%.

- Candidates will be allowed to progress from Part C to Part D if in the Part C assessment they accumulate at least 100 credits in accordance with Regulation XX, and normally a minimum overall average of 50%.

- In order to qualify for the award of an Honours Degree, candidates will be required to obtain a minimum of 100 credits in Part D in accordance with Regulation XX.

Any candidate who fails to qualify for the award of the MEng Honours Degree in Part D may, at the discretion of the Examiners, be awarded a BEng in Chemical Engineering with a classification based on the candidate’s performance in Parts B and C (using modular weightings appropriate to the BEng programme) and provided that an Individual Process Design Project is completed.

Provision will be made for candidates who have the right of reassessment in Parts A, B, C and D of the programme to undergo reassessment in the University’s special assessment period.

6. Relative Weighting of Parts of the Programme for the Purposes of Final Degree Classification

The candidate's final degree classification will be determined on the basis of their performance in degree level module assessments in Parts B, C and D in accordance with the scheme set out in Regulation XX.  The average percentage marks of each Part will be combined in the proportions Part B 20 : Part C 40 : Part D 40 to determine the final degree classification.

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