Semester 2

Unit(s) of Assessment	Weighting Towards Module Mark (%)
Coursework (plant control exercise, contribution to weekly meeting with supervisors)	10%
Process Design Report	90%
Qualifying Condition(s)  A weighted aggregate mark of 40% is required to pass the module

This module is one of a suite of modules covering all aspect of chemical engineering process and equipment design.  The design of a chemical process paying appropriate consideration to sustainability, economic and operational feasibility and engineering practicality is a key skill for chemical engineers and requires a robust understanding of all aspects of Chemical Engineering.  Working in groups with other MEng students from the Chemical & Bio-Systems Engineering programme you will design a chemical process working from a comprehensive brief.

To provide students with:

·         a systematic understanding and critical awareness of process design and its importance in chemical industry

·         the experience of integrating the design methods and fundamental analysis taught in earlier modules by completing an overall plant process design in cooperation with a small group other MEng students

·         a comprehensive understanding of the complexity of interactions which must be reconciled during the design process

On completion of this module, you will be able to:

·         confidently analyse the factors involved in completing the mass and energy balances of a complex chemical process, the principles of plant start-up and shut-down and the health and safety considerations inherent to the process design

·         confidently specify materials of construction of equipment items and analyse how these may affect the selection of process parameters;

·         work effectively as a member of a design team converting a design brief into a feasible process design

·         effectively analyse the interaction between process requirements and practical equipment design

·         identify and correctly interpret the essential Safety and Health topics related to process plant design and operation

Required reading 

Coulson JM, Richardson JF & Sinnott RK, Chemical Engineering, Volume 6, Butterworth-Heinemann, 1996 (ISBN 07506 25570X)

Perry RH & Green DW, Chemical Engineer's Handbook, 6^th ed, McGraw-Hill, (ISBN 00704 94787)

Recommended background reading

Skelton B, Process Safety Analysis, Institution of Chemical Engineers, 1996.  (ISBN 0 8529 5378 X)

Kroschwitz JI, Encyclopaedia of Chemical Technology (Kirk-Othmer), 4^th ed, Wiley, 1992.  (ISBN 0 4715 26$$ $)

Ludwig EE, Applied Process Design for Chemical and Petrochemical Plants, 1-3, 2^nd ed, Gulf Pub, 1977.  (ISBN 0 8720 1755 9, ISBN 0 8720 1753, ISBN 0 8720 1754 0)

Ulrich GD, Guide to Chemical Engineering Process Design and Economics, Wiley, 1984.  (ISBN 04710 82767)

Kern DQ, Process Heat Transfer, McGraw-Hill, 1950.  (ISBN 00703 41907)

Strelzoff S, Technology and Manufacture of Ammonia.

Recommended Reading :

Additional reading will be specified as appropriate.