Chemical Engineering Project

Course code CHEE4940Units 30Level 4000Faculty of Engineering and Built EnvironmentSchool of Engineering

Students prepare a design for a chemical engineering process which includes aspects related to equipment, location costs and regulatory issues. The design report resulting is equivalent to a feasibility study. Students work in groups, with the objective of establishing communication skills and will need to make deadlines, 'engineering' decisions, perhaps for the first time, and yet must recognise the effect of uncertainties in their decisions on the viability of the design.

Not available in 2014

Previously offered in 2010, 2009, 2008, 2007, 2006
Objectives1. To design a chemical process.
2. To develop appreciation of aspects related to equipment, location costs and regulatory issues.
3. To apply chemical engineering knowledge and project management skills into real situations.
4. To promote professional characteristics and team work activities.
5. To produce a design report equivalent to a feasibility study.
ContentEach group is required to:

1. Prepare a preliminary flowsheet with reasoned (including economic) arguments for the scheme selected and a complete work program.
2. On the basis of the preliminary flowsheet, carry out a chemical engineering design of the proposal in sufficient detail for the preparation of capital and operating costs, and an estimate of the return on the investment.
3. Submit a consolidated design project report. This will be comprised of individual student submissions and will include:

a) A process flow diagram;
b) Material and energy balances, with graphical presentation;
c) Instrumentation and control systems;
d) Materials handling;
e) An operating procedure;
f) Plant layout and simplified 3 dimensional model;
g) Detailed design of a major process component (from each individual student);
h) A summary of possible hazards and safety requirements;
i) An outline of the selected site, with consideration of economic and environmental factors;
j) Construction schedules;
k) Capital and operating costs, and the return on investment.
Replacing Course(s)CHEE4950A
CHEE4950B
TransitionNA
Industrial Experience0
Assumed KnowledgeCompletion of all Year 1-3 courses.
Modes of DeliveryInternal Mode
Teaching MethodsProblem Based Learning
Student Projects
Assessment Items
Other: (please specify)Assessment in this course will consist of individual marks to students in seminar, group involvement, design report and an exam.

Refer to course outline for information
Contact HoursStudent Projects: for 12 hour(s) per Week for Full Term
Compulsory Components
Requisite by EnrolmentBachelor of Engineering.