Curriculum
This page currently only links to our departments' subjects. For a full breakdown of the curriculum, look at the yearbook on the university webpage.
Overview
Here is a diagram showing the relationship between various subjects (click the image to see a larger version):
First year
First semester
CIR 113 Chemical Engineering 113
Second semester
CIR 123 Chemical Engineering 123
Recess training
WWP 121 Workshop Practice 121
Second year
First semester
Second semester
CTD 223 Thermodynamics 223
Third year
First semester
- CBI 310 Biochemical Engineering 310
- CIR 310 Chemical engineering 310
- CJJ 310 Professional and technical communication
- CMO 310 Mass transfer 310
- COP 311 Transfer Processes 311
Second semester
- CIO 320 Chemical Engineering Design 321
- CKN 320 Kinetics 320
- CLB 321 Laboratory 321
- CPN 321 Process Dynamics 320
- MIA 320 Engineering activity and group work 320
Recess training
CPY 311 Practical Training 311
Fourth year
First semester
- CPA 410 Particle technology 410
- CPB 410 Process Control 410
- CRO 410 Reactor Design 410
- CSC 411 Research Project 411
- CIR 412 Chemical Engineering 412
- CPS 410 Process Synthesis 410
Second semester
- CPJ 421 Design Project 421
- CPR 420 Practice 420
- CPS 420 Process analysis 420
- CSC 421 Research Project 421
- CSS 420 Specialisation 420
Recess training
CPY 411 Practical Training 411
Postgraduate
Process Modelling and Control
First Semester
- CBT 732 Multivariable Control System Theory
- CPO 732 Product Design
- CSP 732 Process Control System Development
- CRO 700 Reactor Design
Second Semester
- CIP 732 Process Integration
- CML 732 Model Based Control Laboratory
- CBO 700/707 Multivariable Control System Design
Carbon, Fluorine and Polymer Materials Science
The Carbon, Fluorine and Polymer Materials Science Group’s research focus is on chemical product and process design. Research areas include carbon materials, fluorine polymers and compounds, polymer nanocomposites surfactants and reactive ceramics. Specific projects are determined by the needs of the nuclear, energy, chemical and processing industries. Consequently, appropriate bursaries may be available to selected Masters and PhD students prepared to work on the research topics suggested by industrial sponsors. Please note that such bursaries are awarded on a competitive basis.
A candidate who enrols for the Honours degrees must pass at least 128 course credits. Candidates who opt for the Masters degrees ust, in addition, complete a dissertation of 128 credits. Specialisation in polymer and chemical product design requires that at least 96 of the course credits be chosen from the following 32-credit modules presented in 2011. To facilitate attendance by students that are employed on a full-time basis in industry, lectures are presented in block format. The candidate may also, in consultation with the Head of the Department, choose other course credits required for completion of the degrees from other offerings in the School of Engineering.
First Semester
- CPO 732 Product Design
- CPW 732 Polymer Material Science
- CYM 732 Additive Technology
- CIR 702/707 Chemical Engineering