Skip to content
Curtin University
Courses Handbook 2014

This handbook contains information for courses and units at Curtin in 2014.
Information for the previous year's courses and units is available at Courses Handbook 2013.

304168 v.3 Bachelor of Engineering (Chemical Engineering), Bachelor of Science (Extractive Metallurgy)

BEng(Curtin) OR BEng(Hons)(Curtin), BSc(Curtin)

Course CRICOS Code: 043753C
Registered full-time Duration for International Onshore Students on student visas: 5 Years


Course Overview

Bachelor double degrees prepare students to develop broad and coherent knowledge and skills in more than one discipline for professional work and further learning corresponding to AQF level 7 qualifications.


This course covers the development, design and operation of processes and plant for the extraction, conversion and recovery of materials. A great variety of process industries serve the needs of society. Among the more familiar are petroleum refining, gas processing, petrochemical and polymer production, fertiliser manufacture, cement and lime production, minerals and metals extraction and refining, paper and board manufacture, sugar refining, food processing, production of industrial and fine chemicals.


Professional Recognition

The Bachelor of Engineering in Chemical Engineering has full recognition by Engineers Australia and the Institution of Chemical Engineers. To qualify for the grade of Corporate Member of these institutions, graduates are required to complete a minimum offour years approved experience following the award of the Bachelor of Engineering degree. Further information regarding membership of professional institutions can be obtained from the Department of Chemical Engineering, or from Engineers Australia or theInstitution of Chemical Engineers in Australia. The Australasian Institute of Mining and Metallurgy recognises the science course for admission to membership.


Additional Course Expenses

Students may be expected to purchase a number of textbooks and other essential study materials.



Course Entry and Completion Details

Applicants are required to meet University academic and English language entry standards; details are provided at http://futurestudents.curtin.edu.au and include flexible entry pathways.


Specifically applicants require TEE Applicable Mathematics and at least two out of TEE Calculus, Physics and Chemistry. OR at least three of the following four : Mathematics 3C/3D, Mathematics Specialist 3C/3D, Physics 3A/3B and Chemistry 3A/3B. Engineering Studies 3A/3B desirable.Well-performed candidates without one of the prerequisite subjects may be accepted and required to undertake an additional program of preparatory studies. STAT is not accepted for mature age entry but may be used to demonstrate English Competence requirements.


Credit for Recognised Learning

Applications for credit towards a course are assessed on an individual basis. Credit reduces the amount of learning required to complete the course and may be granted for formal education qualifications, non-formal learning from non-award programs of study and informal learning through work experiences. Further information can be found at http://futurestudents.curtin.edu.au.


Pathway to Further Study

Graduates with a bachelor degree may qualify for entry to some graduate certificates, graduate diplomas and master by coursework degrees. Graduates with a bachelor degree with honours may also qualify for entry to a master or doctorate by research. For further details, see the University website http://curtin.edu.au.


Specific Course Completion Details

To satisfy requirements, students must complete at least 12 weeks or equivalent of exposure to professional practice. This requirement can be met by appropriate work experience. Students must demonstrate that they have met these requirements by using a formal log book to record their professional experiences during this period of their degree study. Students are required to complete Senior First Aid training and provide evidence of it to the Faculty for graduation.



Course Organisation

Bachelor double degrees include a combined degree study program leading to two awards. The duration of the double degree may vary among disciplines, but typically requires less time to complete than if the two undergraduate degrees were studied separately.


Students enrolled in the double degree program may elect to transfer to a single degree course in one of the two disciplines. In this event, the relevant Head of Department shall determine the amount of credit to be transferred to the single degree. The structure of Engineering, Science and Computing owned double degrees is such that students have the option of completing the component Engineering, Science or Computing degree in the minimum time, provided they elect to change from the double degree within the first two semesters of the course.



Duration and Availability

Students are based for the first three years at the Bentley Campus, for their fourth year at the Kalgoorlie Campus, and for the fifth year at the Bentley Campus (the year at Kalgoorlie Campus could be undertaken in the third year of the course). The opportunity to spend two semesters at a major regional centre for mineral processing and extractive metallurgy provides valuable experience for students. In certain cases, the need to complete appropriate bridging and special course units may result in extension of studies beyond the regular five-year term.


Location and delivery Mode


Year Location Period All* Internal Partially Online Internal^ External Fully Online#
2014 Bentley Campus Semester 1   Y      
2014 Bentley Campus Semester 2   Y      

The information displayed above refers to study periods and locations where the course is available for first time entry. Students are normally only offered or admitted to a course once.

* The course itself may not be available either solely internally or externally but individual units may be offered in either or both of those modes. Prospective students should contact the Course Coordinator for further information.

^ Course and associated units are offered in this mode permitting International Onshore student enrolment.

# Course and associated units are offered in this online only mode and DO NOT permit International Onshore student enrolment.




Course Structure Hrs/Wk Credit
Year 1
313683 v.1   Bachelor of Engineering Pre-Major 200.0
  200.0
Year 2 Semester 1
308807 v.1   Fluid Mechanics 230 4.0 25.0
302240 v.4   Process Principles 227 5.0 25.0
314448 v.1   Principles and Processes in Chemistry 100 6.0 25.0
303138 v.4   Mining and Metallurgy 231 4.0 25.0
  100.0
Year 2 Semester 2
311693 v.1   Metallurgical Processes 252 4.0 12.5
313756 v.1   Process Engineering and Analysis 212 5.0 25.0
302249 v.3   Chemical Engineering Thermodynamics 223 5.0 25.0
314450 v.1   Reactivity and Function in Chemistry 120 6.0 25.0
11317 v.5   Resource Geology 112 6.0 12.5
  100.0
Year 3 Semester 1
11971 v.3   Metallurgical Chemistry 351 5.0 25.0
303119 v.2   Process Engineering 451 4.0 25.0
303116 v.2   Mineral Processing 351 6.0 25.0
310052 v.3   Socio-Environmental Aspects of Mining 331 4.0 25.0
  100.0
Year 3 Semester 2
310542 v.2   Materials Handling 354 3.0 12.5
12511 v.3   Mining and Society 232 3.0 12.5
310137 v.4   Process Mineralogy 252 5.0 25.0
11974 v.4   Hydrometallurgy 352 5.0 25.0
303117 v.2   Mineral Processing 352 7.0 25.0
  100.0
Year 4 Semester 1
302253 v.5   Process Heat Transfer 228 7.0 25.0
302262 v.3   Fluid and Particle Processes 324 5.0 25.0
302263 v.3   Reaction Engineering 325 8.0 25.0
307660 v.4   Engineering Sustainable Development 201 3.0 12.5
  SELECT OPTIONAL UNITS TO THE TOTAL VALUE OF:   12.5
  100.0
Year 4 Semester 2
307668 v.2   Process Instrumentation and Control 328 5.5 25.0
313771 v.1   Process Synthesis and Design 312 5.0 25.0
302257 v.3   Process Mass Transfer 221 5.0 25.0
302259 v.3   Process Plant Engineering 322 5.0 25.0
  100.0
Year 5 Semester 1
313758 v.1   Process Modelling and Simulation 314 5.0 25.0
313760 v.1   Advanced Heat and Mass Transfer Processes 422 3.0 25.0
313791 v.1   Research Project 411 5.0 25.0
302269 v.3   Risk Management 421 5.0 25.0
  100.0
Year 5 Semester 2
302273 v.3   Design Project 499 6.0 50.0
302272 v.3   Process Economics and Management 423 5.0 25.0
313792 v.1   Research Project 412 9.0 25.0
  SELECT 1 OPTION  
  100.0
Optional Units (No Year Level Specified) Hrs/Wk Credit
311182 v.2   Wastewater Treatment Processes 302 3.0 12.5
307446 v.3   Biochemical Engineering 471 4.0 12.5
310756 v.3   Fundamentals of Air Pollution Control 313 3.0 12.5
302290 v.4   Petroleum Processing 475 6.0 12.5
314757 v.1   Computational Fluid Dynamics 477 4.0 25.0



Further Information

For more information about the course, please contact the Faculty of Science and Engineering on telephone (08) 9266 4600, email ssse@curtin.edu.au, or visit our website: http://scieng.curtin.edu.au


Course Structure Disclaimer

Curtin University reserves the right to alter the internal composition of any course to ensure learning outcomes retain maximum relevance. Any changes to the internal composition of a course will protect the right of students to complete the course within the normal timeframe and will not result in additional cost to students through a requirement to undertake additional units.




Handbook Disclaimer

The online handbook is the repository of Curtin University of Technology (“Curtin”) course information. While Curtin makes all reasonable endeavors to keep its online courses handbook up-to-date, information within this website is subject to change from time to time. Curtin reserves the right to change the contents and/or the method of assessment, to change or alter tuition fees of any unit of study, to withdraw/any unit of study or program which it offers, to impose limitations on enrolment in any unit or program, and/or to vary arrangements for any program without notification via the website.

For course overviews and enrolment information please visit our future students website.