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Curtin University
Courses Handbook 2013

This handbook contains information for courses and units at Curtin in 2013.
Information for current year courses and units is available at Courses Handbook 2012.

303763 v.6 Bachelor of Engineering (Chemical Engineering), Bachelor of Science (Chemistry)

BEng(Curtin), BSc(Curtin)

Course CRICOS Code: 050336F
Registered full-time Duration for International Onshore Students on student visas: 5 Years

Introduction

The Bachelor of Science (Chemistry) provides students with the knowledge and skills to become professional chemists in analytical, research and industrial laboratories. The Bachelor of Engineering (Chemical Engineering) prepares graduates for professional work in the development, design and operation of processes and plant for the extraction, conversion and recovery of materials. The combination of the two degree programs provides graduates with special abilities to work at the interface between the two disciplines in research and development of new processes and specialised plant.

Course Entry Requirements/Prerequisites

TEE Applicable Mathematics and two out of TEE Calculus/Physics/Chemistry. Well-performed candidates without one of the prerequisite subjects may be accepted and required to undertake an additional program of preparatory studies.

Specific Requirements

The STAT is not acceptable for entry to this course. To satisfy professional requirements, students must complete at least 12 weeks of approved work experience associated with engineering in industry. Students may make their own arrangements for employment or seek the assistance of Careers and Prospective Students Service. As one objective of this work is to make theoretical studies in courses more meaningful, it must be done during the period that the student is undertaking those studies, ie it is to be done in vacations, or in employment as a part-time student, rather than after all course work has been completed. Students are strongly urged to consider the 12 weeks a minimum and to undertake as much additional work experience as they can. Students are required to submit a report covering the work carried out. Further details regarding the work/report required are available from the various engineering schools. A current certificate of successful completion of an approved course in first aid is required before a degree will be awarded.

Note

Well-performed candidates without one of the prerequisite subjects may be accepted and required to undertake an additional program of preparatory studies. Selection is based primarily on Tertiary Entrance Rank.

Recognition of Prior Learning

Applications for recognition of prior learning are assessed on an individual basis.

Duration and Availability

The course is five years full-time study or equivalent part-time study. Two intakes are offered each year, in March and August. Prospective students should note that places may not always be available for the August intake.

Intermediate Awards

There is no intermediate award. However, students may switch to either degree program at the end of Year One with no time loss.

Course Organisation

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.

Professional Recognition

The Royal Australian Chemical Institute, the Institution of Chemical Engineers and the Engineers Australia recognises the course as fulfilling the academic requirements for graduate membership. On obtaining the necessary experience graduates will be admitted to membership of the Royal Australian Chemical Institute and for corporate membership of the Institution of Chemical Engineers and Engineers Australia.

Additional Course Expenses

Students may be expected to purchase a number of textbooks, readers and other vital study materials. In addition, students may also need to contribute some of the cost of consumables, which varies depending on the area of study.

Special Note

The curriculum was revised during 2003 and the revised program will be phased in from 2004 to 2007. Information on the original course structure and units for students who commenced this course prior to 2004 is available by consulting the 2003 Curtin Courses Handbook. Students who commenced prior to and who are continuing in this double degree program from 2003 have the choice to graduate in the chemistry component with either a Bachelor of Science (Applied Chemistry) or Bachelor of Science (Chemistry) award subject to approval by the Head of School.

Course Structure Hrs/Wk Credit
Year 1
313683 v.1   Bachelor of Engineering Pre-Major 200.0
  200.0
Year 2 Semester 1
302240 v.4   Process Principles 227 5.0 25.0
302253 v.5   Process Heat Transfer 228 7.0 25.0
308807 v.1   Fluid Mechanics 230 4.0 25.0
314448 v.1   Principles and Processes in Chemistry 100 6.0 25.0
  100.0
Year 2 Semester 2
302249 v.3   Chemical Engineering Thermodynamics 223 5.0 25.0
302257 v.3   Process Mass Transfer 221 5.0 25.0
313756 v.1   Process Engineering and Analysis 212 5.0 25.0
314450 v.1   Reactivity and Function in Chemistry 120 6.0 25.0
  100.0
Year 3 Semester 1
302263 v.3   Reaction Engineering 325 5.5 25.0
307660 v.4   Engineering Sustainable Development 201 3.0 12.5
312485 v.1   Chemical Energetics and Kinetics 211 7.0 25.0
314001 v.1   Chemical Structure and Spectroscopy 201 7.0 25.0
  SELECT OPTIONAL UNITS TO THE TOTAL VALUE OF:   12.5
  100.0
Year 3 Semester 2
302259 v.3   Process Plant Engineering 322 5.0 25.0
313771 v.1   Process Synthesis and Design 312 5.0 25.0
314006 v.1   Analytical Chemistry 202 7.0 25.0
314007 v.1   Chemical Reactions and Mechanisms 212 6.5 25.0
  100.0
Year 4 Semester 1
302262 v.3   Fluid and Particle Processes 324 5.0 25.0
313758 v.1   Process Modelling and Simulation 314 5.0 25.0
314008 v.1   Analytical Chemistry and Spectroscopy 301 6.5 25.0
314009 v.1   Synthetic Methods in Chemistry 311 6.5 25.0
  100.0
Year 4 Semester 2
302260 v.3   Transport Phenomena 323 5.0 25.0
307668 v.2   Process Instrumentation and Control 328 5.5 25.0
314010 v.1   Chemical Research Methods 362 16.0 50.0
  100.0
Year 5 Semester 1
302269 v.3   Risk Management 421 5.0 25.0
312497 v.2   Chemical Sensing and Measurement 310 6.0 25.0
313760 v.1   Advanced Heat and Mass Transfer Processes 422 5.0 25.0
  SELECT OPTIONAL UNITS TO THE TOTAL VALUE OF:   25.0
  100.0
Year 5 Semester 2
302272 v.3   Process Economics and Management 423 5.0 25.0
302273 v.3   Design Project 499 6.0 50.0
312491 v.1   Materials Chemistry 231 6.5 25.0
  OR  
312494 v.1   Environmental Chemistry 352 10.0 25.0
  100.0
Optional Units (No Year Level Specified) Hrs/Wk Credit
302290 v.4   Petroleum Processing 475 6.0 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
311182 v.2   Wastewater Treatment Processes 302 3.0 12.5
313762 v.1   Advanced Thermodynamics and Reactor Engineering 401 5.0 25.0
313763 v.1   Advanced Modelling and Control 401 5.0 25.0
313836 v.1   Advanced Particle Processes 415 5.0 25.0

Availability

Year Location Period All* Internal Partially Online Internal^ External Fully Online#
2013 Bentley Campus Semester 1   Y      
2013 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.



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