Bachelor of Chemical Engineering (Honours)
This degree is part of the Year 12 Subject Spotlight Early Offer Program
Admission to our undergraduate degree programs usually requires successful completion of a senior secondary school qualification similar to the Higher School Certificate (HSC), the highest educational award in New South Wales schools.
- Semester 1 - 24 Feb 2020
- Semester 2 - 3 August 2020
Face to Face
4 years full-time or part-time equivalent up to 10 years maximum.
- Semester 1 - 24 Feb 2020
- Semester 2 - 3 August 2020
AUD36,195 (indicative annual fee, 2020)
Indicative annual fees are based on a full year full time load (80 units) Find out more about fees
- IELTS overall minimum - 6.0
- IELTS section minimum - 6.0
4 years full-time.
Face to Face
Currently enrolled, continuing students looking for the previous version of this program should refer back to the: Bachelor of Engineering (Honours) (Chemical) (pre 2017)
Program handbook
Description
Chemical engineering is at the forefront of efforts to address the most significant issues facing the international community in the 21st Century: the provision of potable water, overcoming greenhouse gas emissions, and the establishment of clean energy sources. Chemical engineering is concerned with the processing of gases, liquids and solids for the purpose of producing everyday products from toothpaste to steel. Chemical engineers also apply their skills to solving problems in many fields including the emerging fields of biotechnology, microfluids and nanotechnology and the environmental sector.
Program learning outcomes
On successful completion of the program students will have:
- Comprehensive, theory based understanding of engineering fundamentals and/or the underpinning natural and physical sciences as applicable to the engineering discipline
- Conceptual understanding of the mathematics, numerical analysis, statistics, and computer and information sciences which underpin the engineering discipline
- In-depth understanding of specialist bodies of knowledge within the engineering discipline
- Discernment of knowledge development and research directions within the engineering discipline
- Knowledge of contextual factors impacting the engineering discipline
- Understanding of the scope, principles, norms, accountabilities and bounds of contemporary engineering practice in the specific discipline
- Application of established engineering methods to complex engineering problem solving
- Fluent application of engineering techniques, tools and resources
- Application of systematic engineering synthesis and design processes
- Application of systematic approaches to the conduct and management of engineering projects
- Ethical conduct and professional accountability
- Effective oral and/or written communication in professional and lay domains
- Creative, innovative and pro-active demeanour
- Professional use and management of information
- Orderly management of self, and professional conduct
- Effective team membership and team leadership
Details
| Information correct as at | 2 Jul 2020 7:45 pm | ||||||
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| Program code | 40055 | ||||||
| AQF level | Level 8 Bachelor Honours Degree | ||||||
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| Assumed knowledge | Mathematics (Band 5 or above) or equivalent. One science-related subject would also be an advantage (Physics or Chemistry preferred). | ||||||
| Recommended studies | HSC Mathematics Extension 1 or equivalent. Study of one science-related subject would also be an advantage (Physics or Chemistry preferred). | ||||||
| Term type | Semesters | ||||||
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| CRICOS Code | 018788M |
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Admission information
Admission requirements
Admission to this program is available to Australian students, residents and international students. Admission information for Australian students and residents is available online here. Admission information for international students can be found here. During the admission process adjustment factors may be applied to your Selection Rank. Please visit our website to see if you are eligible.
Enrolling in mathematics - Maths placement test
Your degree includes either compulsory or optional courses in maths. To maximise your likelihood of academic success, it is recommended that you select the course which matches your existing knowledge and understanding of maths concepts.
Answer a few questions now to find out what mathematics you should enrol in.
Minimum English language proficiency requirements
All Applicants must demonstrate that they meet the University’s English proficiency requirement. Further information regarding English language proficiency requirements can be found at the English Language Proficiency for Admission Policy here.
Credit transfer
If you wish to apply for credit for studies completed at another institution, or if you are changing programs within the University and wish to transfer your credit to the new program, visit the University's credit website for more information on applying for credit.
Compulsory program requirements
Requirements for qualification of this award include completion of at least 12 weeks of industrial experience of a nature acceptable to the Faculty Board. Students are encouraged to obtain and to report on a substantial block of this experience at one time but several shorter periods not less than 2 weeks duration will be accepted. Further information on industrial experience is available here.
Professional recognition
Engineers Australia
This program is accredited by Engineers Australia, and other affiliated international organisations, through the Washington Accord. Students who successfully complete this program are eligible to apply for membership to Engineers Australia.
Institution of Chemical Engineers, United Kingdom
This program is accredited by the Institution of Chemical Engineers (UK), and many other affiliated international organisations, through the Washington Accord. Students who successfully complete this program are eligible to apply for membership to the Institution of Chemical Engineers.
Academic requirements for program completion
Total units required
320 units
Program duration
4 years full-time or part-time equivalent up to 10 years maximum.
International students studying this program on campus are required to enrol full time to comply with their student visa requirements and complete their study in the standard minimum program duration. International students requiring enrolment advice should review the program plan corresponding to the semester and year of commencement and can contact their Program Advisor at ProgramAdvice@newcastle.edu.au
Program requirements
In the Bachelor of Chemical Engineering (Honours) program, students are required to complete 320 units, which is comprised of:
- 260 units of core courses;
- 20 units of mathematics core courses; and
- 40 units of elective courses.
No more than 120 units can be taken at 1000 level; and at least 40 units must be taken at each level from the 2000 level and above for this program.
Elective Pathway
An elective pathway gives students the opportunity to broaden their skills and knowledge in their own or another engineering discipline; or specialise in areas such as business, maths or science; or undertake study overseas. Please be aware of the 120 unit maximum for 1000 level courses in your program when selecting your elective pathway.
Mathematics Pathways
Students with a Band 3 or 4 in the NSW HSC course Extension 1 Mathematics OR who have completed NSW HSC Extension 2 Mathematics (or their interstate/international equivalents) are able to complete the higher level MATH1210/MATH1220 Mathematical Discovery 1/Mathematical Discovery 2 course in lieu of MATH1110/MATH1120.
Students who do not meet the enrolment requisite for MATH1110 must take MATH1002 Foundational Studies in Mathematics. For these students MATH1002 will count for 10 units of electives with 30 units total remaining. Students undertaking this pathway will need to be aware of the 1000 level unit restrictions when enrolling in their remaining elective courses.
Physics Pathway
Students may count PHYS1205 in lieu of PHYS1210 with program convenor approval.
Additional Information
- Students wishing to undertake this program on a part-time basis are advised to contact the program convenor for advice on optimum selection of courses for part-time enrolment.
- Please note that if you undertake courses that are not in your approved program, you will be liable for additional fees for those courses. This is in addition to the fees associated with your normal program of study.
Program plans
Download a program plan for further details on what you will study. Please refer to the program plan for the year that you commenced or transitioned into this program.
- 2017-2020 Semester 1 Program Plan 188.5 KB
- 2017-2020 Semester 2 Program Plan 188.9 KB
Elective pathways
These pathways have been created to provide guidance for Bachelor of Chemical Engineering (Honours) students wishing to specialise in a study area with their elective courses.
- Business and Legal Studies 213.9 KB Pathways in Accounting, Finance, Entrepreneurship, Leadership and Marketing.
- Creative Industries 156.2 KB Creative Industries and Communication and Media.
- Engineering and Built Environment 1017.7 KB Introductory and advanced topics in multiple engineering and built environment disciplines.
- Humanities 196.0 KB History, Language, Philiosophy, Sociology and Anthropology.
- Mathematics 168.8 KB Discrete Modelling, Signal Processing, Differential Equations and Operations Research.
- Science 214.9 KB Aquatic Environments, Chemistry, Earth Science, Biology and Sustainability.
Transition arrangements
As programs are regularly reviewed and updated, some students may experience changes to their program of study during the course of their enrolment, which may require transition arrangements.
Students affected by changes to their program are advised to review any documentation contained in the "Additional documents" section in the first instance. Any further questions should be directed to the Program Convenor or Program Advisor (ProgramAdvice@newcastle.edu.au).
Program structure
Students are advised to read their program handbook information in conjunction with the program plans for course sequence/enrolment advice. Please refer to the Program Plan for the year that you commenced, or transitioned into, this program - Program Plans are available above.
Advanced course filters
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Core Courses
Complete the following core courses to fulfil the requirements of this program. | |||
| Code | Title | Term / Location | Units |
|---|---|---|---|
| CHEE1000 | Chemical Engineering Principles |
| 10 units |
| CHEM1010 | Introductory Chemistry I |
| 10 units |
| CHEM1020 | Introductory Chemistry II |
| 10 units |
| ENGG1003 | Introduction to Procedural Programming |
| 10 units |
| ENGG1500 | Introduction to Professional Engineering |
| 10 units |
| PHYS1210 | Advanced Physics I |
| 10 units |
| CHEE2315 | Fluid Mechanics for Chemical Engineers |
| 10 units |
| CHEE2325 | Thermodynamics of Chemical Processes |
| 10 units |
| CHEE2695 | Energy Transfer and Technologies |
| 10 units |
| CHEE2825 | Chemical Engineering Laboratory 1 |
| 10 units |
| CHEE2935 | Sustainable Engineering Practices |
| 10 units |
| CHEE2945 | Particle and Resources Engineering |
| 10 units |
| ENGG2500 | Sustainable Engineering Practice |
| 10 units |
| MATH2310 | Calculus of Science and Engineering |
| 10 units |
| CHEE3325 | Chemical Reactor Design |
| 10 units |
| CHEE3425 | Chemical Process Safety |
| 10 units |
| CHEE3735 | Mass Transfer Processes |
| 10 units |
| CHEE3745 | Process Modelling and Separation Processes |
| 10 units |
| CHEE3825 | Chemical Engineering Laboratory 2 |
| 10 units |
| ENGG3500 | Managing Engineering Projects |
| 10 units |
| CHEE4475 | Dynamic Process Simulations and Control |
| 10 units |
| CHEE4945A | Chemical Engineering Design A |
| 10 units |
| CHEE4945B | Chemical Engineering Design B |
| 10 units |
| CHEE4975A | Chemical Engineering Research A |
| 10 units |
| CHEE4975B | Chemical Engineering Research B |
| 10 units |
| ENGG4500 | Engineering Complexity |
| 10 units |
Mathematics Core Courses
Choose either MATH1110 and MATH1120 pathway; or MATH1210 and MATH1220 pathway.
Electives
Students who do not meet the enrolment requisite for MATH1110 must take MATH1002 Foundational Studies in Mathematics. For these students MATH1002 will count for 10 units of electives.
Choose 40 units of courses from a recommended Elective Pathway. An Elective Pathway gives you the opportunity to broaden your skills and knowledge in your own or another engineering discipline; or specialise in areas such as business, maths or science; or undertake overseas study. | 40 units |
Honours
The Bachelor of Chemical Engineering (Honours) uses the WAM as a measure for determining Honours. Please refer to the Bachelor Honours Policy for further detailed information.
Additional information
Additional Information (Prospective Students)
All students can access free academic skills and support provided by Academic Learning Support through the Pathways and Academic Learning Support Centre.
Aboriginal and Torres Strait Islander students can draw on the assistance and support provided by the Indigenous Student Support and Development service through The Wollotuka Institute.
International students
All International Students enrolled in the program will be provided with an orientation to familiarise them with the rules, expectations, facilities and services offered by the University. Please visit our International Students website to find out more about the support services available to international students.
Additional support
AccessAbility provides advice and reasonable adjustments to Students with a medical or health condition or disability. If you require adjustments to undertake your program, contact the Student Support Advisors - AccessAbility before semester or early in the semester. They will work with the Faculty or School to ensure that this happens in a timely manner.
Please note: All students must fulfil the inherent requirements of the programs and courses they are undertaking. While reasonable adjustments can be made, these adjustments cannot compromise academic integrity. It is the student's responsibility to check all the requirements of courses, and consider the effects of any medical condition or disability on their ability to complete course requirements. More information is available online.