February, July, October
Chemical engineers invent, develop and design processes that convert raw materials into useful products - with minimal environmental impact.
Chemical engineers are also involved with pollution control, protection of the environment and with energy conservation.
As populations grow and resources and energy reserves decline, the demand for chemical engineers increases.
As a chemical engineer, you can work in a range of industries including the biotechnology, chemical, energy, environmental, food, mineral, nanotechnology, oil, paper, petrochemical and pharmaceutical industries.
In these industries you would most likely work in one of the following roles:
Process engineer - you solve production problems, develop new products, reduce energy usage and the carbon footprint, increase plant safety and efficiency, and oversee plant upgrades and expansions. You work with a team of people in operations, maintenance and business strategy.
Design engineer - you work in a consultancy office, designing new plants for clients, as well as extensions to existing plants. You might design a distillation column today, be sizing a heat exchanger tomorrow, work on safety and environmental protections, or work out how to control each unit of the plant to ensure smooth and reliable operation.
Research and development engineer - you work in a laboratory or a company, and develop new ways to do chemical engineering. You might develop new products or you might work on new catalysts to increase reaction efficiency.
LEVEL ONE
Core Units
General Studies Unit
Elective Units
Select two units from:
Total: 48 points
Application of knowledge in Chemical Engineering is essential for successful scale-up and smooth operation of processes, which leads to the production of value-added items such as
petrochemicals, toothpaste, mobile phones, petrol, paper, instant coffee and etc. In addition, Chemical Engineers have great responsibility to produce design of processes that are both
inherently and extrinsically safe to prevent major incidents.
In level two units, students will gain necessary background in the sciences and engineering fundamentals, covering topics such as
mass transfer, heat transfer, thermodynamics etc. When students proceed to higher levels, they will be exposed to core topics in Chemical Engineering such as separation processes, reaction engineering and many others.
Practical work forms an essential part of many units and management studies are introduced at higher levels (level 3 and 4) to provide students with adequate knowledge to manage
projects. Students are given the opportunity to integrate a period of industrial experience or time at an overseas university with their studies.
To enter Monash University, students must satisfy particular academic, English language and age requirements.
You will need the following entry scores for the Bachelor of Engineering:
Qualification | Score |
Commencing Monash University Foundation Year (MUFY) in 2019/2020* | 76.25%* |
A Level GCE | 11 |
Pearson International Advanced Level | 12 |
ATAR | 87.5 |
Hong Kong Diploma of Secondary Education | 20 |
Indian School Certificate | 76% |
All India Senior School Certificate | 81% |
SMA3, Indonesia | Please refer to https://priorstudy.monash.edu/prior-study/ to find out the entry score |
International Baccalaureate Diploma Program (IB Diploma Program) | 31 |
STPM, Malaysia | 9.4 |
UEC, Malaysia | 3 |
Program Matrikulasi (Matriculation Program), Malaysia | 3.17 |
Ontario Secondary School Diploma | 86.3% |
Sri Lankan General Certificate of Education (Advanced Level) | 12 |
High School Certificate, Vietnam | 8.49 |
UNSW Foundation Studies | 8.25 |
Foundation in Science and Technology, Sunway College | 77.5% |
Monash College Diploma Part 1 ** | 80%** |
Monash College Diploma Part 2 ** | 60%** |
Graduates can work in fields such ass: