Master of Biopharmaceutical Engineering
Deliver life-saving medicines to the world
Biopharmaceuticals have a critical role to play in improving global health. Recently, the development of mRNA and DNA vaccines to combat the COVID-19 pandemic has brought the work of biopharmaceutical engineers further into the public spotlight. The more effectively and efficiently these powerful vaccines or medicines can be designed and produced, the more lives they will save.
With the biopharmaceuticals market valued at approximately $325.17 billion USD in 2020, professionals with specialist biopharmaceutical engineering training are in demand worldwide. Our Master of Biopharmaceutical Engineering will prepare you to take up the challenge.
What will you do?
Suitable for chemical engineering and biological science graduates, as well as engineers with relevant work experience.
The first year is a blend of face-to-face and online course work. You will gain a comprehensive understanding of biopharmaceutical manufacturing’s technical, management and process engineering aspects.
In year two, you will undertake a significant research project with supervision and mentorship from one of our world-class research-active academics and/or a recognised industry expert. You will emerge with:
- comprehensive awareness of global biopharmaceutical market demands and regulatory requirements
- advanced knowledge and capability in state-of-the-art biopharmaceutical engineering, manufacturing and processing practice, including advanced processing technologies
- the ability to critically reflect on appropriate use of biopharmaceutical principles and techniques, and advise others accordingly
- deep understanding of the industry’s social and environmental impacts
- high-level problem-solving and communication skills.
Where could it take you?
You will graduate ready to play a leading role in cutting-edge biopharmaceutical engineering anywhere in the world. You could help design and/or deliver next-level manufacturing and processing of therapies based on monoclonal antibodies, recombinant proteins, nucleic acids or immune cells. Your work could reduce the toll of infectious diseases, cancer, cardiovascular disease or diabetes. You may even choose to follow the masters course with research towards a PhD.
^ARWU, 2022
Entry Requirements
Choose your applicant type to view the relevant admissions
information for this program.
I am a:
Before applying make sure you understand the eligibility and entry requirements for your chosen degree.
Look out for any prerequisites or assumed knowledge subjects. Some degrees also have additional entry requirements like interviews and auditions.
Domestic applicants
SATAC Code | 3CM230 |
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Deferment | Yes - 2 year |
Intake | February and July |
Selection Criteria
Higher Education Study | A completed Bachelor's degree or equivalent in the field of Science, Engineering, Technology or related backgrounds with a minimum GPA of 4.5. |
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Fees and Scholarships
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Domestic applicants
Indicative annual tuition fees |
Australian Full-fee place: $45,500
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Where the standard duration of the program is less than one year the full cost of the program is displayed.
FEE-HELP
This is an Australian full-fee program. As a domestic student you may be eligible to:
- receive a zero interest government assistance package to cover your course fees and
- use over $100,000 in HELP assistance over your lifetime
Scholarships
Scholarships are not only for high achievers—they are also available to provide students with an equal opportunity to study at university, no matter where they live or what their financial situation might be.
Scholarships are available to both new and continuing students. We encourage students to apply for any scholarships for which they may be eligible.
To browse scholarships offered by the University, visit: University Scholarships
To explore scholarships offered by organisations external to the University, visit: External Scholarships
Careers
Potential careers
Graduates of this program have gone on to roles such as:
Pharmaceutical Engineering; Engineer; Biomedical Engineer; Chemical Engineer; Organic Chemical Engineer
Degree Structure
If undertaking the Research Pathway, students must complete:
- Core courses to the value of 24 units
- Elective courses to the value of 6 units; and
- a major Research Project to the value of 18 units.
Academic Program Rules
The Calendar is a comprehensive handbook of the University's academic program rules.
Example Study Plan
Year 1 |
Semester 1
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Year 2 - Research Project Students must complete all of the following: |
Semester 1
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Electives Students must choose 4 of the following (12 units) |
Semester 1
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Assessment
The University of Adelaide is committed to regular reviews of the courses and programs it offers to students. The University of Adelaide therefore reserves the right to discontinue or vary programs and courses without notice. Please read the important information contained in the disclaimer.
Last updated: Thursday, 12 Sep 2024