Bachelor of Engineering (Pharmaceutical) B.E(Pharm)

2009

Program Outline

Pharmaceutical engineers are vital to improving health and the well being of society through the development, large scale production, packaging and delivery of health-care products. Graduates will be capable of directing development, commercialisation and manufacturing of components within the pharmaceutical industry. With a global shortage graduates will command lucrative national and international career opportunities. Pharmaceutical engineers work in industries such as pharmaceutical, nanotechnology, biotechnology, biomedical, food and food additives, nutrition, cosmetics and personal products. Pharmaceutical engineering is extremely rewarding for many different reasons. Working in the health industry as an engineer, speeding up delivery time of drugs to patients, making medications more affordable and more widely available, and designing new drugs to target very specific parts of the human body with fewer side effects. Pharmaceutical engineering is a high-tech program with an innovative, interdisciplinary approach to post-genomic engineering. It takes a sustainable approach, minimising waste and maximising the use of by-products. The degree is concerned with pharmaceutical process improvement. Students learn how to develop drug formulation processes at an industrial scale with high levels of efficacy and how to improve the economical delivery, manufacturing and packaging, and design of pharmaceutical products.

Program Structure

The first two years of the program build a scientific and engineering foundation for the more specialist pharmaceutical engineering courses which predominate in the third and fourth years. The degree is concerned with pharmaceutical process improvement. Students will learn how to develop drug formulation processes at an industrial scale with high levels of efficacy, and how to improve the economical delivery, manufacturing and packaging, and design of pharmaceutical products. Students are required to complete 12 weeks of approved work experience.

Related Programs

• Master of Engineering (Advanced) (Chemical Engineering - Energy & Combustion)
• Master of Engineering (Advanced) (Chemical Engineering - Environment & Sustainability)
• Master of Engineering (Advanced) (Chemical Engineering - Food & BioProcessing)
• Master of Engineering (Chemical)
• Bachelor of Engineering in Chemical Engineering
• Bachelor of Engineering in Petroleum Engineering  
• Bachelor of Engineering in Sustainable Energy Engineering (Chemical)

Admission Information

Domestic applicants

Not a domestic applicant?

2008 CSP IB	30
SATAC Code	324451
2008 CSP TER	80.75
HESS group	General
Annual tuition fees	Commonwealth-supported place: $7,412
Mid-year entry?	Yes
Enquiries	Student Centre

Selection Criteria

Year 12 applicants

You must not have completed more than 4 years full time equivalent university study (96 units). You compete for a place with your Tertiary Entrance Rank (TER).

Prerequisites

SACE Stage 2: Mathematical Studies and TWO of Chemistry, Biology, Physics or Specialist Mathematics IB: either Mathematics (SL grade 5/HL grade 3) and TWO of Biology, Chemistry or Physics (SL grade 5/HL grade 4); or, Mathematics (HL grade 4) and ONE of Biology, Chemistry or Physics (SL grade 5/HL grade 4)

Alternative entry pathways

• Higher Education applicants
  You must have completed at least half a year full time equivalent higher education study. A Grade Point Average (GPA) is calculated for each separate program you have undertaken (apart from some double degree programs where the GPA is combined). You compete on the basis of your best GPA.
• VET applicants
  You must have completed an AQF Diploma or above. Your application will be ranked according to the level of the award.
• Special Entry applicants
  You must meet the following criteria: you must be 21 years or over on January 1st of the year that you will be studying*, you must not hold a completed higher education level award, and if you have been enrolled in a course leading to a higher education level award in the last 3 years, you must not have completed more than 2 years full time equivalent university study. If you meet this criteria, you will be ranked according to your result in the Special Tertiary Admissions Test (STAT). Your STAT result is weighted such that the verbal component contributes 35% and the quantitative component contributes 65% to your overall score. Personal Competencies (PC) and Employment Experience (EE) statements may also contribute to your rank. If you submit a PC or EE statement, and one of these ranks higher than your STAT score, then the highest ranking statement will contribute 50% to your overall rank and the STAT will contribute the remaining 50%. If you do not submit a PC or EE statement, or if the statements have a lower rank than the STAT, then you will compete for a place on the basis of your STAT result only. *The age restriction is 19 years or over if you have completed either the Flinders Foundation course or the UniSA Foundation Studies program or the UniSA Program for Adult Learners. Indigenous applicants may be eligible for entry through the Aboriginal and Torres Strait Islander Access Scheme. See Wilto Yerlo for further information.
• Without formal qualifications?
  You may be eligible for our special access schemes.

How to Apply

SATAC Code: 324451

Apply through SATAC SATAC application dates Application and Admission

International applicants

Not an international applicant?

International TER	80
IELTS Total	6 [more info]
Annual tuition fees	International student place: $23,000
Mid-year entry?	Yes
Enquiries	Student Centre

Selection Criteria

Prerequisites

Chemistry, Mathematics and Physics

Equivalent Scores

International TER	80
IELTS Total Reading Listening Writing	6 5.5 5.5 6

How to Apply

Application information for international students

Important application deadlines for international students

International applicants applying with Australian year 12 results

Not an international applicant applying with Australian year 12 results?

International TER	80
Annual tuition fees	International student place: $23,000
Mid-year entry?	Yes
Enquiries	Student Centre

Selection Criteria

Prerequisites

SACE Stage 2: Mathematical Studies and TWO of Chemistry, Biology, Physics or Specialist Mathematics IB: either Mathematics (SL grade 5/HL grade 3) and TWO of Biology, Chemistry or Physics (SL grade 5/HL grade 4); or, Mathematics (HL grade 4) and ONE of Biology, Chemistry or Physics (SL grade 5/HL grade 4)

Areas of Specialisation

Pharmaceutical Engineering

Study Plans

The study plans given are examples of pathways through this degree. For a complete description, see the program rules.

Level I
Semester 1 CHEM 1101 Foundations of Chemistry IA ^ OR CHEM 1100 Chemistry IA (3 units) MATHS 1011 Mathematics IA * OR MATHS 1013 Mathematics IMA * (3 units) BIOLOGY 1101 Biology I: Molecules, Genes & Cells A (3 units) CHEM ENG 1006 Introduction to Pharmaceutical Engineering (3 units) Semester 2 CHEM 1201 Foundations of Chemistry IB ^ OR CHEM 1200 Chemistry IB (3 units) MATHS 1012 Mathematics IB * OR MATHS 1011 Mathematics IA * (3 units) CHEM ENG 1007 Process Engineering I (3 units) CHEM ENG 1009 Materials I (3 units) * Students who have undertaken SACE Stage 2 Specialist Maths will be required to enrol in Maths IA followed by Maths IB. Students who have not taken SACE Stage 2 Specialist maths will be required to enrol in Maths IMA followed by Maths IA and Maths IB in summer semester to complete the requirements at Level 1. ^ Students with a Subject Achievement score of at least 13 in SACE Stage 2 Chemistry or equivalent must enrol in CHEM 1100 Chemistry IA / CHEM 1200 Chemistry IB. All other students must enrol in CHEM 1101 Foundations of Chemistry IA / CHEM 1201 Foundations of Chemistry IB.
Level II
Semester 1 CHEM ENG 2014 Process Engineering IIA (3 units) CHEM 2510 Chemistry IIA (3 units) CHEM ENG 2012 Principles of Pharmaceutical Engineering (3 units) CHEM ENG 2010 Introduction to Process Simulation (3 units) Semester 2 CHEM ENG 2011 Chemical Engineering Thermodynamics (3 units) CHEM ENG 2018 Process Engineering IIB (3 units) BIOCHEM 2501 Biochemistry II: Metabolism (3 units) CHEM 2540 Medicinal & Biological Chemistry 2 (3 units)
Level III
Semester 1 CHEM ENG xxxx Environmental Engineering & Sustainability (3 units) CHEM ENG xxxx Pharmaceutical Engineering Applications A (3 units) CHEM ENG xxxx Pharmaceutical Engineering Applications B (3 units) PHARM 2002 Drugs, Chemicals & Health (3 units) Semester 2 CHEM ENG xxxx Pharmaceutical Engineering Projects & Expt Design III (3 units) CHEM ENG xxxx Pharmaceutical Plant Design & Process Engineering (3 units) CHEM 3214 Medicinal & Biological Chemistry III (3 units) CHEM ENG xxxxx Advanced Pharmaceutical Unit Operations (3 units)
Level IV
Semester 1 PHARM 3009 Fundamentals of Drug Development (3 units) CHEM ENG xxxx Pharmaceutical Manufacturing (Validation & Regulation) & Packaging Systems (3 units) CHEM ENG 4018 Industrial Economics & Management (3 units) CHEM ENG xxxx Particulate Processes & Colloid Science (3 units) Semester 2 CHEM ENG xxxx Pharmaceutical Plant Design Project (includes lectures on Process Safety & Management) (6 units) CHEM ENG xxxx Pharmaceutical Engineering Research Project (3 units) Elective (3 units)
Electives
LAW xxxx Intellectual Property Law (3 units) MECH ENG 2019 Dynamics & Control I (3 units) CHEM ENG 4008 Biochemical Engineering (3 units) CHEM ENG xxxx Statistical Quality Control (3 units) CHEM ENG xxxx Design of Batch Processes (3 units) CHEM ENG xxxx Materials in Biomedical Applications (3 units) CHEM ENG xxxx Molecular Engineering (3 units)

Career Opportunities

Pharmaceutical Engineers can work in diverse fields such as: 

• Pharmaceutical
• Nanotechnology
• Biotechnology
• Biomedical
• Food & Food Additives
• Nutrition
• Cosmetics & Personal Products

Graduates will be capable of directing development, commercialisation and manufacturing of components within the pharmaceuticals industry. With a global labour shortage, graduates will command lucrative national and international career opportunities. Further graduates of this program will have the flexibility and option to practice as a Chemical Engineer.

Graduate Attributes

The objective of the undergraduate Chemical Engineering programs is to produce graduates with following attributes:

• The ability to apply knowledge of basic science and engineering fundamentals.
• Ability to communicate effectively, not only with engineers but also with the community at large.
• In-depth technical competence in at least one chemical engineering discipline.
• Ability to utilise a systems approach to design and operational performance.
• Ability to function effectively as an individual and in multi-disciplinary and multicultural teams; with the capacity to be a leader or manager as well as an effective team manager.
• Understanding the social, cultural, global and environmental responsibilities of the professional engineer, and the need for sustainable development.
• Understanding of professional and ethical responsibilities and commitment to them; and expectation of the need to undertake lifelong learning, and capacity to do so.
• Ability to focus on the integration of process safety considerations with environmental concerns, waste minimisation, and control system specifications.
• Confidence to tackle real-world problems and issues central to engineering and to work as individuals and cooperatively in multidisciplinary and multicultural teams.
• Enthusiasm and interest for undertaking life-long learning and the continual updating of their engineering skills.

Professional Accreditation

The program is designed to provide the necessary academic requirements for professional membership of Engineers Australia and many overseas engineering bodies.

Program Rules

Faculty of Engineering, Computer and Mathematical Sciences

Further Information

Useful Links

• Engineering Undergraduate Program Information Leaflet
• School of Chemical Engineering
• Undergraduate Scholarships
• Student Centre Enquiry Form