Bachelor of Engineering (Honours) and Bachelor of Pharmaceutical Science - 2019

Honours - Course

Commencement year

This course entry applies to students commencing this course in 2019 and should be read in conjunction with information provided in the 'Faculty information' section of this Handbook by the Faculty of Pharmacy and Pharmaceutical Sciences.

Other commencement years for this course: 2018, 2017 and 2016

Unit codes that are not linked to their entry in the Handbook are not available for study in the current year.

Course code

E3008

Credit points

240

Abbreviated title

BE(Hons)/BPharmSc

CRICOS code

058485F

Managing faculty

Engineering

Partner faculty

Pharmacy and Pharmaceutical Sciences

Admission and fees

Australia

Course type

Specialist/Specialist
Bachelor/Bachelor

Standard duration

5 years FT, 10 years PT

You have a maximum of 10 years to complete this course.

Mode and location

On-campus (Clayton)

Engineering studies are completed at Clayton; pharmaceutical science studies are completed at Parkville.

Award

Bachelor of Chemical Engineering (Honours)

Bachelor of Pharmaceutical Science

Alternative exits

You may exit the double degree course with the award for one of the single degrees. Refer to 'Alternative exits' entry below for further requirements and details.

Description

Combining chemical engineering with pharmaceutical science, this double degree course is unique in Australia and rare worldwide.

Chemical engineers can design, run and troubleshoot production facilities, but their training typically excludes the skills to develop pharmaceutical and related products. Similarly, formulation scientists can invent and test new products such as pharmaceuticals, food and cosmetics, but they lack the know-how to manage the product process beyond the laboratory stage.

This course combines chemical engineering and pharmaceutical science to produce professionals capable of covering the full spectrum of the pharmaceutical product design and development process.

Pharmaceutical engineers work in all aspects of the design and development process, from experimenting with innovative formulations to manufacturing commercialised products. A pharmaceutical engineer might:

  • design, develop and improve industrial processes and equipment for large-scale chemical and pharmaceutical manufacturing
  • plan and test methods of manufacturing
  • develop methods for the treatment of by-products
  • devise production processes that are safe, efficient, profitable and environmentally sound
  • research naturally occurring chemical reactions and copy these processes for society's benefit
  • develop and implement cleaner production technologies
  • design, develop and use new materials.

NOTE: For learning outcomes and other relevant information of this double degree, refer to the single degree entries:

  • E3001 Bachelor of Engineering (Honours)
  • P2001 Bachelor of Pharmaceutical Science

Requirements

The requirements below detail what you must study in order to complete this double degree course and receive the awards.

The course progression mapcourse progression map (https://www.monash.edu/engineering/current-students/enrolment-and-re-enrolment/course-information/course-maps) provides guidance on unit enrolment for each semester of study.

Units are 6 points unless otherwise specified. You must complete 240 points:

1. 144 points must be completed in Parts A, B, C, D and E (Level 1 only) as described below in the Bachelor of Engineering (Honours) component, of which:

  • the specialisation completed must be chemical engineering

Refer to E3001 Bachelor of Engineering (Honours) single degree entry for the details of mandatory professional recognition requirements.

2. 96 points must be completed in Parts A, B and C as described below in the Bachelor of Pharmaceutical Science component, of which:

  • the specialisation completed must be formulation science

Engineering component (chemical engineering specialisation)

Bachelor of Engineering (Honours) is a specialist course that develops through four themes that combine to underpin engineering practice: fundamentals and foundational skills, design, knowledge and applications, and professional practice.

Part A. Engineering fundamentals and foundational skills (12, 18 or 24 points)

These will develop your understanding of natural and physical sciences, mathematics, numerical analysis, statistics, and computer and information sciences that underpin all engineering disciplines.

If you have not completed the equivalent of VCE Physics and/or VCE Specialist mathematics then you must complete foundation units in physics and/or mathematics respectively:

Note: If you need to take both foundation units you will need to overload in year 1 or 2 and increase the total credit points needed for the double degree by 6 points.

You must complete:

Part B. Engineering design (18 points)

This will develop the engineering techniques, tools and resources for the conduct, design and management of engineering design processes and projects, both in the industrial setting and in the development of research experiments.

You must complete:

  • ENG1001 Engineering design: Lighter, faster, stronger
  • ENG1002 Engineering design: Cleaner, safer smarter
  • ENG1003 Engineering mobile apps

Part E. Level 1 elective study (6, 12 or 18 points, depending upon the number of units you need to complete for Part A)

At least 12 points at level 1 must be used in fulfilling the requirements of the partner course. Therefore, if you are required to take 12 points of engineering foundation units you will need to overload by 6 points. Please refer to the course progression mapcourse progression map (https://www.monash.edu/engineering/current-students/enrolment-and-re-enrolment/course-information/course-maps) for the relevant double degree.

You must complete at least one of the following available on your campus of enrolment:

  • CHE1010 Grand challenges in chemical engineering: Delivering sustainable food, water and energy
  • CHM1011 Chemistry I or CHM1051 Chemistry I advanced
  • ENE1621 Environmental engineering
  • ENG1021 Spatial communication in engineering
  • ENG1051 Materials for energy and sustainability
  • PHS1002 Physics for engineering
  • MAT1830 Discrete mathematics for computer science
  • RSE1010 Natural resources engineering
  • CHE2161 Mechanics of fluids
  • ECE2041Not offered in 2019 Telecommunications
  • ECE2072 Digital systems
  • FIT2085 Introduction to computer science for engineers
  • MAE2405 Aircraft performance
  • MEC2404 Mechanics of fluids
  • TRC2001 Introduction to systems engineering

Part C. Engineering knowledge and application and Part D. Professional practice (108 points)

Part C will provide in-depth knowledge of the specific engineering methods of a branch of engineering and will integrate the specific engineering methods and discipline knowledge into practice. You will develop skills to identify and apply knowledge of contextual factors impacting the engineering discipline. Additionally, your studies will focus on your understanding and application of the scope, principles, norms, accountabilities and bounds of contemporary engineering practice in your discipline.

Part D will develop your skills in readiness for the engineering workplace. You will develop skills in effective team membership and team leadership, the use and management of commercially relevant data, and the legal responsibilities of engineers. This study will integrate the theme 'Engineering knowledge and application' with your specialist field of engineering.

You must complete:

  • CHE2161 Mechanics of fluids (if not already completed at level one)
  • CHE2162 Material and energy balances
  • CHE2163 Heat and mass transfer
  • CHE2164 Thermodynamics I
  • CHE2166 Introduction to process simulation
  • ENG2005 Advanced engineering mathematics
  • CHE3161 Chemistry and chemical thermodynamics
  • CHE3162 Process control
  • CHE3164 Reaction engineering
  • CHE3165 Separation processes
  • CHE3166 Process design
  • CHE3167 Transport phenomena and numerical methods
  • CHE4161 Engineer in society
  • CHE4162 Particle technology
  • CHE4164 Integrated industrial project (18 points)*
  • CHE4170 Design project (12 points)
  • CHE4180 Chemical engineering project (12 points)

* This is for selected students taking a period of integrated industrial training in the first semester of their final year. It will replace the two core units (CHE4180 and CHE4161).

Pharmaceutical science component (formulation science specialisation)

Bachelor of Pharmaceutical Science is a specialist course that develops through three themes. The first two, foundation science studies and pharmaceutical science studies culminate in an applied project.

Part A. Foundation sciences (48 points)

Foundation studies in bioorganic and medicinal chemistry, physical chemistry and physiology will underpin further studies in your chosen specialisation. It will also provide an introduction to the key areas of scientific communication and practice and scientific research methodology.

You must complete:

  • BPS1011 Human physiology I: Cells to systems
  • BPS1021 Medicinal chemistry I: Structure
  • BPS1031 Physical chemistry I: Equilibria and change
  • BPS1012 Human physiology II: Body systems
  • BPS1022 Medicinal chemistry II: Reactivity and biomolecules
  • BPS1032 Physical chemistry II: Solutions, surfaces and solids
  • BPS2031 Analytical methods I: principles and applications
  • BPS2041 Drug delivery: Absorption pathways

Part B. Pharmaceutical science and Part C. Applied project (48 points)

Part B will provide you with practical and theoretical skills and knowledge of your specialisation. You will learn to develop, apply and communicate the concepts and theoretical frameworks that constitute the knowledge base of your chosen discipline.

The studies in Parts A and B culminate in a major research project or industry placement.

You must complete:

Specialist formulation science study

You must complete:

  • BPS3321 Biotechnology products
  • BPS3331 Pharmaceutical product development and manufacture
  • BPS3322 Drug delivery nanotechnology
  • BPS3332 Industrial formulation

Alternative exits

You may be eligible to exit the double degree program and graduate with either a Bachelor of Chemical Engineering (Honours) or a Bachelor of Pharmaceutical Science after four or three years, depending on the units studied.

If you wish to graduate with a Bachelor of Chemical Engineering (Honours) prior to the completion of the double degree you must have completed at least 192 points of studies, including all of the requirements in Part A, B, C and D for the Bachelor of Engineering (Honours) specialising in chemical engineering.

If you wish to graduate with a Bachelor of Pharmaceutical Science prior to the completion of the double degree you must have completed at least 144 points of studies, including all of the requirements in Part A, B and C for the Bachelor of Pharmaceutical Science degree.

Progression to further studies

Honours

You may be eligible to apply for a one-year honours course once you have successfully completed this double degree, or have completed all of the requirements for one of the single degrees including a total of 144 points. The following honours course applies:

  • P3701 Bachelor of Pharmaceutical Science (Honours)

You are usually eligible to apply for honours if you achieve a distinction grade average (70 percent) or above in 24 points of studies in relevant discipline units at level 3. This sometimes also means you need to have completed specific units.