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Chemical and biomolecular engineering

Help preserve the environment and live healthier lives

Chemical and biomolecular engineers research the properties of raw materials in order to design solutions that help manage resources, protect the environment and improve health and safety products and procedures.

What is chemical and biomolecular engineering?

Chemical and biomolecular engineers use chemistry, biology, mathematics and physics to turn raw materials into useful products for everyday life. They research raw materials and their properties as well as design and develop equipment and processes to more efficiently and sustainably manufacture products such as pharmaceuticals, foods, fuels and household and industrial chemicals.

Bachelor of Chemical and Biomolecular Engineering

Chemical and biomolecular engineering careers

  • Work in a large-scale plant improving the production of food, plastic, ceramic, pharmaceutical, glass, metal or biomedical products.
  • Protect the environment through pollution control or decontamination projects.
  • Lead innovation in healthcare such as tissue engineering.
  • Become an energy engineer, an environmental consultant, a water treatment engineer or a combustion engineer, among many other career options.
  • Work in the health, government, not-for-profit, production, mining or finance sectors.
  • A broad range of international work opportunities, from providing water in third-world communities to improving energy production in multinational fuel companies.
  • Graduate salaries start at $60.5K per annum (Graduate Careers Australia).

Why study chemical and biomolecular engineering with us?

There are many reasons to choose our Bachelor of Engineering Honours (Chemical and Biomolecular) as your first preference.

  • Our degree combines collaborative learning and research with first-hand industry experience, enabling you to meet the challenges faced by the chemicals, minerals, energy and agriculture, food, beverage and pharmaceutical sectors.
  • You will learn from leading professionals and researchers in fields including chemical, environmental, energy, food and water engineering.
  • You will explore the emerging fields of nanotechnology and molecular biology, which are revolutionising energy and storage systems, food production and the healthcare industry.
  • The professional engagement program will give you invaluable practical experience to complement your comprehensive technical knowledge.
  • An embedded honours thesis enables you to design your own research project in a field of your choice.
  • Broaden your career prospects by combining your Bachelor of Engineering Honours (Chemical and Biomolecular) with a second degree in arts, commerce, science (health or medical science) or laws. Combined degrees are five years in length – this means you do just one extra year to attain two full qualifications, with the same annual workload as a single degree student. 

2018 Undergraduate Guide

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William North

William North
Engineering Honours (Chemical and Biomolecular)
“At the University of Sydney, you have the opportunity to be selected for MIPPS, a six-month industry placement in Australia or overseas, with the chance to work in leading companies such as Dow Chemical and BOC. Chemical engineering teaches you a new way of problem solving that applies to many aspects of life, opening the door to a vast range of career opportunities."
Bachelor of Engineering Honours (Chemical and Biomolecular)

Lucy Parsons

Lucy Parsons
Engineering Honours (Chemical and Biomolecular)
“To be able to provide safe drinking water, inexpensive medicines and cleaner energy is so empowering. I was drawn to the fact there is so much potential for humanitarian engineering using the knowledge gained from this degree.”
Bachelor of Engineering Honours (Chemical and Biomolecular)