Chemical engineering is all about changing raw materials into useful products we use every day in a safe and cost-effective way. Chemical engineers create and develop the processes to produce, change or transport products and materials.
Chemical engineers solve and manage real-world challenges to create a sustainable future. They take raw materials from the world around us and determine how we can turn them into products for daily use.
Chemical engineering and biotechnology are fast-evolving industries with huge potential for improving global health and wellbeing.You'll gain interdisciplinary experience and be well prepared for leading-edge careers feeding, fuelling and healing the world.
Chemical engineers design renewable energy solutions, new and improved medicines, chemical plants, cosmetics and food factories.Arts complements this specialist area with diverse studies in social and cultural fields.
Investment in the advanced materials market is expanding the world over-in the space industry, medical technologies, defence, manufacturing, energy, telecommunications and more. Engineering professionals able to support materials innovation are in high demand.
Chemical engineers sustain and improve industries as diverse as food processing, petrochemicals, ceramics, petroleum refining, primary metals, plastics, biotechnology, pharmaceuticals, glass and specialty chemicals.Our Graduate Diploma in Engineering (Chemical) is suited to engineering graduates and...
Chemical engineers design renewable energy solutions, new and improved medicines, chemical plants, cosmetics and food factories.For those working in the field, financial expertise offers significant benefits. You'll be uniquely placed to commercialise your innovations.
High-achieving students can undertake a program of study in chemical sciences and materials engineering in only five years with this degree combination. It prepares you with a broad-based foundation in chemistry before continuing to the masters, which provides an understanding of advanced processing and fabrication methods of engineering materials and their characterisation.
Entry Requirements
Admission pathways Applicants can apply for this course using Year 12 qualifications, previous higher education study, TAFE/VET qualifications, or through adult entry (STAT/Foundation Studies/tertiary preparation course). Find the entry path thatâs right for you. Explore our pathways Choosing your preferences When choosing your preferences through SATAC, another Flinders degree you might want to include in your list is the Bachelor of Science (Chemical Sciences) (Honours).
Investment in the advanced materials market is expanding the world over-in the space industry, medical technologies, defence, manufacturing, energy, telecommunications and more. Experts with the advanced capabilities to lead discoveries in materials engineering are in high demand.
Chemical engineering and biotechnology are fast-evolving industries with huge potential for improving global health and wellbeing.You'll gain interdisciplinary experience and be well prepared for leading-edge careers feeding, fuelling and healing the world.
Chemical engineers design renewable energy solutions, new and improved medicines, chemical plants, cosmetics and food factories.This combination enables an increased and specialised science focus which compliments the core engineering principles.
Investment in the advanced materials market is expanding the world over-in the space industry, medical technologies, defence, manufacturing, energy, telecommunications and more. Engineering professionals able to drive materials innovation are in high demand.
Chemical engineers design renewable energy solutions, new and improved medicines, chemical plants, cosmetics and food factories.For those working in the field, financial expertise offers significant benefits. You'll be uniquely placed to commercialise your innovations.
