Bachelor of Engineering (Honours) (Chemical Product Engineering)

At University of New South Wales, the Bachelor of Engineering (Honours) in Chemical Product Engineering is built around hands-on learning where students actively design, test, and refine chemical-based products in modern engineering environments. The program places strong emphasis on laboratory experimentation, product formulation, process simulation, and industry-style design projects, helping students develop practical skills that directly reflect real chemical product development workflows in sectors like pharmaceuticals, materials, and consumer goods.

Students gain experience using advanced engineering tools and working in collaborative teams to solve open-ended industrial challenges:

• Chemical Engineering and Materials Laboratories : Students conduct experiments in reaction engineering, materials science, and product formulation to understand how chemical products are developed and tested.
• Product Design and Development Projects : Team-based engineering design projects simulate real industrial product development, from concept design through to testing and optimisation.
• Engineering Simulation and Modelling Software : Students use industry-standard computational tools to model chemical processes, product behaviour, and manufacturing systems.
• Formulation and Materials Testing Facilities : Practical sessions focus on developing and evaluating chemical products, materials, and industrial formulations.
• Industry-Informed Engineering Practice : Learning activities are aligned with real-world chemical product development challenges in manufacturing, pharmaceuticals, and materials industries.
• Capstone and Research-Style Projects : Final-year projects allow students to investigate and develop innovative chemical products or systems in a structured research environment.
• Collaborative Group Engineering Work : Students regularly work in teams to solve complex engineering problems, developing communication, leadership, and project management skills.
• Digital Engineering Tools and Data Analysis Platforms : Students engage with computational modelling, simulation software, and engineering data systems used in modern product development.
• Access to Advanced Engineering Laboratories : Students benefit from UNSW’s modern engineering facilities designed for experimentation, prototyping, and applied chemical engineering research.
• Engineering Library and Research Resources : Extensive access to technical journals, scientific databases, and engineering publications supports product innovation and research learning.

Graduates of the Bachelor of Engineering (Honours) in Chemical Product Engineering at University of New South Wales are well-prepared for careers in product development, chemical manufacturing, pharmaceuticals, materials engineering, and consumer goods innovation. The program builds strong technical, analytical, and design capabilities, enabling graduates to contribute to the creation and optimisation of chemical-based products across multiple industries.

Graduates typically pursue roles such as Chemical Product Engineer, Process Engineer, Formulation Scientist, Materials Engineer, or Product Development Engineer in sectors including manufacturing, energy, healthcare, and advanced materials:

• UNSW Engineering Career Development Support : Students benefit from dedicated engineering career services, internship guidance, employer networking events, resume support, and interview preparation tailored to industry pathways.
• Strong Industry-Linked Engineering Education : The program integrates real-world product design challenges and industry-informed engineering projects that reflect professional practice in chemical product development.
• High Graduate Employability Reputation : UNSW engineering graduates are widely recognised by employers in Australia and internationally for their strong technical training and problem-solving ability.
• Professional Engineering Accreditation Pathway : The degree is structured to meet requirements for progression toward professional engineering accreditation in Australia through further accredited study.
• Industry Partnerships in Engineering and Manufacturing : Students benefit from UNSW’s strong connections with leading engineering, chemical, and manufacturing organisations through collaborative learning and applied projects.
• Research and Innovation Strength : Students engage in a research-active environment focused on chemical engineering innovation, materials science, and sustainable product development.
• Global Career Opportunities : UNSW’s engineering reputation supports strong international recognition and career mobility across chemical, product, and materials engineering sectors.
• Transferable Engineering and Design Skills : Graduates develop advanced capabilities in modelling, systems thinking, and product innovation applicable across multiple technical industries.

Salary outcomes vary depending on role and industry, but chemical engineering and product engineering graduates generally benefit from strong earning potential and long-term career growth in both Australian and global markets.

Further Academic Progression:
After completing this program, graduates may progress into Master of Engineering (Chemical), Master of Engineering Science, or other accredited postgraduate engineering qualifications required for professional engineering registration. Students may also pursue research pathways such as a Master of Philosophy (MPhil) or PhD in Chemical Engineering, Product Engineering, Materials Science, or related fields.