Bachelor of Engineering (Honours) (Chemical and Sustainable Process)/Bachelor of Mathematics

At Queensland University of Technology, this double degree gives students extensive practical exposure to both engineering systems and advanced mathematical applications through laboratory work, computational modelling, and industry-focused projects. You’ll apply mathematical methods directly to real engineering challenges such as process optimisation, sustainability analysis, and systems modelling while working in QUT’s modern engineering and STEM facilities at the Gardens Point Campus. Learning is highly applied, helping students build strong analytical, computational, and technical problem-solving skills throughout the degree:

• Chemical & Sustainable Process Engineering Laboratories : Hands-on work with thermodynamics systems, fluid mechanics, chemical reaction processes, and sustainable engineering experiments using industry-relevant laboratory equipment.
• Mathematical Computing & Modelling Facilities : Access to advanced computing environments for numerical analysis, optimisation, statistical modelling, and engineering simulation projects.
• Engineering Simulation Software : Use of professional engineering and modelling tools for process simulation, systems analysis, and sustainable process optimisation.
• Programming & Data Analysis Tools : Training in computational mathematics, coding environments, and analytical software used for engineering calculations, modelling, and large-scale data interpretation.
• Interdisciplinary Group Projects : Collaborative project work where students combine engineering design with mathematical modelling to solve complex industrial and environmental challenges.
• Industry-Focused Capstone Projects : Final-year projects involving process optimisation, sustainability modelling, systems engineering, or predictive analysis for real-world engineering applications.
• Research & Innovation Institutes : Opportunities to engage with QUT research strengths through facilities such as the Institute for Future Environments, supporting sustainable systems and advanced engineering research.
• Engineering Design & Process Facilities : Exposure to systems used for process design, energy efficiency studies, and engineering analysis relevant to modern manufacturing and sustainability sectors.
• Libraries & STEM Learning Resources : Access to QUT’s specialised engineering, mathematics, and scientific databases, journals, technical standards, and digital research tools supporting coursework and research projects.

This practical combination of engineering experimentation and advanced mathematical analysis ensures graduates are highly prepared for technical, research, and data-driven engineering careers.

Graduates of the Queensland University of Technology Bachelor of Engineering (Honours) (Chemical and Sustainable Process) / Bachelor of Mathematics are highly valued for their ability to combine advanced engineering knowledge with strong analytical and quantitative problem-solving skills. This combination prepares students for careers in industries focused on sustainability, advanced manufacturing, energy systems, data analysis, and industrial optimisation.

Typical career pathways include chemical engineer, process systems engineer, data and modelling analyst, sustainability engineer, and operations optimisation specialist.

With this strong technical and analytical background:

• QUT Career & Employability Support : Students have access to personalised career coaching, resume and interview workshops, employer networking events, internship preparation, and graduate recruitment programs through QUT’s employability services.
• Industry-Integrated Learning : Work-integrated learning opportunities, industry projects, and engineering capstone experiences help students gain practical exposure before graduation.
• Research & Industry Partnerships : QUT collaborates with organisations across engineering, sustainability, advanced manufacturing, and technology sectors, supporting real-world research and project engagement.
• Strong Quantitative Career Demand : Graduates with engineering and mathematics expertise are well positioned for industries increasingly reliant on modelling, optimisation, automation, and sustainable systems analysis.
• Professional Accreditation Advantage : The engineering honours component aligns with Engineers Australia accreditation standards, supporting long-term professional recognition and international engineering mobility.
• Graduate Salary Outlook (Australia – indicative) : Graduates entering chemical engineering, systems engineering, analytics, and technical modelling roles commonly begin with salaries around AUD $70,000–$95,000+ per year, with strong long-term growth potential in technical and leadership positions.
• Graduate Outcomes : QUT graduates are recognised for strong employability outcomes and practical industry readiness, particularly in engineering, STEM, and applied technology sectors.

Further Academic Progression:
After graduation, students may continue into advanced study such as a Master of Engineering, Master of Data Science, Master of Applied Mathematics, Master of Sustainable Energy, or doctoral research (PhD). These pathways support careers in advanced research, technical consulting, industrial innovation, computational modelling, and academic or scientific leadership roles.