Bachelor of Engineering (Honours) (Chemical & Sustainable Process) /Bachelor of Information Technology

5 Years On Campus Dual-bachelors Program

Queensland University of Technology

Program Overview

At Queensland University of Technology, this double degree combines advanced chemical and sustainable process engineering with modern information technology skills, preparing you to design intelligent, data-driven solutions for complex industrial and environmental challenges. It is ideal for students who want to work at the intersection of engineering systems, digital innovation, and sustainable industry transformation.

You’ll study across QUT’s Gardens Point Campus (engineering and IT in Brisbane CBD) and gain access to cutting-edge laboratories, computing environments, and industry-connected learning spaces.

Curriculum Structure

Year 1

In your first year, you build strong foundations across engineering, IT, and mathematics. You’ll typically study introductory engineering science, chemistry for engineers, and mathematical methods alongside core IT fundamentals such as programming principles and computational thinking. This year focuses on developing problem-solving skills across both physical systems and digital environments.

Year 2

Year 2 expands your technical capability in both disciplines. Engineering studies introduce areas like thermodynamics and materials science, while IT learning develops through subjects such as object-oriented programming, data structures, and database fundamentals. You begin connecting engineering systems with digital tools and computational modelling.

Year 3

In Year 3, the focus shifts toward integration and application. You progress into chemical and sustainable process engineering concepts such as reaction systems and process design, while IT studies deepen into areas like software engineering, systems analysis, and data-driven solutions. This is where you start working on interdisciplinary projects that combine engineering processes with digital systems.

Year 4

This year becomes more advanced and industry-oriented. Engineering units focus on sustainable process design and systems optimisation, while IT studies explore areas such as networks, cybersecurity, or data analytics depending on electives. You also begin larger collaborative projects that simulate real-world engineering and IT industry environments.

Year 5

In your final year, you complete capstone projects in both engineering and IT. These projects often involve designing sustainable chemical processes supported by digital systems, automation, or software solutions. You graduate with strong technical expertise in engineering and advanced capability in information technology applications.

Focus Areas

Sustainable chemical process engineering, software development, data systems, industrial automation, systems modelling, environmental engineering, and digital transformation of engineering systems.

Learning Outcomes

Graduates are prepared to design sustainable engineering systems supported by advanced IT solutions, combining technical engineering expertise with computing and digital innovation skills. You’ll be able to work in multidisciplinary teams across engineering, software, and data-driven industries.

Professional Alignment (Accreditation)

The engineering honours component aligns with Engineers Australia accreditation requirements, supporting professional recognition as an engineer in Australia and internationally.

Reputation (Employability & Rankings)

Queensland University of Technology is well recognised for graduate employability and strong industry engagement, particularly in engineering, IT, and applied digital innovation. It consistently performs strongly in global rankings such as QS World University Rankings for employer reputation and graduate outcomes in applied disciplines.

Experiential Learning (Research, Projects, Internships etc.)

At Queensland University of Technology, this double degree is built to make you equally confident in engineering systems and digital technologies through hands-on learning in labs, computing environments, and industry-style project work. You’ll move between chemical process engineering spaces and advanced IT learning labs at the Gardens Point Campus, applying both coding and engineering principles to real industrial and sustainability challenges. Learning is highly practical, with strong emphasis on simulation, design, programming, and systems optimisation across both disciplines:

Process Engineering Laboratories : Hands-on experimentation with chemical processes, thermodynamics systems, and sustainable production techniques using specialised engineering lab equipment.
Programming & Software Development Labs : Practical coding environments where you develop software systems, learn programming fundamentals, and build applications used in engineering and data contexts.
Engineering Simulation Tools : Use of industry-standard modelling and simulation software for analysing chemical processes, system performance, and sustainability outcomes.
IT Systems & Database Platforms : Training in database design, data management systems, and computational tools used in real-world IT and engineering integration.
Interdisciplinary Project Work : Group-based projects combining engineering and IT students to design data-driven solutions for industrial and environmental problems.
Capstone Industry Projects : Final-year projects where you integrate software development with sustainable chemical process design to solve real industry challenges.
High-Performance Computing & Digital Systems Access : Exposure to advanced computing environments supporting data analysis, simulation, and engineering computation.
Research & Innovation Ecosystem : Engagement with QUT research strengths such as the Institute for Future Environments, supporting sustainability, digital transformation, and applied engineering research.
Libraries & Digital Learning Resources : Access to extensive engineering, IT, and scientific databases, journals, coding resources, and technical standards through QUT’s modern library system.

These experiences ensure you graduate with strong technical capability in both engineering design and information technology, ready for multidisciplinary roles in modern industry.

Progression & Future Opportunities

Graduates of the Queensland University of Technology Bachelor of Engineering (Honours) (Chemical & Sustainable Process) / Bachelor of Information Technology are uniquely positioned for careers that combine engineering expertise with digital and data-driven innovation. You’ll be ready to work in industries like energy, manufacturing, technology, environmental systems, and industrial automation, where both process engineering and IT skills are highly valued.

Typical roles include process engineer, software engineer in industrial systems, data/automation engineer, sustainability technologist, and systems integration specialist.

With this combined skillset:

QUT Career Services & Employment Support: Provides personalised career coaching, CV and interview preparation, employer networking events, and access to QUT’s graduate job platforms tailored to engineering and IT students.
Work Integrated Learning (Industry Experience): Structured internships, industry placements, and real-world projects with engineering firms, IT companies, and technology-driven industries help students gain professional experience before graduation.
Industry Partnerships & Collaboration: QUT maintains strong links with engineering companies, digital technology firms, energy providers, and advanced manufacturing organisations across Queensland and Australia, supporting direct graduate pathways.
Professional Accreditation Value: The engineering honours component is accredited by Engineers Australia, ensuring international recognition as a qualified professional engineer.
Graduate Outcomes & Employability: QUT is widely recognised for strong graduate employment outcomes in Australia, particularly in engineering and IT disciplines, with many graduates transitioning quickly into full-time professional roles.
Salary Outlook (Australia – indicative): Graduates in engineering + IT hybrid roles typically start around AUD $70,000–$100,000 per year, with higher earning potential as they move into specialised or senior technical positions.

Further Academic Progression:
After completing this degree, you can progress into postgraduate study such as a Master of Engineering, Master of Information Technology, Master of Data Science, Master of Artificial Intelligence, or research degrees (PhD). These pathways support advancement into specialist engineering roles, senior software and systems positions, or research and innovation leadership in sustainable and digital industries.