Bachelor of Chemical Engineering Course Requirements at TUT

The Bachelor of Engineering Technology in Chemical Engineering at TUT is designed to provide a thorough grounding in the principles of chemical engineering combined with technology-focused training. Offered at the Pretoria Campus, this program spans 420 credits at NQF Level 7 and aims to equip students with the practical skills and theoretical knowledge necessary for a career in chemical engineering and related fields.

Admission Requirements for Bachelor of Engineering Technology in Chemical Engineering

For applicants with a National Senior Certificate obtained in or after 2008:

• Admission requirements: A National Senior Certificate or an equivalent qualification with a bachelor’s degree endorsement, achieving at least a level 4 for English (home language or first additional language), level 5 for Mathematics or Technical Mathematics, and level 5 for Physical Sciences or Technical Sciences.
• Selection criteria: An Admission Point Score (APS) of at least 28 (excluding Life Orientation).
• Recommended subjects: Engineering Graphics and Design, Mechanical Technology.

For applicants with a National Certificate (Vocational) at NQF Level 4:

• Admission requirements: A National Certificate (Vocational) at NQF Level 4 with a bachelor’s degree endorsement from Umalusi, achieving at least 50% for English, 60% for Mathematics and Science, and 60% for any three other compulsory vocational subjects.
• Selection criteria: An APS of at least 28 (excluding Life Orientation).

For applicants with a National N Certificate/National Senior Certificate as published in Report 191: N3 (NQF Level 4):

• Admission requirements: A National Senior Certificate or a National N Certificate with languages as published in Report 191: N3, issued by DHET and Umalusi, with at least 50% for English, Mathematics N3, Engineering Sciences N3, and any other two additional subjects.
• Selection criteria: An APS of at least 28.

For applicants with a N6 Certificate in a related Engineering field as published in Report 191: N6:

• Admission requirements: A N6 Certificate in a related Engineering field, with an average of at least 60% for the qualification, and successful completion of an English Language Proficiency Assessment by the university.

For applicants with qualifications on the Higher Education Qualification Sub-Framework (HEQSF):

• Admission requirements: Completion of a Higher Certificate, Advanced Certificate, Diploma, or National Diploma in Chemical Engineering or a related field with the required average percentages.
• Selection criteria: Based on the level of achievement in prior qualifications.

Application Process

1. Apply Online: Submit your application through the TUT Application Portal before the deadline on September 30.
2. Review of Applications: Applications are ranked according to the Departmental Student Enrolment Plan, and selections are made based on top-ranking applicants.
3. Notification: Applicants will be informed of their admission status via an official letter from the Office of the Registrar, or they can check their status on the TUT website.

Career Opportunities

Graduates of this program can pursue careers as:

• Chemical Engineering Technician and Technologist: Working in industries such as pharmaceuticals, petrochemicals, and materials manufacturing.
• Researcher and Developer: Focusing on innovation and improvement of chemical processes.
• Fuel-Cell Technologist: Specializing in renewable energy technologies.
• Consultant: Providing expert advice on chemical engineering projects and systems.

Further Studies

Graduates may continue their education with:

• Bachelor of Engineering Technology Honours (BEngTechHons)
• Master of Engineering (MEng)
• Doctor of Engineering (DEng) in Chemical Engineering

This program not only prepares students for effective practice in the field of chemical engineering but also offers pathways to advanced research and specialized professional roles.

High School Subject Guide to Study Bachelor of Engineering Technology in Chemical Engineering at TUT

For students interested in pursuing the Bachelor of Engineering Technology in Chemical Engineering at Tshwane University of Technology (TUT), selecting the right subjects from Grade 10 to Grade 12 is crucial. Here’s what you need to focus on:

1. Mathematics or Technical Mathematics: Critical for understanding complex chemical engineering concepts such as reaction kinetics, process dynamics, and thermodynamics. You’ll apply mathematical models and principles to solve chemical engineering problems.
2. Physical Sciences or Technical Sciences: Provides a fundamental understanding of chemistry and physics, essential for grasping the core aspects of chemical processes and systems design.
3. Engineering Graphics and Design (EGD): Useful for visualizing chemical process equipment and plant design, which involves drafting diagrams and understanding the spatial arrangement of industrial setups.
4. Information Technology: Beneficial for learning how to use software and simulation tools that are pivotal in designing and optimizing chemical processes.
5. Life Sciences (Biology): Offers insights into biochemical processes which are valuable, especially if you’re interested in fields like biotechnology within chemical engineering.

Engaging deeply with these subjects will not only prepare you for your studies but also give you a head start in understanding the complexities of chemical engineering.

Why You Should Consider the Bachelor of Engineering Technology in Chemical Engineering at TUT

1. Diverse Career Opportunities: Graduates can find opportunities across various sectors, including pharmaceuticals, petrochemicals, materials manufacturing, and even renewable energy. For example, as a Fuel-Cell Technologist, you could work on developing cutting-edge energy solutions.
2. Innovative and Practical Training: The program focuses on both theoretical knowledge and practical skills, preparing you for real-world engineering challenges. You might work on projects that involve the development of new materials or sustainable energy technologies.
3. Pathway to Advanced Studies: The program offers a clear pathway for further specialization through Honours, Masters, and Doctorate degrees in Chemical Engineering. This could lead to advanced roles in research and academia, contributing to innovative solutions in the industry.
4. Impact on Society and the Environment: Chemical engineers play a crucial role in developing technologies that minimize environmental impact, such as pollution control technologies and waste management solutions. Your work could directly contribute to making the planet a safer and cleaner place.

For more details on career paths and what you can achieve with a degree in chemical engineering, visit Prospects UK – Careers in Chemical Engineering.

To explore the various facets of chemical engineering, including potential career outcomes, check out the American Chemical Society’s page at ACS Careers in Chemical Engineering.

For a deeper insight into the daily responsibilities and projects of a chemical engineer, The Guardian offers a comprehensive overview at What does a chemical engineer do?.

Choosing this program at TUT not only sets you up for a successful career in chemical engineering but also offers the chance to work on solutions to some of the world’s most pressing challenges, including energy, healthcare, and environmental sustainability.