Chemical Engineering (BEng)
Innovate solutions in chemical engineering for a sustainable future.
Why choose this program?
From energy to foods to cosmetics and antibiotics, chemical engineers transform raw materials into greener and innovative products we use in our everyday lives. Regarded as one of the most versatile areas of engineering, chemical engineering combines the worlds of chemistry, biology, mathematics, biomedical, physics, design and process engineering.
Admission requirements
Minimum admission requirements
To be considered for admission to this program, you must meet minimum academic criteria:
- Completion of secondary school (Grade 12)
- Achievement of the minimum average for your program of choice.
- Completion of Grade 12 English (or equivalent course).
Admission to many HÂþ» programs is competitive. This means that meeting minimum requirements does not guarantee admission.
Program-specific admission requirements
Minimum overall average: 70% 
Academic English 12 
Pre-calculus Math 12 
Academic Chemistry 12 
Academic Physics 12 
One additional academic subject 
This program may use a competitive average for admission purposes; meeting minimum posted requirements does not guarantee admission. 
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Financial information
A university education is a significant financial investment. Every student is unique, and so are their financial circumstances. We offer competitive tuition, a robust scholarship and bursary program, and resources and support to help you explore financial options and develop a plan that works for you.Ìý
Program options
You can choose either a co-op program (five years) or a non-co-op program (four years). Choosing the co-op program will give you paid work experience in various roles and organizations.
As a chemical engineering student, you can also earn a Certificate in Biomedical Engineering alongside your degree.
 Past participants in the co-op program have worked in sectors including government, health, private industry, and natural resources.
The following Chemical Engineering program options are offered by HÂþ» University’s Faculty of Engineering. Connect with an academic advisor after you start your studies to explore options such as:  
Bachelor of Engineering with Major
Bachelor of Engineering with Major (Co-op)
Certificate in Biomedical Engineering
What you will learn
In the first year of your degree, you will develop a broad foundation in engineering with courses in math, engineering, science and design. In your second year you will enter your chosen discipline and begin to take chemical engineering-specific courses that focus on chemical processes and fluid flow. In your third year, you’ll concentrate on chemical engineering technical areas and have the opportunity to start co-op. Your final year will provide you with the opportunity to choose three technical elective courses to tailor your studies to your interests. The Certificate in Biomedical Engineering is also available to chemical engineering students.
The Chemical Engineering curriculum provides you with a broad background in chemistry, physics and mathematics.
Sample courses may include:
Engineering Design I
Mechanics I: Statics
Fundamentals of Chemical Engineering
Thermo-fluid Engineering II
Organic Chemistry for Chemical Engineers
Green Engineering
Chemical Reaction Engineering
Thermal Unit Operations
Polymeric Biomaterials
Pilot Scale Operations
Environmental Biotechnology
Brewing Science
The detailed knowledge of engineering principles and practice you gain during your degree will prepare you to explore a wide range of activities in the field of chemical engineering, such asÌý operations, design, research & development, and management.
Careers
A focus in chemical engineering at HÂþ» gives you the knowledge and skills you need to be highly employable in a wide variety of areas.
Future studies could include graduate-level degrees in mechanical engineering or related disciplines.