Chemical engineering is a challenging field which brings together diverse areas of the natural sciences (such as chemistry and physics) and the life sciences (such as biology) with mathematics and engineering. Its aim is to study the design, development, and operation of industrial processes.
It is a course suited for highly motivated students with aptitude for broad areas of science and an interest in putting that knowledge into practise. Typical career options for a chemical engineering graduate might be working as an analytical chemist ($51,240), a materials engineer ($72,227), or a mining engineer ($81,117).
Course Description: This course covers the basics of chemistry, physics, biology, and mathematics, then develops knowledge in the areas of thermodynamics, transport processes, and chemical kinetics. There are four courses available within chemical engineering including the Bachelor of Science in Chemical Engineering and the Bachelor of Science in Chemical-Biological Engineering.
Course Description: This course conveys scientific and engineering principals through a curriculum covering applied mathematics, material and energy balances, thermodynamics, fluid mechanics, energy and mass transfer, separations technologies, chemical reaction kinetics and reactor design, biochemical engineering and process design.
Course Description: The course covers areas of chemistry, maths, physics, and biology, in addition to elective courses for a wide breadth of study. The assessment includes a research project of the student's own devising which may use experimental, theoretical, or computational work.
Course Description: This course's curriculum is developed in consultation with a panel of industry members to ensure that the skills it provides are directly relevant to the needs of businesses, making for excellent employment prospects for graduates. The course may be taken as a 3 year BA, but students usually choose to extend the course into a 4 year MEng masters.
Course Description: This four-year course from one of the largest chemical engineering departments in the world focuses on the design, development, and operation of chemical processes which are used in the production of chemicals, petroleum products, food, and consumer goods.
Course Description: A mixture of classroom lectures and laboratory science, this course has a focus on research skills, with many graduates going on to further study or to careers in research. There are four tracks from which students can choose a specialisation: biomolecular, environmental, materials, or process systems.
Course Description: A four-year program which leads to an MEng master's degree which includes a year spent abroad at a partner university gaining specialist skills and insights.
Course Description: The course at Oxford is a four-year general engineering course, with the option to specialise in chemical engineering in the third and fourth years. This ensures a much broader knowledge of engineering topics than is offered by most courses, which makes for more flexible employment opportunities.
Course Description: The Department of Chemical Systems Engineering at the University of Tokyo offers an undergraduate course with an emphasis on practise, experimentation, and class discussion. It includes teaching on areas of chemistry such as quantum chemistry and organic chemistry, and on areas of engineering such as process system engineering and environmental system engineering.
Course Description: This three-year course begins with two years dedicated to the principals of the chemical sciences, including physical chemistry, organic chemistry, inorganic chemistry, and analytical chemistry, and in the third year focuses on the engineering disciplines which are relevant to the design and development of industrial processes and products.