Chemical engineers transform raw materials into the materials and products we rely on.
They develop, design and produce many of the products and materials that underpin or enhance our everyday lives; from the water we drink and the gas that powers our homes to cosmetics, pharmaceuticals, foodstuffs, silicon chips and even synthetic skin.
Chemical engineers are innovators who can be found at the leading edge of new and emerging technologies such as:
* nanotechnology
* carbon capture
* renewable energy
They ...
Chemical engineers transform raw materials into the materials and products we rely on. <br/><br/>They develop, design and produce many of the products and materials that underpin or enhance our everyday lives; from the water we drink and the gas that powers our homes to cosmetics, pharmaceuticals, foodstuffs, silicon chips and even synthetic skin.<br/><br/>Chemical engineers are innovators who can be found at the leading edge of new and emerging technologies such as:<br/><br/><br/>* nanotechnology <br/><br/><br/>* carbon capture <br/><br/><br/>* renewable energy <br/><br/><br/>They are also adept at balancing economic considerations with safety and environmental requirements.<br/><br/>The wide-ranging nature of chemical engineering is reflected in the breadth of courses we offer as part of this programme. <br/><br/>If you are interested in learning how to use mathematics and chemistry to solve real problems, that affect all of our lives, then chemical engineering could be for you.<br/><br/>**Why Edinburgh?**<br/><br/>We keep improving our curriculum and consult with:<br/><br/><br/>* industrial partners<br/><br/><br/>* accreditation bodies<br/><br/><br/>* our students <br/><br/><br/>In this way, we make sure that our degree will equip you with the knowledge and skills you need to develop a successful career in engineering. We have particularly active community and network of companies in fields related to chemical engineering, many of which are located here, close to the talent of our graduates.<br/><br/>Edinburgh is 1st in Scotland and 3rd in the UK for Engineering research in joint submission with Heriot-Watt University. Our research directly impacts what you will study and addresses key future global challenges: driving the transition to a lower carbon future; next generation materials and processes; data-driven innovation, robotics and AI systems; and making infrastructure and the environment safer and healthier.
Some courses vary and have tailored teaching options, select a course option below.
Course Details
Information
Study Mode
Full-time
Duration
5 Years
Start Date
08/09/2025
Campus
Central area campus
Application deadline
Provider Details
Codes/info
Course Code
H804
Institution Code
E56
Points of Entry
Year 1, Year 2
UCAS TariffNot Accepted Scottish HigherA,A,B,B AABB by end of S5 or AAAB by end of S6. BBB must be achieved in one year of S4-S6. Required subjects: Highers: Mathematics at A and Chemistry at B. Higher Applications of Mathematics is not accepted in place of Higher Mathematics. National 5s: Physics or Engineering Science at B and English at C. International Baccalaureate Diploma Programme37 32 37 points with 666 at HL - 32 points with 655 at HL. Required subjects: HL: Mathematics (Analysis and approaches only) and Chemistry at 5. SL: English and Physics at 5. A levelA,A,A A,B,B AAA - ABB in one set of exams. These grades should be achieved in one set of exams. Required subjects: A levels: Mathematics and Chemistry at B. GCSEs: English at C or 4 and Physics or Science at B or 6. |
Find more courses from University of Edinburgh with our undergraduate course search.
Region | Costs | Academic Year | Year |
---|---|---|---|
Scotland | £1,820 | 2024/25 | Year 1 |
England, Northern Ireland, Wales, Channel Islands, Republic of Ireland | £9,250 | 2024/25 | Year 1 |
EU, International | £36,800 | 2024/25 | Year 1 |