Chemical Engineering is a highly adaptable and versatile area of engineering. It applies the principles of chemistry, physics, mathematics, biology, and economics to transform energy and materials into useful and affordable products. It covers the research, design and operation of new and existing processes to minimise environmental impacts, ensure compliance with legal and ethical standards and maximise profits and benefits to society.
Research suggests an expected shortfall in skilled chemical engineers to support the UK’s green recovery and net-zero target. This means ch...
Chemical Engineering is a highly adaptable and versatile area of engineering. It applies the principles of chemistry, physics, mathematics, biology, and economics to transform energy and materials into useful and affordable products. It covers the research, design and operation of new and existing processes to minimise environmental impacts, ensure compliance with legal and ethical standards and maximise profits and benefits to society.<br/><br/>Research suggests an expected shortfall in skilled chemical engineers to support the UK’s green recovery and net-zero target. This means chemical engineers will be highly sought after for the specialist work required.<br/><br/>Chemical engineers take leading roles in many different sectors. These range from energy and water, food, healthcare and pharmaceuticals, consumer products, and even finance. They use their technical know-how and ingenuity to develop solutions to many of the world’s most pressing challenges. For example, climate change and the large-scale production of new vaccines.<br/><br/>We conduct world-leading research to drive the sustainable revolution in areas such as low-carbon technologies, next-generation healthcare and advanced manufacturing. Our new National Centre for the Circular Chemical Economy seeks to transform the UK chemical sector to eliminate waste and reliance on fossil technologies. Our research directly informs our teaching and project work, ensuring our students are fully equipped to meet 21st-century challenges.<br/><br/>Our Chemical Engineering degrees will teach you how to apply scientific and engineering principles to the design and analysis of chemical process equipment and flow sheets. Our bench and pilot-scale laboratories, VR simulation, computer classes and project work will help you to understand and apply taught principles to engineering problems, whilst also developing your key laboratory, teamwork and IT skills.<br/><br/>We offer a number of options for this degree. These include language options in years one and two (at different levels) in either French, German, Spanish or Mandarin, as an alternative to Materials Processing and Food Engineering. You can then choose up to three optional modules in their final year including management, environmental, IT, bioprocessing and healthcare topics. During the final design project, you will work both in teams and individually to conceptualise and design an industrial plant to address a specified design challenge. This challenge is usually aligned with your module choices and the research strengths of the department. The project brings together all aspects of the degree. This includes initial technology selection and flowsheet development, detailed design of individual unit operation, process optimisation, safety and operability analysis and finally full economic and environmental evaluation.<br/><br/>**What is the difference between MEng and BEng?**<br/><br/>The three years of the BEng degree and the first three years of the MEng degree are identical, with a good mix of theory, application and practical content from day one. The additional year of the MEng programme allows students to study a wider range of technical subjects with additional depth, as well as undertaking the Professional Development Project (PDP), which can be undertaken in industry, abroad or at Loughborough. Whilst both the MEng and BEng are accredited by the Institution of Chemical Engineers (IChemE), only the MEng degree fully meets all educational requirements for Chartered Engineer status. Students studying on the BEng course may have opportunity to change to the MEng course if their performance in the first and second year is sufficiently strong.
Some courses vary and have tailored teaching options, select a course option below.
Course Details
Information
Study Mode
Sandwich
Duration
4 Years
Start Date
29/09/2025
Campus
Main Site
Application deadline
Provider Details
Codes/info
Course Code
H806
Institution Code
L79
Points of Entry
Year 1
UCAS TariffNot Accepted Scottish HigherNot Accepted Access to HE DiplomaPass Access to HE Diploma with 60 Credits overall including 45 at Level 3. Please obtain: 45D, at Level 3, including 15 credits in Maths modules and 15 credits in Chemistry and Physics based modules International Baccalaureate Diploma Programme35 35 (6 6 5 HL) including Maths and at least one from Chemistry or Physics at HL Pearson BTEC Level 3 National Extended Diploma (first teaching from September 2016)DDD BTEC National Extended Diploma in Applied Science or Engineering: DDD plus A level Maths at Grade B Preferred subjects: Applied Science, Engineering Leaving Certificate - Higher Level (Ireland) (first awarded in 2017)We accept a wide range of international qualifications for entry as outlined on our website – please view the individual course typical offers on our website and choose Ireland in the Country/region drop down field for more information. GCSE/National 4/National 5GCSE English Language grade 4/C Pearson BTEC Level 3 National Diploma (first teaching from September 2016)DD BTEC Level 3 National Diploma in a relevant subject: DD plus A Level Maths at grade B BTEC National Diploma in Applied Science or Engineering: DD plus A levels AB to include Maths and either Chemistry or Physics Preferred subjects: Applied Science, Engineering Scottish Advanced HigherA,B AB including Maths and either Chemistry or Physics, plus Highers at AAB in 3 other subjects. Cambridge International Pre-U Certificate - PrincipalConsidered on a case by case basis. Please contact Loughborough University directly. Extended ProjectWe recognise the benefit of the Extended Project in developing independent research and critical thinking skills. We would consider this as evidence of motivation to study a specific subject in more depth, and while we do not generally include it as part of our offer conditions, it may be used to further consider an application upon receipt of final examination results. www.lboro.ac.uk/study/undergraduate/apply/entry-requirements/ Pearson BTEC Level 3 National Extended Certificate (first teaching from September 2016)D BTEC National Extended Certificate in Applied Science or Engineering: D plus A levels AB to include Maths and either Chemistry or Physics Preferred subjects: Applied Science, Engineering A levelA,A,B AAB including Maths and at least one from Chemistry or Physics T LevelFor 2025 entry, the following T Levels are currently being considered on a case by case basis. More information can be found on our website at https://www.lboro.ac.uk/study/undergraduate/apply/entry-requirements/ Welsh Baccalaureate - Advanced Skills Challenge Certificate (last awarded Summer 2024)Applicants taking the Welsh Baccalaureate Advanced Diploma will be asked to achieve the A level requirements for their course as part of their qualification. The Skills Challenge Certificate will be accepted alongside two A levels providing individual course entry and subject requirements are met. www.lboro.ac.uk/study/undergraduate/apply/entry-requirements/ |
Find more courses from Loughborough University with our undergraduate course search.
Region | Costs | Academic Year | Year |
---|---|---|---|
England, Northern Ireland, Scotland, Wales | £9,250 | 2024/25 | Year 1 |
EU, International | £28,600 | 2024/25 | Year 1 |