Chemical Engineering
Lancaster University
UCAS Code: H800 | Bachelor of Engineering (with Honours) - BEng (Hon)
Entry requirements
A level
A level Mathematics and a Physical Science: Chemistry, Biology, or Physics
Access to HE Diploma
in a relevant subject, including sufficient Mathematics and Chemistry content
International Baccalaureate Diploma Programme
with 16 points from the best 3 Higher Level subjects including either: Mathematics HL grade 6 (either pathway) plus grade 6 in a HL Physical Science Mathematics HL grade 6 (either pathway) plus grade 6 in two SL Physical Sciences Mathematics SL grade 7 (Analysis and Approaches) plus HL grade 6 in a Physical Science Acceptable physical science subjects include Chemistry, Biology, and Physics
Considered alongside A level Chemistry
UCAS Tariff
We've calculated how many Ucas points you'll need for this course.
About this course
Chemical Engineers pioneer materials and technologies of the future; they design and develop the processes behind today’s most useful products. In studying this programme, you will further develop your knowledge in chemistry and engineering, and develop the skills for a rewarding career.
Chemical Engineers do not work in isolation and modern engineering is just as much about effective teamwork and communication, as it is the underlying science. As a result, our accredited Chemical Engineering programme recognises the broad field of the subject by starting with a general first year, which is shared among all engineering subjects at Lancaster.
You will explore core themes of design, materials, thermodynamics and heat transfer, along with appropriate mathematical study in the first year. Alongside these, you will develop your design, problem-solving, management and leadership skills.
Following the first year, where you will have developed a solid foundation of engineering knowledge and begun to explore a variety of different areas of the discipline, you will have the opportunity to consider and plan your academic progression. At this stage, you may choose to begin your Chemical Engineering study, or move onto any of our other specialist programmes.
In the second year, you will begin to encounter specialist modules in chemical engineering, and you will continue to develop your core skills as an engineer. This year, you will also be encouraged to engage with and solve increasingly open-ended, real-world problems. Alongside the technical modules, you will develop your creativity, entrepreneurial and analytical skills, improving your employability.
On this programme, you may decide to spend a year in industry, gaining valuable experience and enhancing your employability. We have extensive links built through our leadership in research and have students undergoing placements with multinational corporate companies through to smaller specialist SMEs. We would recommend the most appropriate time to do this would be at the end of year two, once you have gained a reasonable amount of engineering knowledge.
A key element of year three is the group design project, where you will be asked to solve an open-ended design project over the course of the year. The projects typically involve conceptual design, as well as evaluation of economic, safety, legislative and ethical standards of assessment. Alongside this, you will practise and develop project management, team-working and technical writing skills.
The degree is professionally accredited by the Institution of Chemical Engineers (IChemE) as meeting partial fulfilment of the educational requirements to become a Chartered Engineer, and is underpinned by the CDIO framework (Conceiving, Designing, Implementing and Operating). All of your teaching is delivered by world-class academics and shaped by their outstanding research output. You will gain hands-on experience with access to cutting-edge facilities and an array of high-quality equipment in our state-of-the-art Engineering Building.
What students say
We've crunched the numbers to see if overall student satisfaction here is high, medium or low compared to students studying this subject(s) at other universities.
How do students rate their degree experience?
The stats below relate to the general subject area/s at this university, not this specific course. We show this where there isn’t enough data about the course, or where this is the most detailed info available to us.
Chemical, process and energy engineering
Teaching and learning
Assessment and feedback
Resources and organisation
Student voice
Who studies this subject and how do they get on?
Most popular A-Levels studied (and grade achieved)
After graduation
The stats in this section relate to the general subject area/s at this university – not this specific course. We show this where there isn't enough data about the course, or where this is the most detailed info available to us.
Chemical, process and energy engineering
What are graduates doing after six months?
This is what graduates told us they were doing (and earning), shortly after completing their course. We've crunched the numbers to show you if these immediate prospects are high, medium or low, compared to those studying this subject/s at other universities.
Top job areas of graduates
Want to make good money from the word go? This is the degree for you! The UK has had a shortage of chemical engineers for a while now so starting salaries are very good. In fact, across the UK, only doctors and dentists bettered the average starting salary for chemical engineering graduates, with an average starting salary of around £28,000. Key sectors for chemical engineers last year included the petrochemicals, food, nuclear, pharmaceuticals, materials and consultancy industries. Their skills set also means that the finance industry likes graduates from these degrees, so there are options if you don't fancy engineering as a career. Most graduates take a longer course that leads to an MEng — which is what you need to take if you want to be a Chartered Engineer. Chemical engineers are also more likely than other engineers to take doctorates and go into research roles, so if you want to take an engineering subject but fancy a research job, this might be a good subject to take.
What about your long term prospects?
Looking further ahead, below is a rough guide for what graduates went on to earn.
Chemical, process and energy engineering
The graph shows median earnings of graduates who achieved a degree in this subject area one, three and five years after graduating from here.
£26k
£32k
£37k
Note: this data only looks at employees (and not those who are self-employed or also studying) and covers a broad sample of graduates and the various paths they've taken, which might not always be a direct result of their degree.
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Teaching Excellence Framework (TEF):
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This information comes from the National Student Survey, an annual student survey of final-year students. You can use this to see how satisfied students studying this subject area at this university, are (not the individual course).
This is the percentage of final-year students at this university who were "definitely" or "mostly" satisfied with their course. We've analysed this figure against other universities so you can see whether this is high, medium or low.
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This information is from the Higher Education Statistics Agency (HESA), for undergraduate students only.
You can use this to get an idea of who you might share a lecture with and how they progressed in this subject, here. It's also worth comparing typical A-level subjects and grades students achieved with the current course entry requirements; similarities or differences here could indicate how flexible (or not) a university might be.
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Post-six month graduation stats:
This is from the Destinations of Leavers from Higher Education Survey, based on responses from graduates who studied the same subject area here.
It offers a snapshot of what grads went on to do six months later, what they were earning on average, and whether they felt their degree helped them obtain a 'graduate role'. We calculate a mean rating to indicate if this is high, medium or low compared to other universities.
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Graduate field commentary:
The Higher Education Careers Services Unit have provided some further context for all graduates in this subject area, including details that numbers alone might not show
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The Longitudinal Educational Outcomes dataset combines HRMC earnings data with student records from the Higher Education Statistics Agency.
While there are lots of factors at play when it comes to your future earnings, use this as a rough timeline of what graduates in this subject area were earning on average one, three and five years later. Can you see a steady increase in salary, or did grads need some experience under their belt before seeing a nice bump up in their pay packet?
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