MEng Chemical Engineering

Course Overview

MEng Chemical Engineering

Chemical Engineering at Swansea is ranked 4th in the UK for student satisfaction by The Times and Sunday Times University Guide 2016. As a student on the MEng Chemical Engineering course, you will be prepared to meet the needs of modern process engineering. Modules build on established chemical engineering areas with application to energy, health, food, water and the environment.

Scholarships

You may be eligible for funding to help support your study.

To find out about scholarships, bursaries and other funding opportunities that are available please visit the University's scholarships and bursaries page.

International Scholarships

Key Features

Chemical Engineering at Swansea is ranked 4th in the UK for student satisfaction by The Times and Sunday Times University Guide 2016.

Why study Chemical Engineering at Swansea University?

From authoring definitive text books on chemical engineering to finding solutions to the world's water shortages, Swansea University has a proud tradition delivering pioneering process engineering solutions to meet our modern-day needs.

Our internationally leading research underpins our MEng Chemical Engineering course, which provides knowledge of physical, chemical and biological processes. Our enthusiastic staff are committed to excellence in teaching and research.

The starting salary for graduate Chemical Engineers is the highest out of all engineering disciplines.

Chemical Engineering students Chemical Engineering students in the lab at Swansea University

Modules

Disclaimer: Module selection options may change.

Year 2 (Level 5)

Year 3 (Level 6)

Year 4 (Level 7)

Description

As a student on the MEng Chemical Engineering degree, you will learn the skills to be an effective Chemical Engineer.

Chemical engineers design, operate and optimise chemical and physical processes that turn raw materials into valuable products for human use. They also use their skills to dispose of the by-products generated by these processes in a safe and environmentally friendly manner. 

Entry Requirements

The entry requirements for the MEng Chemical Engineering course are:

AAA-AAB at A level (including Mathematics and Chemistry subject).

Variable offers made dependent on subjects studied and all applications are considered on an individual basis, with GCSE grades, AS Level subjects and grades, work experience, references and personal statement taken into account.

Students studying for BTEC qualifications require DDD - DDM plus B grade at A level Mathematics. Studying A level Mathematics alongside a BTEC qualification is our strongly recommended entry pathway for those studying BTEC qualifications. Students not studying A level Mathematics, alongside their BTEC qualification, require D*DD-DDD with D in ‘Mathematics for Technicians’ and D in ‘Further Mathematics for Technicians’, plus minimum GCSE grades of B in Mathematics and 2 x B grades in Science/Engineering/Manufacturing.

Find out the entry requirements for an international student.

Students with industrial experience and qualifications will be considered on a case-by-case basis. If you have studied access or vocational qualifications, you are advised to apply for the Integrated Foundation Year.

If you are applying for Level Two (second year) entry, in order to be considered, you will need to have already covered the topics offered in Swansea at Level One (first year) in a certified qualification, with a high overall score.

How To Apply

Find out how to apply for the MEng Chemical Engineering course as an UK or EU student.

Find out how to apply for the MEng Chemical Engineering course as an international student.

Tuition Fees

Annual tuition fees for entry in the academic year 2016/17 are as follows:

UK/EU International
MEng (Hons) Full-time £9,000 £16,950

Tuition fees for years of study after your first year are subject to an increase of 3% for International students and at the capped fee rate as set by the UK Government for UK/EU students.

You can find further information on fees and how to pay on our tuition fees page.

You may be eligible for funding to help support your study. To find out about scholarships, bursaries and other funding opportunities that are available please visit the University's scholarships and bursaries page.

Current students: You can find further information of your fee costs on our tuition fees page.

Additional Costs

The tuition fees do not cover costs incurred personally by the student such as the purchase of books or stationery, printing or photocopying costs.

Students on this course will need to meet the costs of the item below:

  • Pair of safety boots for industrial site visits. £20 maximum cost.

Recommended textbooks for this course are available in the library. All software needed for the course is available on the Engineering network, for use within our PC rooms at Swansea University.

Free wireless internet access is available across the whole of the University campus and halls of residence.

Accreditation

The MEng Chemical Engineering at Swansea University is accredited by the Institution of Chemical Engineers (IChemE).

Accreditation is a mark of assurance that the degree meets the standards set by the Engineering Council in the UK Standard for Professional Engineering Competence (UK-SPEC).  An accredited degree will provide you with some or all of the underpinning knowledge, understanding and skills for eventual registration as an Incorporated (IEng) or Chartered Engineer (CEng).  Some employers recruit preferentially from accredited degrees, and an accredited degree is likely to be recognised by other countries that are signatories to international accords.

IChemE internationally accredited degree IChemE accreditation:

  • Assures you that the course will give you a solid professional grounding in the subject
  • Assures you the teaching will be of a high standard, relevant, with appropriate practical content and appropriate contact hours from fully qualified academic staff
  • Meets the needs of employers
  • Includes internationally accepted standard process safety and sustainability content
  • Provides a foundation for you to aim for the prized Chartered Engineer status

Sample Timetable

Below is a sample timetable for Chemical Engineering Level 1 Semester 1.

Please note timetables are subject to change.

Chemical Engineering Year 1

What do our previous students say?

Delyth Williams 50x50‌Delyth Williams, Refinery Chemical Engineer at Phillips 66

The staff and students within Engineering were fantastic. It was the most enjoyable years of my life to date.”

Dan EadeDan Eade, winner of the Royal Academy of Engineering's Advanced Leadership Award and Salters’ Graduate Prize

I have met some fantastic engineers, all of which have made studying in Swansea a really enjoyable experience. After I graduate, I will be starting my job as a Process Engineer with Valero."

Jennifer JamesJennifer James, Graduate Project Manager at BOC graduate scheme

"On the interview day I was given a list of topics from which I was to pick and prepare a presentation. My past experience in my group project helped in knowing how to set this out successfully." 

What are my career options?

The demand for Chemical Engineering graduates remains excellent with the highest starting salaries out of all engineering disciplines. There are global career opportunities to work in a range of industries including energy, water, healthcare and the environment.

Some of our recent Chemical Engineering graduates and their job roles:

Jennifer James, Graduate Project Manager, BOC graduate scheme

Jessica Matthews, Nuclear Graduate Planning Engineer, EDF Energy

Abdulrahman Al Sharhan, Chemical Engineer, SABIC

Delyth Williams, Refinery Chemical Engineer, Phillips 66

Paul Beer, Process Engineer, AstraZeneca

Ceri James, Unit Process Engineer, Phillips 66

What skills will I gain?

Our Chemical Engineering degree programmes encourage the development of analytical and creative skills.

These skills are necessary for the economic and safe design, safe operation and management of processes from large-scale industrial production to medical applications; from improved food processes and environmental impact.

Examples of final year projects

  • Production of Paracetamol
  • Manufacture of Hydrogen
  • Manufacture of Acrylonitrile
  • Design of a Crude Oil Refinery
  • Design of a Process Plant to Manufacture Ethylene from Sugar and Waste Wood Liquor Feedstocks
  • Design of a Process Plant to Manufacture Naptha Hydrocarbons from Gasification of Coal and Anaerobic Biodigestion of Domestic and Industrial Food Waste
  • Design of a Wastewater Treatment Plant
  • Design of a 1500MW Coal Fired Electrical Power Station

Our student societies

Engineering and Sports Science Society logoAs an Engineering student at Swansea University, you will be able to join our thriving Engineering and Sports Science Society. Through the Society, you can meet people from other Engineering disciplines through events, socials, and industrial visits. 

Chemical Engineering Society logoWe also have an active Chemical Engineering society, which is open to all Chemical Engineering students at Swansea. As part of the group, you can attend events, be part of a like-minded group for discussions about your course, and be involved in professional development activities.

You can find out more about both Societies at the Fresher’s Fair during the Welcome Week of the first term.

Our Chemical Engineering facilities

Our new home at the innovative Bay Campus provides some of the best university facilities in the UK, in an outstanding location.

Swansea has a global reputation for engineering. When I visited the staff were especially welcoming and enthusiastically showed me around their excellent facilities." Ceri James, Unit Process Engineer at Phillips 66, Chemical Engineering graduate 

Chemical Engineering student 
Chemical Engineering student in the lab at Swansea University

Examples of equipment employed during undergraduate study in the characterisation and study of processes include:

  • Atomic force microscopy
  • Fermentation rigs
  • Particle characterisation
  • Surface plasmon resonance
  • Hydrodynamic shear adhesion assays
  • Membrane separation rigs and rheometers

Find out more about the facilities used by Chemical Engineering students at Swansea University.

Our research is ranked as Top 10

The Research Excellence Framework (REF) in 2014 ranked Engineering at Swansea University as Top 10 in the UK for the combined score in the research quality across the Engineering disciplines.

Our internationally leading research underpins our taught schemes that provide knowledge of physical, chemical and biological processes.

Our internationally-recognised research on membrane processes and Atomic Force Microscopy (AFM) techniques has had a significant impact in a wide range of industries. This includes process engineering, water and wastewater treatment, health care and pharmaceuticals.

Our researchers were the first in the world to apply Atomic Force Microscopy (AFM) to membrane separation in the field of process engineering. Membrane optimisation processes have emerged as one of the most significant recent developments in chemical engineering, with a range of applications. Find out more about how our research has led to significant commercial and health benefits.

The Centre for Water Advanced Technologies and Environmental Research (CWATER) is an internationally leading centre of excellence for the development of advanced technologies in water treatment.

The Centre benefits from world-leading expertise in the areas of desalination and membrane technologies for water treatment.