MEng Civil Engineering (Year in Industry)

2017 Clearing and Adjustment Availability

We expect to have a limited number of places available for Late, Clearing and Adjustment applicants for 2017 on a range of programmes. Entry requirements might vary from those shown below. For up to date information on vacancies and applying through Clearing or Adjustment, visit our dedicated 2017 Clearing and Adjustment pages.

Course Overview

MEng Civil Engineering (with a Year in Industry)

Civil Engineering at Swansea is ranked 4th in the UK for its graduate prospects, according to The Guardian University Guide 2017. As a student on the MEng Civil Engineering (with a Year in Industry) course, you will be taught by leading experts in their field and be provided with an excellent basis for a professional career in civil, structural, municipal and allied engineering fields.


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

Civil Engineering at Swansea is ranked 4th in the UK for its graduate prospects, according to The Guardian University Guide 2017.

Why study Civil Engineering at Swansea University?

Civil Engineering at Swansea University is well known as one of the most prestigious degrees in the UK. You can be assured of getting the best resources and teaching staff as well as top quality learning facilities.

Our research and development centre, specialising in computer methods for the solution of engineering problems, is acknowledged to be one of the finest in the world.

This gives you an immediate advantage when it comes to future employment or study. You reap the benefits of being a part of that same cutting-edge team.

QS world university rankings by subjectCivil Engineering at Swansea University is recognised as one of the top 200 departments in the world (QS World Subject Rankings).


Disclaimer: Module selection options may change.

Year 1 (Level 4)

FHEQ 4 Degree / HECert
Compulsory Modules
Module CodeSemesterCreditsModule Name
EG-107Semester 1 (Sep-Jan Taught)10Civil Laboratory I
EG-108Semester 1 (Sep-Jan Taught)10Engineering Sustainability
EG-120Semester 2 (Jan - Jun Taught)10Strength of Materials
EG-121Semester 2 (Jan - Jun Taught)10Highway Design and Surveying
EG-122Semester 2 (Jan - Jun Taught)10Conceptual Design
EG-166Semester 1 (Sep-Jan Taught)10Engineering Mechanics
EG-168Semester 1 (Sep-Jan Taught)10Engineering Professional Development
EG-180Semester 1 (Sep-Jan Taught)10Introduction to Materials Engineering
EG-189Semester 1 (Sep-Jan Taught)10Engineering Analysis 1
EG-190Semester 2 (Jan - Jun Taught)10Engineering Analysis 2
EGA116Semester 2 (Jan - Jun Taught)10Civil Engineering Structural Analysis Practice
EGA117Semester 2 (Jan - Jun Taught)10Fluid Mechanics I

Year 2 (Level 5)

FHEQ 5 Degree / HEDip
Compulsory Modules
Module CodeSemesterCreditsModule Name
EG-201Semester 2 (Jan - Jun Taught)10Fluid Mechanics II
EG-219Semester 1 (Sep-Jan Taught)10Statistical Methods in Engineering
EG-221Semester 1 (Sep-Jan Taught)10Structural Mechanics IIa
EG-222Semester 1 (Sep-Jan Taught)10Reinforced Concrete Design
EG-223Semester 1 (Sep-Jan Taught)10Basic Soil Mechanics
EG-224Semester 1 (Sep-Jan Taught)10Steel Design
EG-225Semester 2 (Jan - Jun Taught)10Structural Mechanics IIb
EG-228Semester 2 (Jan - Jun Taught)10Problem Solving in Engineering with Matlab
EG-233Semester 1 and 2 (Sep-Jun Taught)0Placement Preparation: Engineering Industrial Year
EG-234Semester 2 (Jan - Jun Taught)10Engineering Management (Civil)
EG-235Semester 2 (Jan - Jun Taught)10Dynamics 1
EGA200Semester 2 (Jan - Jun Taught)10Civil Engineering Design Practice I
GEL200Semester 1 (Sep-Jan Taught)10Introductory Geology for Engineers

Year 3 (Level 6)

FHEQ 6 Degree / Honours
Compulsory Modules
Module CodeSemesterCreditsModule Name
EG-233Semester 1 and 2 (Sep-Jun Taught)0Placement Preparation: Engineering Industrial Year
EG-3064Semester 2 (Jan - Jun Taught)10Construction Management/Project Delivery
EG-320Semester 2 (Jan - Jun Taught)10Structural Mechanics III
EG-321Semester 1 (Sep-Jan Taught)10Geomechanics
EG-323Semester 1 (Sep-Jan Taught)10Finite Element Method
EG-326Semester 2 (Jan - Jun Taught)10Engineering of Foundation
EG-328Semester 1 (Sep-Jan Taught)10Superstructure Design
EG-329Semester 2 (Jan - Jun Taught)10Hydrology and Unsteady Flow
EG-353Semester 1 and 2 (Sep-Jun Taught)30Research Project
EGA304Semester 2 (Jan - Jun Taught)10Civil Engineering Design Practice II
EGA331Semester 1 (Sep-Jan Taught)10Coastal processes and engineering

Year 4 (Level 6)

FHEQ 6 Degree / Honours
Compulsory Modules

None found.

Year 4 (Level 5 YR OUT)

FHEQ 5 Sandwich Year
Compulsory Modules
Module CodeSemesterCreditsModule Name
EG-E01Semester 1 and 2 (Sep-Jun Taught)120Industrial Placement Year (Engineering)

Year 5 (Level 7)

FHEQ 7 Integrated Degree

Students choose 120 credits from the following:

Compulsory Modules
Module CodeSemesterCreditsModule Name
EGEM07Semester 2 (Jan - Jun Taught)10Fluid-Structure Interaction
EGIM07Semester 1 (Sep-Jan Taught)10Dynamics and Transient Analysis
EGIM08Semester 2 (Jan - Jun Taught)10Computational Plasticity
EGIM15Semester 2 (Jan - Jun Taught)10Water and Wastewater Infrastructure
EGIM27Semester 2 (Jan - Jun Taught)10Reservoir Modelling and Simulation
EG-M23Semester 1 (Sep-Jan Taught)10Finite Element Computational Analysis
EG-M24Semester 1 (Sep-Jan Taught)10Advanced Structural Design
EG-M62Semester 1 and 2 (Sep-Jun Taught)30Group project
EG-M87Semester 1 (Sep-Jan Taught)10Coastal Engineering
Optional Modules
Module Group 1 

Choose Exactly 10 credits from the following Modules:

Module CodeSemesterCreditsModule NameGuidance
EG-M25Semester 1 (Sep-Jan Taught)10Advanced Structural Analysis
EG-M35Semester 1 (Sep-Jan Taught)10Flood Risk Management


As a student on the MEng Civil Engineering course (with a Year in Industry) course, you will be equipped to play an important role in society and to become involved in challenging engineering projects. There are both theoretical and practical elements, to give you a challenging yet hands-on learning experience.

Entry Requirements

The entry requirements of the MEng Civil Engineering (with a Year in Industry) course are:

AAA-AAB at A level (including Mathematics).

Other recommended subjects include:
Further Mathematics
Design Technology

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.

Or 34 at IB (preferably to include good marks at HL Mathematics).

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 Civil Engineering (with a Year in Industry) as an UK or EU student.

Find out how to apply for the MEng Civil Engineering (with a Year in Industry) as an international student

Tuition Fees

Annual tuition fees for entry in the academic year 2017/18 are as follows:

UK/EU International
MEng (Hons) Full-time (with a year in Industry) £9,000 £17,450

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.

During a sandwich year (e.g. year in industry, year abroad or placement year) a lower fee will apply. For more information visit our tuition fees page.

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.

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.


The MEng Civil Engineering at Swansea University is accredited by the Joint Board of Moderators (JBM), which is composed of the Institution of Civil Engineers (ICE), the Institution of Structural Engineers (IStructE), the Chartered Institution of Highways and Transportation (CIHT), and the Institute of Highway Engineers (IHE). The accreditation is on behalf of the Engineering Council for the purposes of fully meeting the academic requirement for registration as a Chartered Engineer.

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 as a Chartered Engineer. 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.

Year in Industry

The year in industry can be undertaken in the UK or overseas. The advantages of the placement year are extensive. 

For example, not only will you gain valuable industrial experience, you will also be paid a salary for that year. Currently, the average annual salary is over £15,000.

Support and guidance is provided to help you secure a placement. There are CV writing workshops, presentations from students and companies. Plus advice on job hunting and application tips.

Find out more on our Year in Industry website:

Sample Timetable

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

Please note timetables are subject to change.

Civil Engineering Timetable

What do our students say?

Panagiotis ManisPanagiotis Manis, Civil Engineering graduate

“Studying engineering at Swansea University was a sheer pleasure. Definitely, one of the major advantages is the high quality of the courses."

Michael WeberstadtMichael Weberstadt, Studying a PhD at Swansea

The years I spent at Swansea University as an undergraduate were truly excellent. Lecturers are enthusiastic about what they teach and are always on hand to answer questions.”

Alkistis Eleni KosmaAlkistis Eleni Kosma, Civil Engineering graduate

My favourite memories from the course go back to the module of Geomechanics. Interaction inside the lecture theatre helped me understand more about structures, motivated me to get deeply into mechanics and eventually evolve to a better engineer.”

What are my career options?

We prepare our students for their future careers. Civil Engineering at Swansea is ranked 1st in the UK for its graduate prospects, according to The Guardian University Guide 2016.

Our degrees provide an excellent basis for a professional career in civil, structural and allied engineering fields. Civil engineers are also highly valued in sectors requiring numeracy and problem solving skills.

‌James Wilkie, Senior Civil Engineer at Energy and Power (Oil, Gas and Energy consultancy): “The College of Engineering at Swansea University is well respected in the industry. Studying at Swansea allowed me to learn about the opportunity at Energy and Power, which along with my degree, allowed me to be successful in securing a job.

‌Francis NG, Graduate Structural Engineer at Atkins: “With the knowledge I acquired from the College of Engineering, it gave me a good competitive advantage in getting a job. Studying at Swansea will provide you with opportunities for job hunting as the University will send you information about new jobs regularly.”

Some of our other recent Civil Engineering graduates and their job roles:

Reem Boujrad, Graduate Civil Engineering Project Manager, Artelia International

David Ashworth, Graduate Geotechnical Engineer, Atkins

‌Emma Basketter, Graduate Engineer, Halcrow

Lee Meaden, Civil Engineer, Devon Country Council

Elliot Fissenden-Lowe, Consultant Civil Engineer, Jacobs

What skills will I gain?

As a student on the Civil Engineering programme, you will gain the knowledge to:

  • Design and analysis civil engineering structures
  • Break a complex engineering problem down into its component parts, to sketch/model engineering solutions and to be able to understand and prepare technical reports
  • Build awareness of current Design Practices through the use of the latest Engineering Standards (e.g. Eurocodes)
  • Develop your own software with the final purpose of analysing realistic civil engineering problems
  • Be critical awareness of the advantages and disadvantages of different design approaches when facing a civil engineering problem, including aspects such as environmental constraints, economy or health and safety.

Examples of final year projects

Some examples of final year industry linked projects include:

  • Bronglais Hospital - Proposed Expansion (Aecom)
  • A465 Rassau Industrial Estate Junction (Arup)
  • A40 Canaston Bridge (Atkins)
  • Bicester NW – Sustainable Development, Water & Zero Carbon (Hyder)
  • Cefn Hengoed School, Swansea (Mott MacDonald)

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

Swansea University Race EngineeringAt Swansea University, you can design and build a single-seater racing car to compete against other universities, as part of our Formula Student team. This on-going competition is highly regarded by the engineering industry since it provides an excellent source of innovative ideas and highly motivated graduates. Find out more at

Our Civil Engineering facilities

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

"I enjoyed my Civil Engineering course at Swansea University; it was varied and the civil labs were well equipped for plenty of practicals to apply what was being taught in the lectures.” Emma Basketter, Graduate Engineer at Halcrow, Civil Engineering graduate

Experimental facilities are used for both undergraduate teaching and research purposes. Find out more about the facilities used by Civil Engineering students at Swansea University.

Dartec Universal Precision Hydraulic Test MachineThe Dartec Universal Precision Hydraulic Test Machine used for material and component testing

Our research is ranked as Top 10

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

The Zienkiewicz Centre for Computational Engineering is one of the leading centres in the world for computational modelling research, with fundamental advancements in the field first being made over 40 years ago by Civil Engineers here at Swansea.

Computational engineering is the development and use of carefully-written computer codes to simulate the physics of a particular engineering phenomenon. This often involves very large-scale mathematics being solved using a supercomputer.

Computational engineering is now fundamental to manufacturing, the automotive and aerospace industries, design of civil engineering structures, such as bridges, dams and buildings, oil and gas pipelines, as well as the development of technology for new renewable energy sources, to name but a few.

Exciting current research addresses areas such as:

  • Sustainable energy
  • Water engineering
  • Fuid-structure interaction
  • Biomedicine
  • Oil and gas exploration
Bloodhound Computational Fluid Dynamics Computational Fluid Dynamics used to design the World Land Speed Record BLOODHOUND SSC