School of Engineering, Computing and Mathematics

MEng (Hons) Civil and Coastal Engineering

Are you fascinated by the designs of large coastal structures such as seawalls and breakwaters and how these withstand attack by the sea? Do you want to help protect our coastal communities from the threat of flooding and sea level rise? Do you want to understand how to plan and construct a port? Our MEng graduates in Civil and Coastal Engineering are trained as civil engineers with specialist knowledge in the realisation of projects that are essential to the functioning of coastal societies.

This accredited MEng provides the further learning component required for Chartered Engineer status. You will be supported and inspired by our enthusiastic academic staff. They will encourage you to enhance your professional experience through attendance at meetings and seminars, and the option of a paid year in industry with a civil engineering employer. You will also be offered a mentor from our network of Plymouth Civil Engineers to help guide you at the start of your professional career.

The Plymouth Engineer Scholarship: Civil and coastal engineering degrees

Up to £1,000. Students are automatically paid £500/£250 for an A / B in Mathematics A level and/or one further sum of £500/£250 for an A / B in a relevant science subject or in A level Geography. This is awarded to home/EU applicants who put us as their firm choice before the 1 August 2020. The scholarship is paid during the first semester of the first year.

There are additional prizes and awards to reward high achievement in later years of the degree.

Sea wall and pier at sunrise Teignmouth South Devon UK.

Key features

  • In the Academic Ranking of World Universities (ARWU), also known as the Shanghai Ranking we are eighth out of 50, and the highest ranked UK university, for Marine/Ocean Engineering.
  • Distinguish yourself professionally with an accredited degree. Our MEng (Hons) is accredited by the Institution of Civil Engineers (ICE), The Institution of Structural Engineers (IStructE), The Institute of Highway Engineers and the Chartered Institution of Highways & Transportation on behalf of the Engineering Council, for the purposes of fully meeting the academic requirement for registration as a Chartered Engineer (CEng). You'll qualify for membership of the Institution of Civil Engineers (ICE) and Institution of Structural Engineers.
  • Get your career off to a flying start by spending an optional work placement year working as a paid student engineer – a great opportunity to further your knowledge and make important industry contacts.
  • Study at one of the world’s leading centres for coastal engineering research – you’ll keep pace with the ever-changing discoveries, insights and thinking in the subject.
  • Benefit from our £19 million Marine Building, which offers facilities for teaching water and coastal engineering. Our design project module in coastal engineering equips you to specialise in design or flood risk management and port engineering.
  • Draw on our teaching staff of professionally qualified experts with relevant experience from the civil engineering industry, and researchers with national and international reputations. 90 per cent of our students say our staff are good at explaining things [source: UNISTATS].
  • Learn a host of design skills from problem solving to sustainable development, as well as acquiring the critical thinking that plays a key role in the work of a civil engineer, including interpreting and analysing data.
  • Increase your employability by taking an extra-curricular HSE-recognised diving qualification (subject to availability).
  • Develop your professional skills including communication, self-management, team working and leadership, all vital in obtaining graduate employment and a rewarding career.
  • Join our extensive network of Chartered Civil Engineers who have graduated from Plymouth University and now work at all levels in the industry both nationally and internationally.

Course details

  • Year 1
  • In the first year, you will be introduced to the role of the professional civil engineer – grounded in an understanding of the application of mathematics in engineering and the behaviour of civil engineering structures. Working in both lab and field, you will develop skills in surveying, computer aided design and the properties of engineering materials. We’ll begin your professional development through site visits, group-based design activity and visiting industry speakers.
    Core modules
    • BPIE114 Stage 1 Civils Placement Preparation

      This module is aimed at students who may be undertaking an industrial placement in the third year of their programme. It is designed to assist students in their search for a placement and in their preparation for the placement itself.

    • CIVL103 Civil Engineering Practice

      This module introduces and develops students¿ understanding of the skillset, competencies and professional responsibilities required of civil engineering practice. It includes site visits, practical exercises, and talks from practising professional engineers reflecting on their experience in industry. The module also includes `hands on¿ training in Computer Aided Design (CAD).

    • CIVL104 Introduction to Hydraulics and Geotechnics

      This module introduces two important technical subjects in Civil Engineering: Hydraulics and Geotechnics. Hydraulics considers fundamental concepts of hydrostatics and hydrodynamics. Geotechnics considers the ground in the context of Civil Engineering. The module includes field trips to local sites of Geological interest.

    • MATH187 Engineering Mathematics

      The module provides students with a number of fundamental mathematical skills and techniques which are essential for the analysis of engineering problems.

    • MATS123 Materials for Civil Engineering and Construction

      This module will enable students to develop an understanding of the origins and properties of materials commonly used by the civil engineering industry. Students will be engaged in the practical testing of materials in order to judge their relative strengths and weaknesses. Health and safety matters associated with each of the materials will also be highlighted.

    • STAD117 Structural Analysis and Design I

      This Module equips student with basic and essential structural analysis and design skills that are key requirements for Civil and Structural Engineering disciplines. This module also introduces students to practical applications of these concepts using hand calculations, laboratory and computer software tools to enhance their deeper understanding.

    • SURV100 Civil Engineering Surveying

      This module covers basic land, site and building surveying methods that are commonly used in the construction industry. It includes principles such as survey control networks and setting out, and the associated calculations. Students will undertake practical use of instruments such as an automatic level and `total station'. There is also an introduction to Global Positioning Systems (GPS), and highway alignments.

  • Year 2
  • Explore the core disciplines of civil engineering, from structural analysis and design to hydraulic engineering through lectures, practical activities, site visits and a field course. We will introduce you to some specialist areas of the industry, including coastal engineering and water management.
    Core modules
    • BPIE214 Stage 2 Civils Placement Preparation

      This module is aimed at students who may be undertaking an industrial placement in the third year of their programme. It is designed build on the Level 1 module (BPIE111) and to assist students in their search for a placement and in their preparation for the placement itself.

    • CIVL200 Civil Engineering Design and Construction

      This module traces the stages of a civil engineering scheme through design and construction. Design stages are covered through work on an integrating project including multiple Civil Engineering elements. Construction stages are covered through treatment of health and safety and construction practice. The continuity between the design and construction stages is emphasised in terms of the requirements of the CDM regulations.

    • GEEN213 Geotechnical Engineering

      This module initially builds on basic Soil Mechanics concepts introduced in the first year via a range of common lab tests. The concepts of groundwater flow and consolidation will be considered, with associated calculations. Methods of analysis for estimation of stability and deformation when the ground is loaded will be introduced, with the accompanying concepts of material or load factors.

    • HYFM232 Hydraulic Coastal Engineering

      This module develops hydraulic engineering concepts introduced in the first year, and introduces hydrodynamic concepts required for coastal engineering. Hydraulic engineering material includes predicting flow in pipes and open channels. Coastal engineering topics include study of waves and tides, and their application to coastal engineering. Learning is supported by laboratory work and a site visit.

    • MATH238 Engineering Analysis

      This module builds upon the stage one engineering mathematics module, by introducing students to more advanced mathematical ideas, statistical techniques and numerical methods. The methods and techniques studied are used to solve relevant civil engineering applications, with some emphasis on interpreting the results obtained. Industrially recognised software packages are also used where appropriate.

    • MGMT222 Construction Management

      The aim of this module is to deepen students' knowledge and understanding of commercial aspects of construction management and project planning. In addition the module aims to build practical skills in the use of project planning software and the practical use of codes of conduct that guide appropriate personal behaviour in professional engineering practice.

    • STAD215 Structural Analysis and Design II

      This module extends the theoretical base established by the Stage 1 Structural Analysis and Structural Design modules. It is intended to combine the basic principles of analysis with design to develop an integrated approach to solving problems in Structural Engineering. The module is supported by the use of computer software and laboratory work.

  • Optional placement year
  • By taking the opportunity to spend a year in paid professional employment as a student civil engineer, you will gain real world experience, industry contacts and the possibility of summer work, sponsorship or a graduate job offer. Our Employability Service will support you in finding a placement and we offer an extensive network of employers across all sectors.
    Optional modules
    • BPIE340 Civil Engineering Related Placement (Generic)

      A 48-week period of professional training spent as the third year of a sandwich programme undertaking an approved placement with a suitable company. This provides an opportunity for the student to gain relevant industrial experience to consolidate the first two stages of study. Help to prepare the student for the final stage and employment after graduation.

  • Year 3
  • You will deepen your understanding of the core technical subjects in civil engineering with a particular emphasis on coastal engineering design - culminating in an industry-focused group design project. You will spend much of the year completing a research-based individual project – that focuses on laboratory experiments, computer-aided modelling, or field work linked to our staff’s research and professional interests.
    Core modules
    • COUE318 Coastal Engineering Analysis and Design

      Building on the basic elements of Coastal Engineering, this module provides the fundamental understanding of coastal processes (wave mechanics, nearshore hydrodynamics and sediment transport) and coastal structures (design parameters, layout, cross section) required for a coastal engineering project. Emphasis is given to the interactions between coastal structures and processes. Basis for COUE319 design module.

    • COUE319 Coastal Engineering Design Project

      This module comprises of a major group design project focussed on a coastal engineering scheme. It provides experience in the design of a realistic, simulated coastal engineering project. The project is designed as a group project, to mimic a professional practice team.

    • GEEN313 Geotechnical Engineering 2

      Different theories and design methodologies are introduced succinctly at the beginning of each topic, followed by design practice with detailed worked examples and case studies. The emphasis is on introducing students to the latest analysis tools used in practice, and on making them relate to the outcome of different worked examples.

    • HYFM321 Hydraulic Engineering 2

      This module builds upon a fundamental understanding of basic hydraulic theory, to develop knowledge, understanding and ability to use theoretical principles to analyse steady and unsteady hydraulic systems comprising pipes, open channels, hydraulic machines. The module also introduces theory underpinning the use physical hydraulic modelling.

    • PRCE310 Individual Project

      The individual project enables the student to research an approved topic related to civil or coastal engineering. It comprises a critical review of background literature and current knowledge that allows the student to identify a focus for their inquiry. Guided by an academic supervisor, the ensuing investigation comprises theoretical development, experimental and / or computational work, and a final analysis.

  • Final year
  • In your final year, you will extend your existing skills in geotechnical engineering, hydraulics and computation and information technology. Broaden your knowledge by studying subjects such as modelling marine processes, structural engineering and project management. In preparation for your future career, you will focus on the commercial aspects of the civil engineering business through a group-based design project.
    Core modules
    • COUE506 Port and Harbour Engineering

      This module presents the fundamental elements of the layout, design and construction of modern port structures, and provides students with the necessary understanding of the forces and loadings acting of them. The subject combines 3 elements not often found together in engineering: the requirements of a major transport infrastructure, the harsh marine environment, and the design of highly specific structural solutions.

    • GEEN501 Advanced Geotechnical Engineering

      It is expected that students completing this module would be able to (have the option to) pursue a career in geotechnical design, given the level of analysis used (examples include the calculations of the deflection around a tunnel cross section, along a laterally loaded pile or along a combined foundation).

    • HYFM504 Advanced Hydraulic Engineering

      This module investigates the hydraulic engineering factors influencing the computational modelling and management of riverine flood risk. It appraises the relative merits of techniques used in civil engineering practice for flood modelling and for flood risk management, with an emphasis on reliability assessment. The module is supported by the use of computer software and laboratory work.

    • MATH511 Advanced Engineering Analysis

      This module consists of two parts: Advanced IT & Advanced Engineering Analysis. The IT part explores the benefits and limitations of IT in engineering practice. State of the art tools will be introduced and experts from industry will demonstrate practical applications of IT to complex engineering projects. The 2nd part of the module uses a range of numerical methods for the solution of various engineering problems.

    • MGMT504 Engineering Business Management

      In this module students will develop an understanding of business function and process areas and their role in the strategic management of an engineering business.

    • PRCE513 Interdisciplinary Design

      This module enables students to undertake a major project to solve an Interdisciplinary Design Problem. Students, working in groups will select and implement a design project from initial concept to a fully documented, planned, and costed proposal for potential stakeholders. Students are expected to address a broad spectrum of design outcomes (infrastructure, structures, integrated systems etc).

Every undergraduate taught course has a detailed programme specification document describing the course aims, the course structure, the teaching and learning methods, the learning outcomes and the rules of assessment.

The following programme specification represents the latest course structure and may be subject to change:

MEng Civil And Coastal Engineering Programme Specification September 2019 2224

The modules shown for this course are those currently being studied by our students, or are proposed new modules. Please note that programme structures and individual modules are subject to amendment from time to time as part of the University’s curriculum enrichment programme and in line with changes in the University’s policies and requirements.

Entry requirements

UCAS tariff

120 - 136

A Level: Typical offer will be 128 points, minimum of 2 A Levels including a B in A Level Maths plus studying second relevant subject: Applied ICT, Applied Science, Applied Science (DA), Biology, Chemistry, Computing/Computer Science, DT (Product Design Resistant Materials), DT (Systems and Control Tech) DT Product Design (Textiles Tech), Electronics, Engineering, Environmental Science, Geography, Geology, Further Maths/Use of, Statistics, Music Technology, Physics, Technology and Design. Excluding General Studies.

Applicants exceeding our entry requirements may be eligible for an offer under our Engineering and Navigation Excellence Scheme.

BTEC QCF Level 3 or RQF Extended Diploma in Engineering (equivalent to 3 GCE A levels): BTEC accepted in combination in combination with an A level. BTEC DDD (to include all Maths units with Distinction) plus Grade C in A Level Maths (Core Maths not accepted).

All Access courses: not accepted for MEng, unless the applicant has additional qualifications or experience. Please refer to our BEng course pages and contact a member of the Undergraduate Admission team on 01752 585858 / ug-admissions@plymouth.ac.uk  

International Baccalaureate: 30-32 overall to include 5 at Higher Level Maths and a second relevant subject.

Other non-A level qualifications also considered, please enquire.

English language requirements         

For a full list of all acceptable qualifications please refer to our tariff glossary

Please note: We understand that many applicants remain anxious about meeting the exact terms of our standard conditional offers. We will look again at your application and revise our offer for those applicants who we continue to believe are a good match to our courses, once we have the certainty of your actual results in August.         

Fees, costs and funding

EU applicants should refer to our dedicated Brexit webpage for details of the implications of the UK’s plans to leave the European Union.

New Student 2019 2020
Home/EU £9,250 £9,250
International £13,400 £13,800
Part time (Home/EU) To be confirmed To be confirmed
Full time fees shown are per annum. Part time fees shown are per a number of credits. Please note that fees are reviewed on an annual basis. Fees and the conditions that apply to them shown in the prospectus are correct at the time of going to print. Fees shown on the web are the most up to date but are still subject to change in exceptional circumstances.

The Plymouth Engineer Scholarship: Civil and coastal engineering degrees

Up to £1,000. Students are automatically paid £500/£250 for an A / B in Mathematics A level and/or one further sum of £500/£250 for an A / B in a relevant science subject or in A level Geography. This is awarded to home/EU applicants who put us as their firm choice before the 1 August 2020. The scholarship is paid during the first semester of the first year.

There are additional prizes and awards to reward high achievement in later years of the degree.

Undergraduate scholarships for international students

To reward outstanding achievement the University of Plymouth offers scholarship schemes to help towards funding your studies.

Find out whether you are eligible and how you can apply

Additional costs

This course is delivered by the Faculty of Science and Engineering and more details of any additional costs associated with the faculty's courses are listed on the following page: Additional fieldwork and equipment costs.

How to apply

All applications for undergraduate courses are made through UCAS (Universities and Colleges Admissions Service). 

UCAS will ask for the information contained in the box at the top of this course page including the UCAS course code and the institution code. 

To apply for this course and for more information about submitting an application including application deadline dates, please visit the UCAS website.

Support is also available to overseas students applying to the University from our International Office via our how to apply webpage or email international-admissions@plymouth.ac.uk.

University features in film celebrating Plymouth’s engineering prowess

The Institution of Civil Engineers (ICE) presents Engineering Plymouth. A film celebrating how civil engineers have helped to shape Plymouth over the last 500 years. The film tells the story of Plymouth through its engineering milestones. From laying the foundations for a new town to the introduction of the Great Western Railway and the impressive Royal Albert Bridge. Through the Blitz bombs and on towards new horizons – robotics, artificial intelligence and the use of drone technology – we see how engineers are tackling problems and safeguarding the future for generations to come. 

Read the full article and watch the video

Facilities and resources

From dedicated computer laboratories to a wealth of electronic information, you’ll benefit from a range of facilities and resources that will help your learning and development.

Our facilities include our £19 million Marine Building and dedicated engineering laboratories equipped with industry standard software.

Find out more about our exceptional civil engineering facilities and resources

Connecting with industry

Connecting with the industry

As a course focused on employability, we’ve developed a number of relationships with the industry to help provide you with the connections and opportunities you’ll need to begin your career.

We work closely with industry experts, organisations and awards to enhance your employability.

Find out about our industry partners, awards and course accreditation

Industry Profile - Paul Santer

Paul Santer, Regional Director of CECA South West, talks to us about why the University of Plymouth is a great institution for students to kick-start their career, in both the civil engineering, and coastal engineering, industries.

Industry profile - Jon Benton

Jon Benton, Regional Director for Dawnus Construction, talks us through his time as a Plymouth student, as well as employability prospects as a University of Plymouth engineering graduate.

Work placements

  • ? A placement year will give you the opportunity to experience working life, and can lead to a job offer upon graduation

Harriette Scowen - MEng (Hons) Civil Engineering graduate

I was encouraged to take the industrial placement year...Now here I am, four years later as a graduate with a First Class MEng (Hons) Civil Engineering degree.

After her industrial placement with AECOM, Harriette was offered sponsorship and a full-time graduate position after the completion of her studies.

Read Harriette's profile

Think about your future

Careers

With 100 per cent of graduates employed in a professional or managerial role six months after graduation, the connections we provide are meaningful and will have a direct impact on your employability.

We’ll give you the advice and support you need to begin the career of your choice.

Find out more about how we prepare you for a career in civil engineering.

Find out what our graduates are doing now

Alumni profile: Katy Toms

Katy is now a Chartered Engineer at Aecom and Vice Junior Chair Woman of the Institute of Chartered Engineers (ICE). 

Watch our video to hear her talking about her studies at the University of Plymouth and how we helped to prepare her for her career in industry.

MEng (Hons) Civil and Coastal Engineering - Alex's story


Alex Philips, final year MEng (Hons) Civil and Coastal Engineering student, loves to run around Dartmoor. Watch his story, and discover his passion for water. 

What’s the difference between MEng and BEng?

MEng (Hons):  Accredited by the professional engineering institutions on behalf of the Engineering Council for the purposes of fully meeting the academic requirement for registration as a Chartered Engineer. 

BEng (Hons): Accredited by the professional engineering institutions on behalf of the Engineering Council for the purposes of fully meeting the academic requirement for registration as an Incorporated Engineer and partly meeting the academic requirement for registration as a Chartered Engineer.

The Tamar Engineering Project

Funding and mentoring for high achievers who might not otherwise consider higher education as a route to a career in computing and engineering.

Learn if you are eligible for this scholarship at the University of Plymouth through the Tamar Engineering Project.

Successful applicants will receive:

  • £3,000 towards living costs per year of study
  • £1,500 course fee waiver per year of study
  • one-to-one mentoring from an industry expert.

People

*These are the latest results from the National Student Survey. Please note that the data published on Unistats is updated annually in September.