About this course
Previously known as Ship Science, this course has changed its name to Maritime Engineering for applicants starting in September 2024
This is a specialised integrated master's course, which covers a number of advanced naval architecture topics. Here you'll get a broad mechanical engineering degree with a focus on maritime engineering. You'll study topics like design, mechanics and hydrodynamics as you prepare for a range of science careers.
This is a specialised integrated masters course, which covers a number of advanced naval architecture topics. Here you'll get a broad mechanical engineering degree with a focus on maritime engineering. You'll study topics such as design, mechanics and hydrodynamics as you prepare for a range of engineering careers.
On this MEng Maritime Engineering degree, you'll look at the design, construction and testing of ships and ocean structures. These could be for transport, recreation or harnessing marine resources.
You’ll learn the core principles of naval architecture and marine engineering, applying them to a wide range ofmarine vehicles. Later, you can choose to specialise your programme through one of 6 pathways:
- Advanced Computational Engineering
- Marine Engineering and Autonomy
- Naval Architecture
- International Naval Architecture
- Ocean Energy and Offshore Engineering
- Yacht and High Performance Craft
In year 3 you will complete an individual research project and in year 4 you’ll take part in a group design project.
As part of this course you can:
- learn computational design and modelling techniques
- use our state-of-the-art facilities, including the largest university towing tank in the UK
- learn from internationally-renowned engineers from the Wolfson Unit and Lloyd’s Register
- showcase your work in our annual Engineering Design Show
- visit sites to experience engineering in practice
- take a work placement during the summer holidays
Year in industry
Enhance your employability by taking this course with a paid industrial placement year.
Apply using:
- Course name: Maritime Engineering with Industrial Placement Year
- UCAS code: H52H
You'll spend this extra year at an engineering firm, applying the skills and knowledge you've learned so far.
The fee is 20% of the standard annual tuition fee.
We regularly review our courses to ensure and improve quality. This course may be revised as a result of this. Any revision will be balanced against the requirement that the student should receive the educational service expected. Find out why, when, and how we might make changes.
Our courses are regulated in England by the Office for Students (OfS).
Accreditations
This course is accredited by the Royal Institution of Naval Architects (RINA), the Institution of Mechanical Engineers (IMechE) and the Institute of Marine Engineering, Science and Technology (IMarEST) as meeting the academic requirement, in full, for Chartered Engineer registration.
This course is accredited by:
Using the towing tank in your maritime engineering degree
Learn more about this subject area
Course locations
This course is based at Highfield and Boldrewood.
Awarding body
This qualification is awarded by the University of Southampton.
Download the Course Description Document
The Course Description Document details your course overview, your course structure and how your course is taught and assessed.
Entry requirements
For Academic year 202526
A-levels
AAA including mathematics and either physics, chemistry or further mathematics
A-levels additional information
A pass in the science Practical is required where it is separately endorsed. Offers typically exclude General Studies and Critical Thinking. Applicants who have not studied the required A-levels can apply for the Engineering/Physics/Mathematics Foundation Year
A-levels with Extended Project Qualification
If you are taking an EPQ in addition to 3 A levels, you will receive the following offer in addition to the standard A level offer: AAB including mathematics and either physics, chemistry or further mathematics (minimum grade A) plus grade A in the EPQ
A-levels contextual offer
We are committed to ensuring that all learners with the potential to succeed, regardless of their background, are encouraged to apply to study with us. The additional information gained through contextual data allows us to recognise a learner’s potential to succeed in the context of their background and experience. Applicants who are highlighted in this way will be made an offer which is lower than the typical offer for that programme.
International Baccalaureate Diploma
Pass, with 36 points overall with 18 points at Higher Level, including 6 at Higher Level in Mathematics (Analysis and Approaches) or 7 at Higher Level in Mathematics (Applications and Interpretation), and 6 at Higher Level in Chemistry or Physics
International Baccalaureate Diploma additional information
Applicants who have not studied the required subject can apply for the Engineering/Physics/Mathematics Foundation Year
International Baccalaureate contextual offer
We are committed to ensuring that all learners with the potential to succeed, regardless of their background, are encouraged to apply to study with us. The additional information gained through contextual data allows us to recognise a learner’s potential to succeed in the context of their background and experience. Applicants who are highlighted in this way will be made an offer which is lower than the typical offer for that programme.
International Baccalaureate Career Programme (IBCP) statement
Offers will be made on the individual Diploma Course subject(s) and the career-related study qualification. The CP core will not form part of the offer. Where there is a subject pre-requisite(s), applicants will be required to study the subject(s) at Higher Level in the Diploma course subject and/or take a specified unit in the career-related study qualification. Applicants may also be asked to achieve a specific grade in those elements. Please see the University of Southampton International Baccalaureate Career-Related Programme (IBCP) Statement for further information. Applicants are advised to contact their Faculty Admissions Office for more information.
BTEC
D in the BTEC National Extended Certificate plus grades AA from two A-levels including mathematics and either physics, chemistry or further mathematics.
We will consider the BTEC National Extended Diploma in Engineering if studied alongside A-level mathematics.
We will consider the BTEC National Diploma if studied alongside mathematics and either physics, chemistry or further mathematics at A-level.
RQF BTEC
We are committed to ensuring that all learners with the potential to succeed, regardless of their background, are encouraged to apply to study with us. The additional information gained through contextual data allows us to recognise a learner’s potential to succeed in the context of their background and experience. Applicants who are highlighted in this way will be made an offer which is lower than the typical offer for that programme.
Additional information
A pass in the science Practical is required where it is separately endorsed. Applicants who have not studied the required A-levels can apply for the Engineering/Physics/Mathematics Foundation Year
QCF BTEC
D in the BTEC Subsidiary Diploma plus grades AA from 2 A-levels including mathematics and either physics, chemistry or further mathematics.
We will consider the BTEC Extended Diploma in Engineering if studied alongside A-level mathematics.
We will consider the BTEC Diploma if studied alongside A-level mathematics and either physics, chemistry or further mathematics.
We are committed to ensuring that all learners with the potential to succeed, regardless of their background, are encouraged to apply to study with us. The additional information gained through contextual data allows us to recognise a learner’s potential to succeed in the context of their background and experience. Applicants who are highlighted in this way will be made an offer which is lower than the typical offer for that programme.
Access to HE Diploma
Not accepted for this course. Applicants with an Access to HE Diploma in a relevant subject should apply for the Engineering/Physics/Mathematics Foundation Year
Irish Leaving Certificate
Irish Leaving Certificate (first awarded 2017)
H1 H1 H2 H2 H2 H2 including mathematics, applied mathemics and either chemistry, physics or physics-chemistry
Irish Leaving Certificate (first awarded 2016)
A1 A1 A2 A2 A2 A2 including mathematics, applied mathematics and either chemistry, physics or physics-chemistry
Irish certificate additional information
Applicants who have not studied the required subject can apply for the Engineering/Physics/Mathematics Foundation Year
Scottish Qualification
Offers will be based on exams being taken at the end of S6. Subjects taken and qualifications achieved in S5 will be reviewed. Careful consideration will be given to an individual’s academic achievement, taking in to account the context and circumstances of their pre-university education.
Please see the University of Southampton’s Curriculum for Excellence Scotland Statement (PDF) for further information. Applicants are advised to contact their Faculty Admissions Office for more information.
Cambridge Pre-U
D3, D3, D3 in three Principal subjects including mathematics and either physics, chemistry or further mathematics
Cambridge Pre-U additional information
Cambridge Pre-U's can be used in combination with other qualifications such as A levels to achieve the equivalent of the typical offer, where D2 can be used in lieu of A-level grade A* or grade D3 can be used in lieu of A-level grade A. Applicants who have not studied the required Principal subjects can apply for the Engineering/Physics/Mathematics Foundation Year
Welsh Baccalaureate
AAA from 3 A levels including mathematics and either physics, chemistry or further mathematics or AA from 2 A levels including mathematics and either physics, chemistry or further mathematics, and A from the Advanced Welsh Baccalaureate Skills Challenge Certificate.
Welsh Baccalaureate additional information
A pass in the science Practical is required where it is separately endorsed. Offers typically exclude General Studies and Critical Thinking. Applicants who have not studied the required A-levels can apply for the Engineering/Physics/Mathematics Foundation Year
Welsh Baccalaureate contextual offer
We are committed to ensuring that all applicants with the potential to succeed, regardless of their background, are encouraged to apply to study with us. The additional information gained through contextual data allows us to recognise an applicant's potential to succeed in the context of their background and experience. Applicants who are highlighted in this way will be made an offer which is lower than the typical offer for that programme.
T-Level
T level in Science at Distinction overall with A in Core and Distinction in the Occupational Specialism, and grade A in A-level Mathematics
Other requirements
GCSE requirements
Applicants must hold GCSE English language (or GCSE English) (minimum grade 4/C) and mathematics (minimum grade 4/C)
Find the equivalent international qualifications for our entry requirements.
English language requirements
If English isn't your first language, you'll need to complete an International English Language Testing System (IELTS) to demonstrate your competence in English. You'll need all of the following scores as a minimum:
IELTS score requirements
- overall score
- 6.5
- reading
- 6.0
- writing
- 6.0
- speaking
- 6.0
- listening
- 6.0
We accept other English language tests. Find out which English language tests we accept.
You might meet our criteria in other ways if you do not have the qualifications we need. Find out more about:
- our Ignite your Journey scheme for students living permanently in the UK (including residential summer school, application support and scholarship)
- skills you might have gained through work or other life experiences (otherwise known as recognition of prior learning)
Find out more about our Admissions Policy.
Foundation year for engineering, physics, maths and geophysics
A foundation year will give you the skills and knowledge to progress to this course if you don't have the right qualifications for direct entry.
It could be the right option if you:
- have A levels, or equivalent international qualifications, in subjects other than the ones needed for direct entry
- have international qualifications in relevant subjects but not at A level equivalent
- have a BTEC Extended Diploma in a relevant subject
- are studying an Access course in a relevant subject
- are a mature student with relevant experience or study
You'll also need to show that you have strong maths skills.
Find full details on our Engineering, Maths, Physics, Geophysics Foundation Year page.
For Academic year 202425
A-levels
AAA including mathematics and either physics, chemistry or further mathematics
A-levels additional information
A pass in the science Practical is required where it is separately endorsed. Offers typically exclude General Studies and Critical Thinking. Applicants who have not studied the required A-levels can apply for the Engineering/Physics/Mathematics Foundation Year
A-levels with Extended Project Qualification
If you are taking an EPQ in addition to 3 A levels, you will receive the following offer in addition to the standard A level offer: AAB including mathematics and either physics, chemistry or further mathematics (minimum grade A) plus grade A in the EPQ
A-levels contextual offer
We are committed to ensuring that all applicants with the potential to succeed, regardless of their background, are encouraged to apply to study with us. The additional information gained through contextual data allows us to recognise an applicant's potential to succeed in the context of their background and experience. Applicants who are highlighted in this way will be made an offer which is lower than the typical offer for that programme, as follows: AAB including mathematics (minimum grade A) and either physics, chemistry or further mathematics (minimum grade B).
International Baccalaureate Diploma
Pass, with 36 points overall with 18 points at Higher Level, including 6 at Higher Level in Mathematics (Analysis and Approaches) or 7 at Higher Level in Mathematics (Applications and Interpretation), and 6 at Higher Level in Chemistry or Physics
International Baccalaureate Diploma additional information
Applicants who have not studied the required subject can apply for the Engineering/Physics/Mathematics Foundation Year
International Baccalaureate contextual offer
We are committed to ensuring that all learners with the potential to succeed, regardless of their background, are encouraged to apply to study with us. The additional information gained through contextual data allows us to recognise a learner’s potential to succeed in the context of their background and experience. Applicants who are highlighted in this way will be made an offer which is lower than the typical offer for that programme.
International Baccalaureate Career Programme (IBCP) statement
Offers will be made on the individual Diploma Course subject(s) and the career-related study qualification. The CP core will not form part of the offer. Where there is a subject pre-requisite(s), applicants will be required to study the subject(s) at Higher Level in the Diploma course subject and/or take a specified unit in the career-related study qualification. Applicants may also be asked to achieve a specific grade in those elements. Please see the University of Southampton International Baccalaureate Career-Related Programme (IBCP) Statement for further information. Applicants are advised to contact their Faculty Admissions Office for more information.
BTEC
D in the BTEC National Extended Certificate plus grades AA from two A-levels including mathematics and either physics, chemistry or further mathematics.
We will consider the BTEC National Extended Diploma in Engineering if studied alongside A-level mathematics.
We will consider the BTEC National Diploma if studied alongside mathematics and either physics, chemistry or further mathematics at A-level.
RQF BTEC
We are committed to ensuring that all learners with the potential to succeed, regardless of their background, are encouraged to apply to study with us. The additional information gained through contextual data allows us to recognise a learner’s potential to succeed in the context of their background and experience. Applicants who are highlighted in this way will be made an offer which is lower than the typical offer for that programme.
Additional information
A pass in the science Practical is required where it is separately endorsed. Applicants who have not studied the required A-levels can apply for the Engineering/Physics/Mathematics Foundation Year
QCF BTEC
D in the BTEC Subsidiary Diploma plus grades AA from 2 A-levels including mathematics and either physics, chemistry or further mathematics.
We will consider the BTEC Extended Diploma in Engineering if studied alongside A-level mathematics.
We will consider the BTEC Diploma if studied alongside A-level mathematics and either physics, chemistry or further mathematics.
We are committed to ensuring that all learners with the potential to succeed, regardless of their background, are encouraged to apply to study with us. The additional information gained through contextual data allows us to recognise a learner’s potential to succeed in the context of their background and experience. Applicants who are highlighted in this way will be made an offer which is lower than the typical offer for that programme.
Access to HE Diploma
Not accepted for this course. Applicants with an Access to HE Diploma in a relevant subject should apply for the Engineering/Physics/Mathematics Foundation Year
Irish Leaving Certificate
Irish Leaving Certificate (first awarded 2017)
H1 H1 H2 H2 H2 H2 including mathematics, applied mathemics and either chemistry, physics or physics-chemistry
Irish Leaving Certificate (first awarded 2016)
A1 A1 A2 A2 A2 A2 including mathematics, applied mathematics and either chemistry, physics or physics-chemistry
Irish certificate additional information
Applicants who have not studied the required subject can apply for the Engineering/Physics/Mathematics Foundation Year
Scottish Qualification
Offers will be based on exams being taken at the end of S6. Subjects taken and qualifications achieved in S5 will be reviewed. Careful consideration will be given to an individual’s academic achievement, taking in to account the context and circumstances of their pre-university education.
Please see the University of Southampton’s Curriculum for Excellence Scotland Statement (PDF) for further information. Applicants are advised to contact their Faculty Admissions Office for more information.
Cambridge Pre-U
D3, D3, D3 in three Principal subjects including mathematics and either physics, chemistry or further mathematics
Cambridge Pre-U additional information
Cambridge Pre-U's can be used in combination with other qualifications such as A levels to achieve the equivalent of the typical offer, where D2 can be used in lieu of A-level grade A* or grade D3 can be used in lieu of A-level grade A. Applicants who have not studied the required Principal subjects can apply for the Engineering/Physics/Mathematics Foundation Year
Welsh Baccalaureate
AAA from 3 A levels including mathematics and either physics, chemistry or further mathematics or AA from 2 A levels including mathematics and either physics, chemistry or further mathematics, and A from the Advanced Welsh Baccalaureate Skills Challenge Certificate.
Welsh Baccalaureate additional information
A pass in the science Practical is required where it is separately endorsed. Offers typically exclude General Studies and Critical Thinking. Applicants who have not studied the required A-levels can apply for the Engineering/Physics/Mathematics Foundation Year
Welsh Baccalaureate contextual offer
We are committed to ensuring that all applicants with the potential to succeed, regardless of their background, are encouraged to apply to study with us. The additional information gained through contextual data allows us to recognise an applicant's potential to succeed in the context of their background and experience. Applicants who are highlighted in this way will be made an offer which is lower than the typical offer for that programme.
T-Level
T level in Science at Distinction overall with A in Core and Distinction in the Occupational Specialism, and grade A in A-level Mathematics
Other requirements
GCSE requirements
Applicants must hold GCSE English language (or GCSE English) (minimum grade 4/C) and mathematics (minimum grade 4/C)
Find the equivalent international qualifications for our entry requirements.
English language requirements
If English isn't your first language, you'll need to complete an International English Language Testing System (IELTS) to demonstrate your competence in English. You'll need all of the following scores as a minimum:
IELTS score requirements
- overall score
- 6.5
- reading
- 6.0
- writing
- 6.0
- speaking
- 6.0
- listening
- 6.0
We accept other English language tests. Find out which English language tests we accept.
You might meet our criteria in other ways if you do not have the qualifications we need. Find out more about:
- our Ignite your Journey scheme for students living permanently in the UK (including residential summer school, application support and scholarship)
- skills you might have gained through work or other life experiences (otherwise known as recognition of prior learning)
Find out more about our Admissions Policy.
Foundation year for engineering, physics, maths and geophysics
A foundation year will give you the skills and knowledge to progress to this course if you don't have the right qualifications for direct entry.
It could be the right option if you:
- have A levels, or equivalent international qualifications, in subjects other than the ones needed for direct entry
- have international qualifications in relevant subjects but not at A level equivalent
- have a BTEC Extended Diploma in a relevant subject
- are studying an Access course in a relevant subject
- are a mature student with relevant experience or study
You'll also need to show that you have strong maths skills.
Find full details on our Engineering, Maths, Physics, Geophysics Foundation Year page.
Got a question?
Please contact our enquiries team if you're not sure that you have the right experience or qualifications to get onto this course.
Email: enquiries@southampton.ac.uk
Tel: +44(0)23 8059 5000
Course structure
The first 2 years provide the fundamentals in engineering and science. As you progress, you'll study more discipline-specific subjects and can take optional modules.
You'll get mandatory workshop training, and hands-on experience of key skills, like machining and welding. There are design elements throughout the course so you can apply your theoretical understanding to real design problems.
In the second year, you can choose to either keep to a broad-based degree structure, or take one of our more specialised pathways. These are:
- Advanced Computational Engineering - computing tools that can predict the behaviour and interactions of fluids and marine structures. These models are used to help design large commercial ships and high-performance craft.
- Marine Engineering and Autonomy - analysis and study of the engineering and autonomy systems used on ships and other marine structures. These can include innovative sensor systems, to help with environmental regulations and improve fuel efficiency.
- Naval Architecture - core naval architecture topics and computer design methods. This pathway covers the design, manufacture and operation of commercial ships.
- International Naval Architecture - this is the same as the naval architecture pathway with the option to spend a semester at one of our partner institutions. These include the Webb Institute (USA), Norwegian University of Science and Technology, and KTH Royal Institute of Technology (Sweden).
- Ocean Energy and Offshore Engineering - focuses on the search and use of sustainable energy sources in the ocean environment. You'll study the structural and hydrodynamic design of fixed and floating offshore platforms.
- Yacht and High Performance Craft - the analysis, design and engineering of yachts, small craft and other high-performance vessels. You'll examine the materials and methods used in yacht manufacture.
Year 1 overview
You’ll take part in an induction programme and work as a team to design, build and test a bulk carrier.
You’ll take a core module in engineering mathematics and further compulsory modules in:
- Basic Naval Architecture
- Design and Computing
- Electrical and Electronic Systems
- Mechanics, Structures and Materials
- Thermofluids
Year 2 overview
You'll take part in a challenging design project, for example, to design a range of ship system components with interacting parts.
Your compulsory modules will cover:
- Engineering Management and Law
- Hydrodynamics and Seakeeping
- Materials and Structures
- Ship Design and Economics
- Ship Resistance and Propulsion
Year 3 overview
You’ll carry out an individual research project, using many of the skills you’ve learnt over the previous 2 years. For example, students have looked at how to improve the speed measurements of sailing yachts, and the use of composite materials for propellers.
You will also take part in a marine craft design challenge and have the chance to share your project with industry professionals.
The other, discipline-specific core modules for this year are:
- Marine Engineering
- Marine Hydrodynamics
- Marine Structures
- Ship Manoeuvring and Control
You may also select 1 optional module per semester that include:
- Accounting and Finance for Engineers
- Manufacturing and Materials
- Yacht and High Performance Craft
Year 4 overview
You’ll take part in a group design project. This will give you a chance to apply your engineering and scientific knowledge to an engineering design problem. Projects are often linked to current research or topics that have real relevance to industry.
Compulsory modules will teach you:
- Design Search and Optimisation
- Marine Safety: Risk, Environment and Law
- Project Risk Management
For your remaining modules, you’ll choose from:
- Failure of Materials and Components
- Maritime Robotics
- Offshore Engineering and Analysis
- Renewable Energy From Environmental Flows
Want more detail? See all the modules in the course.
Modules
The modules outlined provide examples of what you can expect to learn on this degree course based on recent academic teaching. As a research-led University, we undertake a continuous review of our course to ensure quality enhancement and to manage our resources. The precise modules available to you in future years may vary depending on staff availability and research interests, new topics of study, timetabling and student demand. Find out why, when and how we might make changes.
Year 1 modules
You must study the following modules in year 1:
An Introduction to Engineering Design
Engineers design physical products, systems and processes. They think big with vision, research, analyse, create, refine and deliver solutions. Engineering is a design discipline that is broad, creative, logical and holistic, while also focused and ex...
Basic Naval Architecture
This module will provide you with an introduction to the fundamental properties of floating bodies, covering those areas conventionally treated by hydrostatic methods and will provide students with an early insight into a range of tasks involved in the de...
Electrical and Electronics Systems
It is difficult to imagine what the world would be like without electricity: homes without electric light, without television or radio, without motors to drive the washing machine, the refrigerator and the vacuum cleaner; offices without computers, word p...
Engineering Mathematics Workshop
These weekly workshops are designed to help engineering students with their Mathematics work. Although designed for engineering students, these workshops are open to all students who are studying a Mathematics MATH module, but who are not studying a degre...
Mathematics for Engineering and the Environment
This course lays the mathematical foundation for all engineering degrees. Its structure allows students with different levels of previous knowledge to work at their own pace. Pre-requisite for MATH2048 One of the pre-requisites for MATH3081 and MATH...
Mechanics, Structures and Materials
This module covers the fundamentals of mechanics, statics, dynamics and materials. Providing a firm basis for all subsequent modules in these areas in later Parts and a further career in engineering. This module consists of four parts, Statics-1, Statics...
ThermoFluids
Core Thermodynamics and Fluid Mechanics for all Engineering Themes. Students should be aware that this module requires pre requisites of Mathematics
Year 2 modules
You must study the following modules in year 2:
Hydrodynamics
In this module the fundamental concepts of hydrodynamics are introduced. The main focus is on inviscid, incompressible flow, but viscous effects including boundary layers and separated flow are introduced as well. The lectures are complemented by laborato...
Materials and Structures
This second year module continues to develop the links between structures and materials, building on the fundamentals established in the first year course on mechanics, structures and materials. The relationship between composition, microstructure and pro...
Mathematics for Engineering and the Environment Part II
The module aims to teach mathematical methods relevant for engineering. The first part is about differential equations and how solve them, from ordinary differential equations to partial differential equations. The second part is about either vector calcu...
Ship Design and Economics
A module in which students will learn the basis of sustainable ship design whilst considering the economic and safety implications. In parallel the students will undertake a preliminary ship design which will enhance their understanding of some design imp...
Ship Resistance and Propulsion
This module identifies the fundamental aspects and describes practical approaches for ship resistance and associated propulsion including propeller design and engine selection. Students will estimate the ship resistance and design propeller to fulfil the ...
Ship Structural Design and Production
This module aims to examine aspects of design relevant to the longitudinal and transverse strength of a ship. This is conducted through both first principles design and the use of classification society rules. In addition the production technology applica...
Systems Design and Computing for Ships
This module follows on from the Part 1 Design and Computing Module where students focus on the design of a functional part. In this Part 2 module students address the design of a ship’s steering system consisting of a number of interacting parts.
Year 3 modules
You must study the following modules in year 3:
Control and Instrumentation
This module covers topics in classical and modern control analysis and design with a focus on linear time invariant systems. Fundamental design and analysis in the time and frequency domain are reviewed and developed. The properties of discrete-time syste...
Finite Element Analysis in Solid Mechanics
Many real-world engineering structures are too complex for their behaviour to be understood using an ‘exact’ analytical or theoretical method alone. Therefore, in practice we often use approximate numerical or simulation-based tools for structural analysi...
Individual Project
The Individual Project is a learning experience that enables you to carry out research and bring together many of the concepts that you have learnt over the first two years of the course as well as the knowledge and skills learnt during part III. You w...
Manufacturing and Materials
This module manufacturing and materials is intended to develop a deeper understanding of the relationship between design, manufacturing processing and materials properties. This module discusses various manufacturing methods including casting, forming, we...
Marine Craft Concept Design
Developing the overall design of a marine craft to meet owner’s requirements together with relevant statutory regulations is fundamental to the practice of naval architecture. This module entails the development of a marine craft design to concept stage, ...
Marine Engineering
This module introduces the fundamental principles, design and analysis of ship power plants, drive trains and auxiliary systems found on-board marine vehicles. Students will be introduced to the operational principles, machinery configurations, perform...
Marine Hydrodynamics
This module extends the fundamentals of fluid mechanics in the context of naval architecture and ocean engineering including water waves and the fluid loading and motion of maritime structures and vessels in waves. Students will assess the concepts of add...
Marine Structures
This module extends the structural analysis principles to marine structural design and assessment, building on the fundamentals established in the previous “materials and structures” and “ship structural design and production” courses. Students will asses...
Optimisation
The module provides an introduction to the theory and practice of optimization techniques. It covers linear programming as well as nonlinear programming. This module is suitable to those who want to apply computational optimization methods to their proble...
Semester Abroad: Option 1 S2
Ship Manoeuvring and Control
This module provides the fundamental concepts associated with the principles of manoeuvring and control theory, with a focus on vehicles operating on or below the air water interface. There is one assignment which integrates manoeuvring hydrodynamic data...
Yacht and High Performance Craft
This module covers the performance and design of a variety of high performance small craft: namely semi-displacement, planing craft and catamarans as well as sailing yachts, hydrofoils and hovercraft. It will examine the basic mechanics and fluid dynamics...
You must also choose from the following modules in year 3:
Finite Element Analysis in Solid Mechanics
Many real-world engineering structures are too complex for their behaviour to be understood using an ‘exact’ analytical or theoretical method alone. Therefore, in practice we often use approximate numerical or simulation-based tools for structural analysi...
Management Science for Engineers
Management Science for Engineers introduces the building blocks of Management Science as a discipline, which is at the heart of decision-making. The module introduces the history and the context along with the general Management Science approach to decis...
Manufacturing and Materials
This module manufacturing and materials is intended to develop a deeper understanding of the relationship between design, manufacturing processing and materials properties. This module discusses various manufacturing methods including casting, forming, we...
Yacht and High Performance Craft
This module covers the performance and design of a variety of high performance small craft: namely semi-displacement, planing craft and catamarans as well as sailing yachts, hydrofoils and hovercraft. It will examine the basic mechanics and fluid dynamics...
Year 4 modules
You must study the following modules in year 4:
Advanced Electrical Systems
To provide an introduction to power system analysis and power electronics, and an in-depth coverage of electrical machine operation and design in the context of applications from the fields of renewable energy, marine propulsion and electric vehicles.
Advanced Sensors and Condition Monitoring
This module explores from traditional conditioning monitoring of machinery to biomechanical systems (i.e. sensors to monitor body forces and motions). It covers condition monitoring strategies, including international standards, monitoring procedures and...
Applications of CFD
The basic concept of Computational Fluid Dynamics and numerical procedures (FVM/FDM) are introduced. The major focus is practical applications, including geometry and grid generation, using solvers and turbulence models in CFD packages, and interpretation...
Composites Engineering Design and Mechanics
This module provides an in depth coverage of the mechanics of fibre-reinforced polymer materials and structures. The core of the course encompass modelling of the 2D orthotropic lamina reduced from 3D continuum mechanics for anisotropic solids, classical ...
Design Search and Optimisation (DSO) - Principles, Methods, Parameterizations and Case Studies
This module introduces students to formal design search and optimization (DSO) approaches using a mixture of lectures covering theory and practice and a series of worked case studies with student participation.
Group Design Project
This group project enables you to apply your conceptual engineering and science knowledge to an engineering design problem. The ideas are developed through detailed design, experimentation, computer modelling and/or manufacture. You will also consider and...
Marine Structures in Fluids
This module extends the fundamentals associated with the structural design of floating maritime vessels to account for the complexity of fluid-structure interactions on ship life and operation. Students will assess the impact of fluid-structure interacti...
Maritime Robotics
This module introduces the theoretical and practical design of maritime robotics systems such as autonomous underwater and surface vehicles (AUVs, ASVs). Students will be introduced to the theoretical principles underlying their design including aspect...
Maritime Safety: Risk, Environment and Law
In view of the Engineering Council’s support for the development of engineering degrees that will equip students to become professional engineers, the module follows the European Network for Engineering Accreditation guidelines to contribute to graduate a...
Offshore Engineering & Analysis
Offshore infrastructure forms a key part of our global communication, energy generation, material transport and environment monitoring networks. This module examines the general engineering concepts and analytical techniques that are fundamental to design...
Project Risk Management
Project risk management has evolved significantly over many years, but there are conflicting views about what constitutes best practice. This course provides an overview of best practice as outlined in the course text with a critical comparison of alterna...
Renewable Energy from Environmental Flows: Wind, Wave and Tide
The atmospheric and gravitational processes present on the earth generate flows of wind and water. This module studies these resources and practical methods/technologies for extracting cost-effective electrical and other energy conversions. The main focu...
Sailing Yacht and Powercraft Design
This module takes a practical approach primarily through assignment/project lead application of concepts of yacht design, applicable to both powered and sailing craft. Four assignments in areas of initial design, hull design, sailplan and rig development ...
Zero Carbon Ship Resistance and Propulsion
Maximising the propulsive efficiency of ships is key to their economic effectiveness and in minimising their emissions of CO2, NOx and SOx. Advances in ship performance require a detailed understanding of the fluid dynamic mechanisms which control the flo...
You must also choose from the following modules in year 4:
Advanced Finite Element Analysis
This module is aimed at providing exposure to and understanding of advanced, specialist areas of Finite Element Analysis and their underlying Solid/Structural Mechanics concepts. It then concentrates on using this knowledge for solving discipline-specifi...
Applications of CFD
The basic concept of Computational Fluid Dynamics and numerical procedures (FVM/FDM) are introduced. The major focus is practical applications, including geometry and grid generation, using solvers and turbulence models in CFD packages, and interpretation...
Composites Engineering Design and Mechanics
This module provides an in depth coverage of the mechanics of fibre-reinforced polymer materials and structures. The core of the course encompass modelling of the 2D orthotropic lamina reduced from 3D continuum mechanics for anisotropic solids, classical ...
Design Search and Optimisation (DSO) - Principles, Methods, Parameterizations and Case Studies
This module introduces students to formal design search and optimization (DSO) approaches using a mixture of lectures covering theory and practice and a series of worked case studies with student participation.
Failure of Materials and Components
In this module, the emphasis moves away from alloy development and design, and focuses on the performance of structural materials in a range of engineering applications. The lectures draw on examples from applications of ceramics, steel, Al, Ti and Ni bas...
Intelligent Mobile Robotics
This module teaches the theory and practice of robotic perception and reasoning needed for mobile autonomous vehicles to operate in dynamic, unstructured environments across land, sea and air. You will learn probabilistic methods so that robots can self-l...
Introduction to Machine Learning
Machine Learning advances are revolutionising our world. At a fundamental level, Machine Learning deals with the extraction of useful information from large and complex datasets. There are now many applications, from the automatic understanding and proces...
Marine Structures in Fluids
This module extends the fundamentals associated with the structural design of floating maritime vessels to account for the complexity of fluid-structure interactions on ship life and operation. Students will assess the impact of fluid-structure interacti...
Maritime Robotics
This module introduces the theoretical and practical design of maritime robotics systems such as autonomous underwater and surface vehicles (AUVs, ASVs). Students will be introduced to the theoretical principles underlying their design including aspect...
Offshore Engineering & Analysis
Offshore infrastructure forms a key part of our global communication, energy generation, material transport and environment monitoring networks. This module examines the general engineering concepts and analytical techniques that are fundamental to design...
Project Risk Management
Project risk management has evolved significantly over many years, but there are conflicting views about what constitutes best practice. This course provides an overview of best practice as outlined in the course text with a critical comparison of alterna...
Renewable Energy from Environmental Flows: Wind, Wave and Tide
The atmospheric and gravitational processes present on the earth generate flows of wind and water. This module studies these resources and practical methods/technologies for extracting cost-effective electrical and other energy conversions. The main focu...
Zero Carbon Ship Resistance and Propulsion
Maximising the propulsive efficiency of ships is key to their economic effectiveness and in minimising their emissions of CO2, NOx and SOx. Advances in ship performance require a detailed understanding of the fluid dynamic mechanisms which control the flo...
Learning and assessment
The learning activities for this course include the following:
- lectures
- classes and tutorials
- coursework
- individual and group projects
- independent learning (studying on your own)
Course time
How you'll spend your course time:
Year 1
Study time
Your scheduled learning, teaching and independent study for year 1:
How we'll assess you
- coursework, laboratory reports and essays
- design and problem-solving exercises
- individual and group projects
- oral presentations
- written and practical exams
Your assessment breakdown
Year 1:
Year 2
Study time
Your scheduled learning, teaching and independent study for year 2:
How we'll assess you
- coursework, laboratory reports and essays
- design and problem-solving exercises
- individual and group projects
- oral presentations
- written and practical exams
Your assessment breakdown
Year 2:
Academic support
You’ll be supported by a personal academic tutor and have access to a senior tutor.
Course leader
Georgina Keane is the course leader.
Careers
This course is accredited by the Royal Institution of Naval Architects (RINA), the Institution of Mechanical Engineers (IMechE) and the Institute of Marine Engineering, Science and Technology (IMarEST).
Worldwide, the maritime sector is buoyant with many and varied career opportunities in engineering and beyond. Because this course is accredited by 3 professional bodies, you'll have a range of options for a future naval engineering career.
Recent graduates have gone on to work at organisations including:
- BAE Systems
- BMT Group
- Gurit
- Lloyd’s Register
- Ministry of Defence
- Princess Yachts
- Qinetiq
We are also a designated university for the Defence Technical Undergraduate Scheme.
This degree also provides a great foundation to continue your studies at PhD level.
You can work as a paid student ambassador with our Marine Headstart summer school. This is a residential course for Year 12 students interested in the subject.
Careers services at Southampton
We are a top 20 UK university for employability (QS Graduate Employability Rankings 2022). Our Careers, Employability and Student Enterprise team will support you. This support includes:
- work experience schemes
- CV and interview skills and workshops
- networking events
- careers fairs attended by top employers
- a wealth of volunteering opportunities
- study abroad and summer school opportunities
We have a vibrant entrepreneurship culture and our dedicated start-up supporter, Futureworlds, is open to every student.
Work in industry
This course is also available with an industrial placement year in an engineering organisation. During your placement, you can apply the knowledge and skills you’ve developed during your degree, and gain vital professional engineering experience.
Fees, costs and funding
Tuition fees
Fees for a year's study:
- UK students pay £9,250.
- EU and international students pay £28,800.
Your fees will remain the same each year from when you start studying this course. This includes if you suspend and return.
What your fees pay for
Your tuition fees pay for the full cost of tuition and standard exams.
Find out how to:
Accommodation and living costs, such as travel and food, are not included in your tuition fees. There may also be extra costs for retake and professional exams.
Explore:
Bursaries, scholarships and other funding
If you're a UK or EU student and your household income is under £25,000 a year, you may be able to get a University of Southampton bursary to help with your living costs. Find out about bursaries and other funding we offer at Southampton.
If you're a care leaver or estranged from your parents, you may be able to get a specific bursary.
Get in touch for advice about student money matters.
Scholarships and grants
You may be able to get a scholarship or grant to help fund your studies.
We award scholarships and grants for travel, academic excellence, or to students from under-represented backgrounds.
Support during your course
The Student Services Centre offers support and advice on money to students. You may be able to access our Student Support fund and other sources of financial support during your course.
Funding for EU and international students
Find out about funding you could get as an international student.
How to apply
When you apply use:
- UCAS course code: J641
- UCAS institution code: S27
What happens after you apply?
We will assess your application on the strength of your:
- predicted grades
- academic achievements
- personal statement
- academic reference
We'll aim to process your application within 2 to 6 weeks, but this will depend on when it is submitted. Applications submitted in January, particularly near to the UCAS equal consideration deadline, might take substantially longer to be processed due to the high volume received at that time.
Equality and diversity
We treat and select everyone in line with our Equality and Diversity Statement.
Got a question?
Please contact our enquiries team if you're not sure that you have the right experience or qualifications to get onto this course.
Email: enquiries@southampton.ac.uk
Tel: +44(0)23 8059 5000